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antonblanchard.microwatt/predecode.vhdl
Paul Mackerras 722f239c02 Reimplement quadword loads and stores 
This adds implementations of lq, plq, stq, pstq, lqarx and stqcx.

Because register file addresses are now computed in decode1 before we
have the decode table entry for the instruction, we have to check the
icode directly to know when to read register RS|1 before RS (i.e. for
stq and stqcx in LE mode, but not pstq).

For the second instance of the instruction, loadstore1 uses the EA
from the first instance + 8.  It generates an alignment interrupt for
unaligned lqarx and stqcx and for lq in LE mode with an unaligned
address.  (The reason for the latter case is that it writes RT|1
before RT, and if we have RA = RT|1 and the second instance traps, we
will have overwritten RA.)

Signed-off-by: Paul Mackerras <paulus@ozlabs.org>
2024-12-27 20:40:53 +11:00

653 lines
29 KiB
VHDL
Raw Blame History

-- Instruction pre-decoder for microwatt
-- One cycle latency. Does 'WIDTH' instructions in parallel.
library ieee;
use ieee.std_logic_1164.all;
use ieee.numeric_std.all;
library work;
use work.common.all;
use work.decode_types.all;
use work.insn_helpers.all;
entity predecoder is
generic (
HAS_FPU : boolean := true;
WIDTH : natural := 2;
ICODE_LEN : natural := 10;
IMAGE_LEN : natural := 26
);
port (
clk : in std_ulogic;
valid_in : in std_ulogic;
insns_in : in std_ulogic_vector(WIDTH * 32 - 1 downto 0);
icodes_out : out std_ulogic_vector(WIDTH * (ICODE_LEN + IMAGE_LEN) - 1 downto 0)
);
end entity predecoder;
architecture behaviour of predecoder is
type predecoder_rom_t is array(0 to 2047) of insn_code;
constant major_predecode_rom : predecoder_rom_t := (
2#001100_00000# to 2#001100_11111# => INSN_addic,
2#001101_00000# to 2#001101_11111# => INSN_addic_dot,
2#001110_00000# to 2#001110_11111# => INSN_addi,
2#001111_00000# to 2#001111_11111# => INSN_addis,
2#010011_00100# to 2#010011_00101# => INSN_addpcis,
2#011100_00000# to 2#011100_11111# => INSN_andi_dot,
2#011101_00000# to 2#011101_11111# => INSN_andis_dot,
2#000000_00000# => INSN_attn,
2#010010_00000# to 2#010010_00001# => INSN_brel,
2#010010_00010# to 2#010010_00011# => INSN_babs,
2#010010_00100# to 2#010010_00101# => INSN_brel,
2#010010_00110# to 2#010010_00111# => INSN_babs,
2#010010_01000# to 2#010010_01001# => INSN_brel,
2#010010_01010# to 2#010010_01011# => INSN_babs,
2#010010_01100# to 2#010010_01101# => INSN_brel,
2#010010_01110# to 2#010010_01111# => INSN_babs,
2#010010_10000# to 2#010010_10001# => INSN_brel,
2#010010_10010# to 2#010010_10011# => INSN_babs,
2#010010_10100# to 2#010010_10101# => INSN_brel,
2#010010_10110# to 2#010010_10111# => INSN_babs,
2#010010_11000# to 2#010010_11001# => INSN_brel,
2#010010_11010# to 2#010010_11011# => INSN_babs,
2#010010_11100# to 2#010010_11101# => INSN_brel,
2#010010_11110# to 2#010010_11111# => INSN_babs,
2#010000_00000# to 2#010000_00001# => INSN_bcrel,
2#010000_00010# to 2#010000_00011# => INSN_bcabs,
2#010000_00100# to 2#010000_00101# => INSN_bcrel,
2#010000_00110# to 2#010000_00111# => INSN_bcabs,
2#010000_01000# to 2#010000_01001# => INSN_bcrel,
2#010000_01010# to 2#010000_01011# => INSN_bcabs,
2#010000_01100# to 2#010000_01101# => INSN_bcrel,
2#010000_01110# to 2#010000_01111# => INSN_bcabs,
2#010000_10000# to 2#010000_10001# => INSN_bcrel,
2#010000_10010# to 2#010000_10011# => INSN_bcabs,
2#010000_10100# to 2#010000_10101# => INSN_bcrel,
2#010000_10110# to 2#010000_10111# => INSN_bcabs,
2#010000_11000# to 2#010000_11001# => INSN_bcrel,
2#010000_11010# to 2#010000_11011# => INSN_bcabs,
2#010000_11100# to 2#010000_11101# => INSN_bcrel,
2#010000_11110# to 2#010000_11111# => INSN_bcabs,
2#001011_00000# to 2#001011_11111# => INSN_cmpi,
2#001010_00000# to 2#001010_11111# => INSN_cmpli,
2#100010_00000# to 2#100010_11111# => INSN_lbz,
2#100011_00000# to 2#100011_11111# => INSN_lbzu,
2#110010_00000# to 2#110010_11111# => INSN_lfd,
2#110011_00000# to 2#110011_11111# => INSN_lfdu,
2#110000_00000# to 2#110000_11111# => INSN_lfs,
2#110001_00000# to 2#110001_11111# => INSN_lfsu,
2#101010_00000# to 2#101010_11111# => INSN_lha,
2#101011_00000# to 2#101011_11111# => INSN_lhau,
2#101000_00000# to 2#101000_11111# => INSN_lhz,
2#101001_00000# to 2#101001_11111# => INSN_lhzu,
2#100000_00000# to 2#100000_11111# => INSN_lwz,
2#100001_00000# to 2#100001_11111# => INSN_lwzu,
2#000111_00000# to 2#000111_11111# => INSN_mulli,
2#011000_00000# to 2#011000_11111# => INSN_ori,
2#011001_00000# to 2#011001_11111# => INSN_oris,
2#010100_00000# to 2#010100_11111# => INSN_rlwimi,
2#010101_00000# to 2#010101_11111# => INSN_rlwinm,
2#010111_00000# to 2#010111_11111# => INSN_rlwnm,
2#010001_00000# to 2#010001_11111# => INSN_sc,
2#100110_00000# to 2#100110_11111# => INSN_stb,
2#100111_00000# to 2#100111_11111# => INSN_stbu,
2#110110_00000# to 2#110110_11111# => INSN_stfd,
2#110111_00000# to 2#110111_11111# => INSN_stfdu,
2#110100_00000# to 2#110100_11111# => INSN_stfs,
2#110101_00000# to 2#110101_11111# => INSN_stfsu,
2#101100_00000# to 2#101100_11111# => INSN_sth,
2#101101_00000# to 2#101101_11111# => INSN_sthu,
2#100100_00000# to 2#100100_11111# => INSN_stw,
2#100101_00000# to 2#100101_11111# => INSN_stwu,
2#001000_00000# to 2#001000_11111# => INSN_subfic,
2#000010_00000# to 2#000010_11111# => INSN_tdi,
2#000011_00000# to 2#000011_11111# => INSN_twi,
2#011010_00000# to 2#011010_11111# => INSN_xori,
2#011011_00000# to 2#011011_11111# => INSN_xoris,
-- major opcode 4
2#000100_10000# => INSN_maddhd,
2#000100_10001# => INSN_maddhdu,
2#000100_10011# => INSN_maddld,
-- major opcode 30
2#011110_01000# to 2#011110_01001# => INSN_rldic,
2#011110_01010# to 2#011110_01011# => INSN_rldic,
2#011110_00000# to 2#011110_00001# => INSN_rldicl,
2#011110_00010# to 2#011110_00011# => INSN_rldicl,
2#011110_00100# to 2#011110_00101# => INSN_rldicr,
2#011110_00110# to 2#011110_00111# => INSN_rldicr,
2#011110_01100# to 2#011110_01101# => INSN_rldimi,
2#011110_01110# to 2#011110_01111# => INSN_rldimi,
2#011110_10000# to 2#011110_10001# => INSN_rldcl,
2#011110_10010# to 2#011110_10011# => INSN_rldcr,
-- major opcode 56
2#111000_00000# to 2#111000_11111# => INSN_lq,
-- major opcode 58
2#111010_00000# => INSN_ld,
2#111010_00001# => INSN_ldu,
2#111010_00010# => INSN_lwa,
2#111010_00100# => INSN_ld,
2#111010_00101# => INSN_ldu,
2#111010_00110# => INSN_lwa,
2#111010_01000# => INSN_ld,
2#111010_01001# => INSN_ldu,
2#111010_01010# => INSN_lwa,
2#111010_01100# => INSN_ld,
2#111010_01101# => INSN_ldu,
2#111010_01110# => INSN_lwa,
2#111010_10000# => INSN_ld,
2#111010_10001# => INSN_ldu,
2#111010_10010# => INSN_lwa,
2#111010_10100# => INSN_ld,
2#111010_10101# => INSN_ldu,
2#111010_10110# => INSN_lwa,
2#111010_11000# => INSN_ld,
2#111010_11001# => INSN_ldu,
2#111010_11010# => INSN_lwa,
2#111010_11100# => INSN_ld,
2#111010_11101# => INSN_ldu,
2#111010_11110# => INSN_lwa,
-- major opcode 59
2#111011_00100# to 2#111011_00101# => INSN_fdivs,
2#111011_01000# to 2#111011_01001# => INSN_fsubs,
2#111011_01010# to 2#111011_01011# => INSN_fadds,
2#111011_01100# to 2#111011_01101# => INSN_fsqrts,
2#111011_10000# to 2#111011_10001# => INSN_fres,
2#111011_10010# to 2#111011_10011# => INSN_fmuls,
2#111011_10100# to 2#111011_10101# => INSN_frsqrtes,
2#111011_11000# to 2#111011_11001# => INSN_fmsubs,
2#111011_11010# to 2#111011_11011# => INSN_fmadds,
2#111011_11100# to 2#111011_11101# => INSN_fnmsubs,
2#111011_11110# to 2#111011_11111# => INSN_fnmadds,
-- major opcode 62
2#111110_00000# => INSN_std,
2#111110_00001# => INSN_stdu,
2#111110_00010# => INSN_stq,
2#111110_00100# => INSN_std,
2#111110_00101# => INSN_stdu,
2#111110_00110# => INSN_stq,
2#111110_01000# => INSN_std,
2#111110_01001# => INSN_stdu,
2#111110_01010# => INSN_stq,
2#111110_01100# => INSN_std,
2#111110_01101# => INSN_stdu,
2#111110_01110# => INSN_stq,
2#111110_10000# => INSN_std,
2#111110_10001# => INSN_stdu,
2#111110_10010# => INSN_stq,
2#111110_10100# => INSN_std,
2#111110_10101# => INSN_stdu,
2#111110_10110# => INSN_stq,
2#111110_11000# => INSN_std,
2#111110_11001# => INSN_stdu,
2#111110_11010# => INSN_stq,
2#111110_11100# => INSN_std,
2#111110_11101# => INSN_stdu,
2#111110_11110# => INSN_stq,
-- major opcode 63
2#111111_00100# to 2#111111_00101# => INSN_fdiv,
2#111111_01000# to 2#111111_01001# => INSN_fsub,
2#111111_01010# to 2#111111_01011# => INSN_fadd,
2#111111_01100# to 2#111111_01101# => INSN_fsqrt,
2#111111_01110# to 2#111111_01111# => INSN_fsel,
2#111111_10000# to 2#111111_10001# => INSN_fre,
2#111111_10010# to 2#111111_10011# => INSN_fmul,
2#111111_10100# to 2#111111_10101# => INSN_frsqrte,
2#111111_11000# to 2#111111_11001# => INSN_fmsub,
2#111111_11010# to 2#111111_11011# => INSN_fmadd,
2#111111_11100# to 2#111111_11101# => INSN_fnmsub,
2#111111_11110# to 2#111111_11111# => INSN_fnmadd,
-- prefix word, PO1
2#000001_00000# to 2#000001_11111# => INSN_prefix,
-- Major opcodes 57, 60 and 61 are SFFS load/store instructions when prefixed
2#111001_00000# to 2#111001_11111# => INSN_op57,
2#111100_00000# to 2#111100_11111# => INSN_op60,
2#111101_00000# to 2#111101_11111# => INSN_op61,
others => INSN_illegal
);
constant row_predecode_rom : predecoder_rom_t := (
-- Major opcode 31
-- Address bits are 0, insn(10:1)
2#0_01000_01010# => INSN_add,
2#0_11000_01010# => INSN_add, -- addo
2#0_00000_01010# => INSN_addc,
2#0_10000_01010# => INSN_addc, -- addco
2#0_00100_01010# => INSN_adde,
2#0_10100_01010# => INSN_adde, -- addeo
2#0_00101_01010# => INSN_addex,
2#0_00010_01010# => INSN_addg6s,
2#0_00111_01010# => INSN_addme,
2#0_10111_01010# => INSN_addme, -- addmeo
2#0_00110_01010# => INSN_addze,
2#0_10110_01010# => INSN_addze, -- addzeo
2#0_00000_11100# => INSN_and,
2#0_00001_11100# => INSN_andc,
2#0_00111_11100# => INSN_bperm,
2#0_00110_11011# => INSN_brh,
2#0_00100_11011# => INSN_brw,
2#0_00101_11011# => INSN_brd,
2#0_01001_11010# => INSN_cbcdtd,
2#0_01000_11010# => INSN_cdtbcd,
2#0_00110_11100# => INSN_cfuged,
2#0_00000_00000# => INSN_cmp,
2#0_01111_11100# => INSN_cmpb,
2#0_00111_00000# => INSN_cmpeqb,
2#0_00001_00000# => INSN_cmpl,
2#0_00110_00000# => INSN_cmprb,
2#0_00001_11010# => INSN_cntlzd,
2#0_00000_11010# => INSN_cntlzw,
2#0_10001_11010# => INSN_cnttzd,
2#0_10000_11010# => INSN_cnttzw,
2#0_10111_10011# => INSN_darn,
2#0_00010_10110# => INSN_dcbf,
2#0_00001_10110# => INSN_dcbst,
2#0_01000_10110# => INSN_dcbt,
2#0_00111_10110# => INSN_dcbtst,
2#0_11111_10110# => INSN_dcbz,
2#0_01100_01001# => INSN_divdeu,
2#0_11100_01001# => INSN_divdeu, -- divdeuo
2#0_01100_01011# => INSN_divweu,
2#0_11100_01011# => INSN_divweu, -- divweuo
2#0_01101_01001# => INSN_divde,
2#0_11101_01001# => INSN_divde, -- divdeo
2#0_01101_01011# => INSN_divwe,
2#0_11101_01011# => INSN_divwe, -- divweo
2#0_01110_01001# => INSN_divdu,
2#0_11110_01001# => INSN_divdu, -- divduo
2#0_01110_01011# => INSN_divwu,
2#0_11110_01011# => INSN_divwu, -- divwuo
2#0_01111_01001# => INSN_divd,
2#0_11111_01001# => INSN_divd, -- divdo
2#0_01111_01011# => INSN_divw,
2#0_11111_01011# => INSN_divw, -- divwo
2#0_11001_10110# => INSN_rnop, -- dss
2#0_01010_10110# => INSN_rnop, -- dst
2#0_01011_10110# => INSN_rnop, -- dstst
2#0_11010_10110# => INSN_eieio,
2#0_01000_11100# => INSN_eqv,
2#0_11101_11010# => INSN_extsb,
2#0_11100_11010# => INSN_extsh,
2#0_11110_11010# => INSN_extsw,
2#0_11011_11010# => INSN_extswsli,
2#0_11011_11011# => INSN_extswsli,
2#0_11110_10110# => INSN_icbi,
2#0_00000_10110# => INSN_icbt,
2#0_00000_01111# => INSN_isel,
2#0_00001_01111# => INSN_isel,
2#0_00010_01111# => INSN_isel,
2#0_00011_01111# => INSN_isel,
2#0_00100_01111# => INSN_isel,
2#0_00101_01111# => INSN_isel,
2#0_00110_01111# => INSN_isel,
2#0_00111_01111# => INSN_isel,
2#0_01000_01111# => INSN_isel,
2#0_01001_01111# => INSN_isel,
2#0_01010_01111# => INSN_isel,
2#0_01011_01111# => INSN_isel,
2#0_01100_01111# => INSN_isel,
2#0_01101_01111# => INSN_isel,
2#0_01110_01111# => INSN_isel,
2#0_01111_01111# => INSN_isel,
2#0_10000_01111# => INSN_isel,
2#0_10001_01111# => INSN_isel,
2#0_10010_01111# => INSN_isel,
2#0_10011_01111# => INSN_isel,
2#0_10100_01111# => INSN_isel,
2#0_10101_01111# => INSN_isel,
2#0_10110_01111# => INSN_isel,
2#0_10111_01111# => INSN_isel,
2#0_11000_01111# => INSN_isel,
2#0_11001_01111# => INSN_isel,
2#0_11010_01111# => INSN_isel,
2#0_11011_01111# => INSN_isel,
2#0_11100_01111# => INSN_isel,
2#0_11101_01111# => INSN_isel,
2#0_11110_01111# => INSN_isel,
2#0_11111_01111# => INSN_isel,
2#0_00001_10100# => INSN_lbarx,
2#0_11010_10101# => INSN_lbzcix,
2#0_00011_10111# => INSN_lbzux,
2#0_00010_10111# => INSN_lbzx,
2#0_00010_10100# => INSN_ldarx,
2#0_10000_10100# => INSN_ldbrx,
2#0_11011_10101# => INSN_ldcix,
2#0_00001_10101# => INSN_ldux,
2#0_00000_10101# => INSN_ldx,
2#0_10010_10111# => INSN_lfdx,
2#0_10011_10111# => INSN_lfdux,
2#0_11010_10111# => INSN_lfiwax,
2#0_11011_10111# => INSN_lfiwzx,
2#0_10000_10111# => INSN_lfsx,
2#0_10001_10111# => INSN_lfsux,
2#0_00011_10100# => INSN_lharx,
2#0_01011_10111# => INSN_lhaux,
2#0_01010_10111# => INSN_lhax,
2#0_11000_10110# => INSN_lhbrx,
2#0_11001_10101# => INSN_lhzcix,
2#0_01001_10111# => INSN_lhzux,
2#0_01000_10111# => INSN_lhzx,
2#0_01000_10100# => INSN_lqarx,
2#0_00000_10100# => INSN_lwarx,
2#0_01011_10101# => INSN_lwaux,
2#0_01010_10101# => INSN_lwax,
2#0_10000_10110# => INSN_lwbrx,
2#0_11000_10101# => INSN_lwzcix,
2#0_00001_10111# => INSN_lwzux,
2#0_00000_10111# => INSN_lwzx,
2#0_10010_00000# => INSN_mcrxrx,
2#0_00000_10011# => INSN_mfcr,
2#0_00010_10011# => INSN_mfmsr,
2#0_01010_10011# => INSN_mfspr,
2#0_01000_01001# => INSN_modud,
2#0_01000_01011# => INSN_moduw,
2#0_11000_01001# => INSN_modsd,
2#0_11000_01011# => INSN_modsw,
2#0_00100_10000# => INSN_mtcrf,
2#0_00100_10010# => INSN_mtmsr,
2#0_00101_10010# => INSN_mtmsrd,
2#0_01110_10011# => INSN_mtspr,
2#0_00010_01001# => INSN_mulhd,
2#0_00000_01001# => INSN_mulhdu,
2#0_00010_01011# => INSN_mulhw,
2#0_00000_01011# => INSN_mulhwu,
-- next 4 have reserved bit set
2#0_10010_01001# => INSN_mulhd,
2#0_10000_01001# => INSN_mulhdu,
2#0_10010_01011# => INSN_mulhw,
2#0_10000_01011# => INSN_mulhwu,
2#0_00111_01001# => INSN_mulld,
2#0_10111_01001# => INSN_mulld, -- mulldo
2#0_00111_01011# => INSN_mullw,
2#0_10111_01011# => INSN_mullw, -- mullwo
2#0_01110_11100# => INSN_nand,
2#0_00011_01000# => INSN_neg,
2#0_10011_01000# => INSN_neg, -- nego
-- next 8 are reserved no-op instructions
2#0_10000_10010# => INSN_rnop,
2#0_10001_10010# => INSN_rnop,
2#0_10010_10010# => INSN_rnop,
2#0_10011_10010# => INSN_rnop,
2#0_10100_10010# => INSN_rnop,
2#0_10101_10010# => INSN_rnop,
2#0_10110_10010# => INSN_rnop,
2#0_10111_10010# => INSN_rnop,
2#0_00011_11100# => INSN_nor,
2#0_01101_11100# => INSN_or,
2#0_01100_11100# => INSN_orc,
2#0_00100_11100# => INSN_pdepd,
2#0_00101_11100# => INSN_pextd,
2#0_00011_11010# => INSN_popcntb,
2#0_01111_11010# => INSN_popcntd,
2#0_01011_11010# => INSN_popcntw,
2#0_00101_11010# => INSN_prtyd,
2#0_00100_11010# => INSN_prtyw,
2#0_00100_00000# => INSN_setb,
2#0_01100_00000# => INSN_setb, -- setbc
2#0_01101_00000# => INSN_setb, -- setbcr
2#0_01110_00000# => INSN_setb, -- setnbc
2#0_01111_00000# => INSN_setb, -- setnbcr
2#0_01111_10010# => INSN_slbia,
2#0_00000_11011# => INSN_sld,
2#0_00000_11000# => INSN_slw,
2#0_11000_11010# => INSN_srad,
2#0_11001_11010# => INSN_sradi,
2#0_11001_11011# => INSN_sradi,
2#0_11000_11000# => INSN_sraw,
2#0_11001_11000# => INSN_srawi,
2#0_10000_11011# => INSN_srd,
2#0_10000_11000# => INSN_srw,
2#0_11110_10101# => INSN_stbcix,
2#0_10101_10110# => INSN_stbcx,
2#0_00111_10111# => INSN_stbux,
2#0_00110_10111# => INSN_stbx,
2#0_10100_10100# => INSN_stdbrx,
2#0_11111_10101# => INSN_stdcix,
2#0_00110_10110# => INSN_stdcx,
2#0_00101_10101# => INSN_stdux,
2#0_00100_10101# => INSN_stdx,
2#0_10110_10111# => INSN_stfdx,
2#0_10111_10111# => INSN_stfdux,
2#0_11110_10111# => INSN_stfiwx,
2#0_10100_10111# => INSN_stfsx,
2#0_10101_10111# => INSN_stfsux,
2#0_11100_10110# => INSN_sthbrx,
2#0_11101_10101# => INSN_sthcix,
2#0_10110_10110# => INSN_sthcx,
2#0_01101_10111# => INSN_sthux,
2#0_01100_10111# => INSN_sthx,
2#0_00101_10110# => INSN_stqcx,
2#0_10100_10110# => INSN_stwbrx,
2#0_11100_10101# => INSN_stwcix,
2#0_00100_10110# => INSN_stwcx,
2#0_00101_10111# => INSN_stwux,
2#0_00100_10111# => INSN_stwx,
2#0_00001_01000# => INSN_subf,
2#0_10001_01000# => INSN_subf, -- subfo
2#0_00000_01000# => INSN_subfc,
2#0_10000_01000# => INSN_subfc, -- subfco
2#0_00100_01000# => INSN_subfe,
2#0_10100_01000# => INSN_subfe, -- subfeo
2#0_00111_01000# => INSN_subfme,
2#0_10111_01000# => INSN_subfme, -- subfmeo
2#0_00110_01000# => INSN_subfze,
2#0_10110_01000# => INSN_subfze, -- subfzeo
2#0_10010_10110# => INSN_sync,
2#0_00010_00100# => INSN_td,
2#0_00000_00100# => INSN_tw,
2#0_01001_10010# => INSN_tlbie,
2#0_01000_10010# => INSN_tlbiel,
2#0_10001_10110# => INSN_tlbsync,
2#0_00000_11110# => INSN_wait,
2#0_01001_11100# => INSN_xor,
-- Major opcode 19
-- Columns with insn(4) = '1' are all illegal and not mapped here; to
-- fit into 2048 entries, the columns are remapped so that 16-24 are
-- stored here as 8-15; in other words the address bits are
-- 1, insn(10..6), 1, insn(5), insn(3..1)
-- Columns 16-17 here are opcode 19 columns 0-1
-- Columns 24-31 here are opcode 19 columns 16-23
2#1_10000_11000# => INSN_bcctr,
2#1_00000_11000# => INSN_bclr,
2#1_10001_11000# => INSN_bctar,
2#1_01000_10001# => INSN_crand,
2#1_00100_10001# => INSN_crandc,
2#1_01001_10001# => INSN_creqv,
2#1_00111_10001# => INSN_crnand,
2#1_00001_10001# => INSN_crnor,
2#1_01110_10001# => INSN_cror,
2#1_01101_10001# => INSN_crorc,
2#1_00110_10001# => INSN_crxor,
2#1_00100_11110# => INSN_isync,
2#1_00000_10000# => INSN_mcrf,
2#1_00000_11010# => INSN_rfid,
2#1_00010_11010# => INSN_rfscv,
2#1_01000_11010# => INSN_rfid, -- hrfid
-- Major opcode 59
-- Address bits are 1, insn(10..6), 1, 0, insn(3..1)
-- Only column 14 is valid here; columns 16-31 are handled in the major table
-- Column 14 is mapped to column 22.
-- Columns 20-23 here are opcode 59 columns 12-15
2#1_11010_10110# => INSN_fcfids,
2#1_11110_10110# => INSN_fcfidus,
-- Major opcode 63
-- Columns 0-15 are mapped here; columns 16-31 are in the major table.
-- Address bits are 1, insn(10:6), 0, insn(4:1)
-- Columns 0-15 here are opcode 63 columns 0-15
2#1_00000_00000# => INSN_fcmpu,
2#1_00001_00000# => INSN_fcmpo,
2#1_00010_00000# => INSN_mcrfs,
2#1_00100_00000# => INSN_ftdiv,
2#1_00101_00000# => INSN_ftsqrt,
2#1_00001_00110# => INSN_mtfsb,
2#1_00010_00110# => INSN_mtfsb,
2#1_00100_00110# => INSN_mtfsfi,
2#1_11010_00110# => INSN_fmrgow,
2#1_11110_00110# => INSN_fmrgew,
2#1_10010_00111# => INSN_mffs,
2#1_10110_00111# => INSN_mtfsf,
2#1_00000_01000# => INSN_fcpsgn,
2#1_00001_01000# => INSN_fneg,
2#1_00010_01000# => INSN_fmr,
2#1_00100_01000# => INSN_fnabs,
2#1_01000_01000# => INSN_fabs,
2#1_01100_01000# => INSN_frin,
2#1_01101_01000# => INSN_friz,
2#1_01110_01000# => INSN_frip,
2#1_01111_01000# => INSN_frim,
2#1_00000_01100# => INSN_frsp,
2#1_00000_01110# => INSN_fctiw,
2#1_00100_01110# => INSN_fctiwu,
2#1_11001_01110# => INSN_fctid,
2#1_11010_01110# => INSN_fcfid,
2#1_11101_01110# => INSN_fctidu,
2#1_11110_01110# => INSN_fcfidu,
2#1_00000_01111# => INSN_fctiwz,
2#1_00100_01111# => INSN_fctiwuz,
2#1_11001_01111# => INSN_fctidz,
2#1_11101_01111# => INSN_fctiduz,
others => INSN_illegal
);
constant IOUT_LEN : natural := ICODE_LEN + IMAGE_LEN;
type predec_t is record
image : std_ulogic_vector(31 downto 0);
maj_predecode : unsigned(ICODE_LEN - 1 downto 0);
row_predecode : unsigned(ICODE_LEN - 1 downto 0);
end record;
subtype index_t is integer range 0 to WIDTH-1;
type predec_array is array(index_t) of predec_t;
signal pred : predec_array;
signal valid : std_ulogic;
begin
predecode_0: process(clk)
variable majaddr : std_ulogic_vector(10 downto 0);
variable rowaddr : std_ulogic_vector(10 downto 0);
variable iword : std_ulogic_vector(31 downto 0);
variable majcode : insn_code;
variable rowcode : insn_code;
begin
if rising_edge(clk) then
valid <= valid_in;
for i in index_t loop
iword := insns_in(i * 32 + 31 downto i * 32);
pred(i).image <= iword;
if is_X(iword) then
pred(i).maj_predecode <= (others => 'X');
pred(i).row_predecode <= (others => 'X');
else
majaddr := iword(31 downto 26) & iword(4 downto 0);
-- row_predecode_rom is used for op 19, 31, 59, 63
-- addr bit 10 is 0 for op 31, 1 for 19, 59, 63
rowaddr(10) := iword(31) or not iword(29);
rowaddr(9 downto 5) := iword(10 downto 6);
if iword(28) = '0' then
-- op 19 and op 59
rowaddr(4 downto 3) := '1' & iword(5);
else
-- op 31 and 63; for 63 we only use this when iword(5) = '0'
rowaddr(4 downto 3) := iword(5 downto 4);
end if;
rowaddr(2 downto 0) := iword(3 downto 1);
majcode := major_predecode_rom(to_integer(unsigned(majaddr)));
pred(i).maj_predecode <= to_unsigned(insn_code'pos(majcode), ICODE_LEN);
rowcode := row_predecode_rom(to_integer(unsigned(rowaddr)));
pred(i).row_predecode <= to_unsigned(insn_code'pos(rowcode), ICODE_LEN);
end if;
end loop;
end if;
end process;
predecode_1: process(all)
variable iword : std_ulogic_vector(31 downto 0);
variable use_row : std_ulogic;
variable illegal : std_ulogic;
variable ici : std_ulogic_vector(IOUT_LEN - 1 downto 0);
variable icode : unsigned(ICODE_LEN - 1 downto 0);
begin
for i in index_t loop
iword := pred(i).image;
icode := pred(i).maj_predecode;
use_row := '0';
illegal := '0';
case iword(31 downto 26) is
when "000100" => -- 4
-- major opcode 4, mostly VMX/VSX stuff but also some integer ops (madd*)
illegal := not iword(5);
when "010011" => -- 19
-- Columns 8-15 and 24-31 don't have any valid instructions
-- (where insn(5..1) is the column number).
-- addpcis (column 2) is in the major table
-- Other valid columns are mapped to columns in the second
-- half of the row table: columns 0-1 are mapped to 16-17
-- and 16-23 are mapped to 24-31.
illegal := iword(4);
use_row := iword(5) or (not iword(3) and not iword(2));
when "011000" => -- 24
-- ori, special-case the standard NOP
if std_match(iword, "01100000000000000000000000000000") then
icode := to_unsigned(insn_code'pos(INSN_nop), ICODE_LEN);
end if;
when "011111" => -- 31
-- major opcode 31, lots of things
-- Use the first half of the row table for all columns
use_row := '1';
when "111011" => -- 59
-- floating point operations, mostly single-precision
-- Columns 0-11 are illegal; columns 12-15 are mapped
-- to columns 20-23 in the second half of the row table,
-- and columns 16-31 are in the major table.
illegal := not iword(5) and (not iword(4) or not iword(3));
use_row := not iword(5);
when "111111" => -- 63
-- floating point operations, general and double-precision
-- Use columns 0-15 of the second half of the row table
-- for columns 0-15, and the major table for columns 16-31.
use_row := not iword(5);
when others =>
end case;
if use_row = '1' then
icode := pred(i).row_predecode;
end if;
-- Mark FP instructions as illegal if we don't have an FPU
if not HAS_FPU and not is_X(icode) and
to_integer(icode) >= insn_code'pos(INSN_first_frs) then
illegal := '1';
end if;
ici(31 downto 0) := iword;
ici(IOUT_LEN - 1 downto 32) := (others => '0');
if valid = '0' or illegal = '1' or is_X(icode) or
icode = to_unsigned(insn_code'pos(INSN_illegal), ICODE_LEN) then
-- Since an insn_code currently fits in 9 bits, use just
-- the most significant bit of ici to indicate illegal insns.
ici(IOUT_LEN - 1) := '1';
else
ici(IOUT_LEN - 1 downto IMAGE_LEN) := std_ulogic_vector(icode);
end if;
icodes_out(i * IOUT_LEN + IOUT_LEN - 1 downto i * IOUT_LEN) <= ici;
end loop;
end process;
end architecture behaviour;
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