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      1 /* Table of opcodes for the DLX microprocess.
      2    Copyright (C) 2002-2014 Free Software Foundation, Inc.
      3 
      4    This file is part of GDB and GAS.
      5 
      6    This program is free software; you can redistribute it and/or modify
      7    it under the terms of the GNU General Public License as published by
      8    the Free Software Foundation; either version 3 of the License, or
      9    (at your option) any later version.
     10 
     11    This program is distributed in the hope that it will be useful,
     12    but WITHOUT ANY WARRANTY; without even the implied warranty of
     13    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
     14    GNU General Public License for more details.
     15 
     16    You should have received a copy of the GNU General Public License
     17    along with this program; if not, write to the Free Software
     18    Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
     19    MA 02110-1301, USA.
     20 
     21    Initially created by Kuang Hwa Lin, 2002.   */
     22 
     23 /* Following are the function codes for the Special OP (ALU).  */
     24 #define  ALUOP       0x00000000
     25 #define  SPECIALOP   0x00000000
     26 
     27 #define  NOPF        0x00000000
     28 #define  SLLF        0x00000004
     29 #define  SRLF        0x00000006
     30 #define  SRAF        0x00000007
     31 
     32 #define  SEQUF       0x00000010
     33 #define  SNEUF       0x00000011
     34 #define  SLTUF       0x00000012
     35 #define  SGTUF       0x00000013
     36 #define  SLEUF       0x00000014
     37 #define  SGEUF       0x00000015
     38 
     39 #define  ADDF        0x00000020
     40 #define  ADDUF       0x00000021
     41 #define  SUBF        0x00000022
     42 #define  SUBUF       0x00000023
     43 #define  ANDF        0x00000024
     44 #define  ORF         0x00000025
     45 #define  XORF        0x00000026
     46 
     47 #define  SEQF        0x00000028
     48 #define  SNEF        0x00000029
     49 #define  SLTF        0x0000002A
     50 #define  SGTF        0x0000002B
     51 #define  SLEF        0x0000002C
     52 #define  SGEF        0x0000002D
     53   /* Following special functions was not mentioned in the
     54      Hennessy's book but was implemented in the RTL.  */
     55 #define  MVTSF 	     0x00000030
     56 #define  MVFSF       0x00000031
     57 #define  BSWAPF      0x00000032
     58 #define  LUTF        0x00000033
     59 /* Following special functions was mentioned in the
     60    Hennessy's book but was not implemented in the RTL.  */
     61 #define  MULTF       0x00000005
     62 #define  MULTUF      0x00000006
     63 #define  DIVF        0x00000007
     64 #define  DIVUF       0x00000008
     65 
     66 
     67 /* Following are the rest of the OPcodes:
     68    JOP    = (0x002 << 26), JALOP  = (0x003 << 26), BEQOP = (0x004 << 26),   BNEOP  = (0x005 << 26)
     69    ADDIOP = (0x008 << 26), ADDUIOP= (0x009 << 26), SUBIOP	= (0x00A << 26), SUBUIOP= (0x00B << 26)
     70    ANDIOP = (0x00C << 26), ORIOP  = (0x00D << 26), XORIOP = (0x00E << 26),  LHIOP  = (0x00F << 26)
     71    RFEOP  = (0x010 << 26), TRAPOP = (0x011 << 26), JROP	= (0x012 << 26), JALROP = (0x013 << 26)
     72    BREAKOP= (0x014 << 26)
     73    SEQIOP = (0x018 << 26), SNEIOP = (0x019 << 26), SLTIOP = (0x01A << 26),  SGTIOP = (0x01B << 26)
     74    SLEIOP = (0x01C << 26), SGEIOP = (0x01D << 26)
     75    LBOP   = (0x020 << 26), LHOP   = (0x021 << 26), LWOP   = (0x023 << 26),  LBUOP  = (0x024 << 26)
     76    LHUOP  = (0x025 << 26), SBOP   = (0x028 << 26), SHOP   = (0x029 << 26),  SWOP   = (0x02B << 26)
     77    LSBUOP = (0x026 << 26), LSHU   = (0x027 << 26), LSW    = (0x02C << 26),
     78    SEQUIOP= (0x030 << 26), SNEUIOP= (0x031 << 26), SLTUIOP= (0x032 << 26),  SGTUIOP= (0x033 << 26)
     79    SLEUIOP= (0x034 << 26), SGEUIOP= (0x035 << 26)
     80    SLLIOP = (0x036 << 26), SRLIOP = (0x037 << 26), SRAIOP = (0x038 << 26).  */
     81 #define  JOP	     0x08000000
     82 #define  JALOP	     0x0c000000
     83 #define  BEQOP	     0x10000000
     84 #define  BNEOP	     0x14000000
     85 
     86 #define  ADDIOP	     0x20000000
     87 #define  ADDUIOP     0x24000000
     88 #define  SUBIOP	     0x28000000
     89 #define  SUBUIOP     0x2c000000
     90 #define  ANDIOP      0x30000000
     91 #define  ORIOP       0x34000000
     92 #define  XORIOP      0x38000000
     93 #define  LHIOP       0x3c000000
     94 #define  RFEOP	     0x40000000
     95 #define  TRAPOP      0x44000000
     96 #define  JROP	     0x48000000
     97 #define  JALROP      0x4c000000
     98 #define  BREAKOP     0x50000000
     99 
    100 #define  SEQIOP      0x60000000
    101 #define  SNEIOP      0x64000000
    102 #define  SLTIOP      0x68000000
    103 #define  SGTIOP      0x6c000000
    104 #define  SLEIOP      0x70000000
    105 #define  SGEIOP      0x74000000
    106 
    107 #define  LBOP        0x80000000
    108 #define  LHOP        0x84000000
    109 #define  LWOP        0x8c000000
    110 #define  LBUOP       0x90000000
    111 #define  LHUOP	     0x94000000
    112 #define  LDSTBU
    113 #define  LDSTHU
    114 #define  SBOP	     0xa0000000
    115 #define  SHOP        0xa4000000
    116 #define  SWOP        0xac000000
    117 #define  LDST
    118 
    119 #define  SEQUIOP     0xc0000000
    120 #define  SNEUIOP     0xc4000000
    121 #define  SLTUIOP     0xc8000000
    122 #define  SGTUIOP     0xcc000000
    123 #define  SLEUIOP     0xd0000000
    124 #define  SGEUIOP     0xd4000000
    125 
    126 #define  SLLIOP      0xd8000000
    127 #define  SRLIOP      0xdc000000
    128 #define  SRAIOP      0xe0000000
    129 
    130 /* Following 3 ops was added to provide the MP atonmic operation.  */
    131 #define  LSBUOP      0x98000000
    132 #define  LSHUOP      0x9c000000
    133 #define  LSWOP       0xb0000000
    134 
    135 /* Following opcode was defined in the Hennessy's book as
    136    "normal" opcode but was implemented in the RTL as special
    137    functions.  */
    138 #if 0
    139 #define  MVTSOP	     0x50000000
    140 #define  MVFSOP      0x54000000
    141 #endif
    142 
    143 struct dlx_opcode
    144 {
    145   /* Name of the instruction.  */
    146   char *name;
    147 
    148   /* Opcode word.  */
    149   unsigned long opcode;
    150 
    151   /* A string of characters which describe the operands.
    152      Valid characters are:
    153      ,        Itself.  The character appears in the assembly code.
    154      a        rs1      The register number is in bits 21-25 of the instruction.
    155      b        rs2/rd   The register number is in bits 16-20 of the instruction.
    156      c        rd.      The register number is in bits 11-15 of the instruction.
    157      f        FUNC bits 0-10 of the instruction.
    158      i        An immediate operand is in bits 0-16 of the instruction. 0 extended
    159      I        An immediate operand is in bits 0-16 of the instruction. sign extended
    160      d	      An 16 bit PC relative displacement.
    161      D	      An immediate operand is in bits 0-25 of the instruction.
    162      N	      No opperands needed, for nops.
    163      P	      it can be a register or a 16 bit operand.  */
    164   char *args;
    165 };
    166 
    167 static const struct dlx_opcode dlx_opcodes[] =
    168   {
    169   /* Arithmetic and Logic R-TYPE instructions.  */
    170     { "nop",      (ALUOP|NOPF),   "N"     },  /* NOP                          */
    171     { "add",      (ALUOP|ADDF),   "c,a,b" },  /* Add                          */
    172     { "addu",     (ALUOP|ADDUF),  "c,a,b" },  /* Add Unsigned                 */
    173     { "sub",      (ALUOP|SUBF),   "c,a,b" },  /* SUB                          */
    174     { "subu",     (ALUOP|SUBUF),  "c,a,b" },  /* Sub Unsigned                 */
    175     { "mult",     (ALUOP|MULTF),  "c,a,b" },  /* MULTIPLY                     */
    176     { "multu",    (ALUOP|MULTUF), "c,a,b" },  /* MULTIPLY Unsigned            */
    177     { "div",      (ALUOP|DIVF),   "c,a,b" },  /* DIVIDE                       */
    178     { "divu",     (ALUOP|DIVUF),  "c,a,b" },  /* DIVIDE Unsigned              */
    179     { "and",      (ALUOP|ANDF),   "c,a,b" },  /* AND                          */
    180     { "or",       (ALUOP|ORF),    "c,a,b" },  /* OR                           */
    181     { "xor",      (ALUOP|XORF),   "c,a,b" },  /* Exclusive OR                 */
    182     { "sll",      (ALUOP|SLLF),   "c,a,b" },  /* SHIFT LEFT LOGICAL           */
    183     { "sra",      (ALUOP|SRAF),   "c,a,b" },  /* SHIFT RIGHT ARITHMETIC       */
    184     { "srl",      (ALUOP|SRLF),   "c,a,b" },  /* SHIFT RIGHT LOGICAL          */
    185     { "seq",      (ALUOP|SEQF),   "c,a,b" },  /* Set if equal                 */
    186     { "sne",      (ALUOP|SNEF),   "c,a,b" },  /* Set if not equal             */
    187     { "slt",      (ALUOP|SLTF),   "c,a,b" },  /* Set if less                  */
    188     { "sgt",      (ALUOP|SGTF),   "c,a,b" },  /* Set if greater               */
    189     { "sle",      (ALUOP|SLEF),   "c,a,b" },  /* Set if less or equal         */
    190     { "sge",      (ALUOP|SGEF),   "c,a,b" },  /* Set if greater or equal      */
    191     { "sequ",     (ALUOP|SEQUF),  "c,a,b" },  /* Set if equal unsigned        */
    192     { "sneu",     (ALUOP|SNEUF),  "c,a,b" },  /* Set if not equal unsigned    */
    193     { "sltu",     (ALUOP|SLTUF),  "c,a,b" },  /* Set if less unsigned         */
    194     { "sgtu",     (ALUOP|SGTUF),  "c,a,b" },  /* Set if greater unsigned      */
    195     { "sleu",     (ALUOP|SLEUF),  "c,a,b" },  /* Set if less or equal unsigned*/
    196     { "sgeu",     (ALUOP|SGEUF),  "c,a,b" },  /* Set if greater or equal      */
    197     { "mvts",     (ALUOP|MVTSF),  "c,a"   },  /* Move to special register     */
    198     { "mvfs",     (ALUOP|MVFSF),  "c,a"   },  /* Move from special register   */
    199     { "bswap",    (ALUOP|BSWAPF), "c,a,b" },  /* ??? Was not documented       */
    200     { "lut",      (ALUOP|LUTF),   "c,a,b" },  /* ????? same as above          */
    201 
    202     /* Arithmetic and Logical Immediate I-TYPE instructions.  */
    203     { "addi",     ADDIOP,         "b,a,I" },  /* Add Immediate                */
    204     { "addui",    ADDUIOP,        "b,a,i" },  /* Add Usigned Immediate        */
    205     { "subi",     SUBIOP,         "b,a,I" },  /* Sub Immediate                */
    206     { "subui",    SUBUIOP,        "b,a,i" },  /* Sub Unsigned Immedated       */
    207     { "andi",     ANDIOP,         "b,a,i" },  /* AND Immediate                */
    208     { "ori",      ORIOP,          "b,a,i" },  /* OR  Immediate                */
    209     { "xori",     XORIOP,         "b,a,i" },  /* Exclusive OR  Immediate      */
    210     { "slli",     SLLIOP,         "b,a,i" },  /* SHIFT LEFT LOCICAL Immediate */
    211     { "srai",     SRAIOP,         "b,a,i" },  /* SHIFT RIGHT ARITH. Immediate */
    212     { "srli",     SRLIOP,         "b,a,i" },  /* SHIFT RIGHT LOGICAL Immediate*/
    213     { "seqi",     SEQIOP,         "b,a,i" },  /* Set if equal                 */
    214     { "snei",     SNEIOP,         "b,a,i" },  /* Set if not equal             */
    215     { "slti",     SLTIOP,         "b,a,i" },  /* Set if less                  */
    216     { "sgti",     SGTIOP,         "b,a,i" },  /* Set if greater               */
    217     { "slei",     SLEIOP,         "b,a,i" },  /* Set if less or equal         */
    218     { "sgei",     SGEIOP,         "b,a,i" },  /* Set if greater or equal      */
    219     { "sequi",    SEQUIOP,        "b,a,i" },  /* Set if equal                 */
    220     { "sneui",    SNEUIOP,        "b,a,i" },  /* Set if not equal             */
    221     { "sltui",    SLTUIOP,        "b,a,i" },  /* Set if less                  */
    222     { "sgtui",    SGTUIOP,        "b,a,i" },  /* Set if greater               */
    223     { "sleui",    SLEUIOP,        "b,a,i" },  /* Set if less or equal         */
    224     { "sgeui",    SGEUIOP,        "b,a,i" },  /* Set if greater or equal      */
    225     /* Macros for I type instructions.  */
    226     { "mov",      ADDIOP,         "b,P"   },  /* a move macro                 */
    227     { "movu",     ADDUIOP,        "b,P"   },  /* a move macro, unsigned       */
    228 
    229 #if 0
    230     /* Move special.  */
    231     { "mvts",     MVTSOP,         "b,a"   },  /* Move From Integer to Special */
    232     { "mvfs",     MVFSOP,         "b,a"   },  /* Move From Special to Integer */
    233 #endif
    234 
    235     /* Load high Immediate I-TYPE instruction.  */
    236     { "lhi",      LHIOP,          "b,i"   },  /* Load High Immediate          */
    237     { "lui",      LHIOP,          "b,i"   },  /* Load High Immediate          */
    238     { "sethi",    LHIOP,          "b,i"   },  /* Load High Immediate          */
    239 
    240   /* LOAD/STORE BYTE 8 bits I-TYPE.  */
    241     { "lb",       LBOP,           "b,a,I" },  /* Load Byte                    */
    242     { "lbu",      LBUOP,          "b,a,I" },  /* Load Byte Unsigned           */
    243     { "ldstbu",   LSBUOP,         "b,a,I" },  /* Load store Byte Unsigned     */
    244     { "sb",       SBOP,           "b,a,I" },  /* Store Byte                   */
    245 
    246     /* LOAD/STORE HALFWORD 16 bits.  */
    247     { "lh",       LHOP,           "b,a,I" },  /* Load Halfword                */
    248     { "lhu",      LHUOP,          "b,a,I" },  /* Load Halfword Unsigned       */
    249     { "ldsthu",   LSHUOP,         "b,a,I" },  /* Load Store Halfword Unsigned */
    250     { "sh",       SHOP,           "b,a,I" },  /* Store Halfword               */
    251 
    252   /* LOAD/STORE WORD 32 bits.  */
    253     { "lw",       LWOP,           "b,a,I" },  /* Load Word                    */
    254     { "sw",       SWOP,           "b,a,I" },  /* Store Word                   */
    255     { "ldstw",    LSWOP,          "b,a,I" },  /* Load Store Word              */
    256 
    257   /* Branch PC-relative, 16 bits offset.  */
    258     { "beqz",     BEQOP,          "a,d" },    /* Branch if a == 0             */
    259     { "bnez",     BNEOP,          "a,d" },    /* Branch if a != 0             */
    260     { "beq",      BEQOP,          "a,d" },    /* Branch if a == 0             */
    261     { "bne",      BNEOP,          "a,d" },    /* Branch if a != 0             */
    262 
    263     /* Jumps Trap and RFE J-TYPE.  */
    264     { "j",        JOP,            "D" },      /* Jump, PC-relative 26 bits    */
    265     { "jal",      JALOP,          "D" },      /* JAL, PC-relative 26 bits     */
    266     { "break",    BREAKOP,        "D" },      /* break to OS                  */
    267     { "trap" ,    TRAPOP,         "D" },      /* TRAP to OS                   */
    268     { "rfe",      RFEOP,          "N" },      /* Return From Exception        */
    269     /* Macros.  */
    270     { "call",     JOP,            "D" },      /* Jump, PC-relative 26 bits    */
    271 
    272     /* Jumps Trap and RFE I-TYPE.  */
    273     { "jr",       JROP,           "a" },      /* Jump Register, Abs (32 bits) */
    274     { "jalr",     JALROP,         "a" },      /* JALR, Abs (32 bits)          */
    275     /* Macros.  */
    276     { "retr",     JROP,           "a" },      /* Jump Register, Abs (32 bits) */
    277 
    278     { "", 0x0, "" }		/* Dummy entry, not included in NUM_OPCODES.
    279 				   This lets code examine entry i + 1 without
    280 				   checking if we've run off the end of the table.  */
    281   };
    282 
    283 const unsigned int num_dlx_opcodes = (((sizeof dlx_opcodes) / (sizeof dlx_opcodes[0])) - 1);
    284