mirror of
https://sourceware.org/git/binutils-gdb.git
synced 2024-12-27 04:52:05 +08:00
560 lines
12 KiB
C
560 lines
12 KiB
C
#include <signal.h>
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#include "sysdep.h"
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#include "bfd.h"
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#include "remote-sim.h"
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#include "d10v_sim.h"
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#define IMEM_SIZE 18 /* D10V instruction memory size is 18 bits */
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#define DMEM_SIZE 16 /* Data memory */
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enum _leftright { LEFT_FIRST, RIGHT_FIRST };
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int d10v_debug;
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host_callback *d10v_callback;
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long ins_type_counters[ (int)INS_MAX ];
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long left_nops, right_nops;
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uint16 OP[4];
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static struct hash_entry *lookup_hash PARAMS ((uint32 ins, int size));
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#define MAX_HASH 63
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struct hash_entry
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{
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struct hash_entry *next;
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long opcode;
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long mask;
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struct simops *ops;
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};
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struct hash_entry hash_table[MAX_HASH+1];
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static long
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hash(insn, format)
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long insn;
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int format;
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{
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if (format & LONG_OPCODE)
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return ((insn & 0x3F000000) >> 24);
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else
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return((insn & 0x7E00) >> 9);
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}
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static struct hash_entry *
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lookup_hash (ins, size)
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uint32 ins;
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int size;
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{
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struct hash_entry *h;
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if (size)
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h = &hash_table[(ins & 0x3F000000) >> 24];
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else
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h = &hash_table[(ins & 0x7E00) >> 9];
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while ( (ins & h->mask) != h->opcode)
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{
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if (h->next == NULL)
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{
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(*d10v_callback->printf_filtered) (d10v_callback, "ERROR looking up hash for %x at PC %x\n",ins, PC);
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exit(1);
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}
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h = h->next;
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}
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return (h);
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}
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uint32
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get_longword (x)
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uint8 *x;
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{
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uint8 *a = x;
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return (a[0]<<24) + (a[1]<<16) + (a[2]<<8) + (a[3]);
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}
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int64
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get_longlong (x)
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uint8 *x;
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{
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uint8 *a = x;
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return ((int64)a[0]<<56) + ((int64)a[1]<<48) + ((int64)a[2]<<40) + ((int64)a[3]<<32) +
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((int64)a[4]<< 24) + ((int64)a[5]<<16) + ((int64)a[6]<<8) + (int64)a[7];
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}
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uint16
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get_word (x)
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uint8 *x;
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{
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uint8 *a = x;
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return ((uint16)a[0]<<8) + a[1];
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}
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void
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write_word (addr, data)
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uint8 *addr;
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uint16 data;
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{
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uint8 *a = addr;
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a[0] = data >> 8;
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a[1] = data & 0xff;
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}
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void
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write_longword (addr, data)
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uint8 *addr;
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uint32 data;
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{
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addr[0] = (data >> 24) & 0xff;
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addr[1] = (data >> 16) & 0xff;
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addr[2] = (data >> 8) & 0xff;
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addr[3] = data & 0xff;
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}
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void
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write_longlong (addr, data)
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uint8 *addr;
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int64 data;
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{
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uint8 *a = addr;
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a[0] = data >> 56;
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a[1] = (data >> 48) & 0xff;
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a[2] = (data >> 40) & 0xff;
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a[3] = (data >> 32) & 0xff;
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a[4] = (data >> 24) & 0xff;
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a[5] = (data >> 16) & 0xff;
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a[6] = (data >> 8) & 0xff;
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a[7] = data & 0xff;
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}
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static void
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get_operands (struct simops *s, uint32 ins)
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{
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int i, shift, bits, flags;
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uint32 mask;
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for (i=0; i < s->numops; i++)
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{
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shift = s->operands[3*i];
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bits = s->operands[3*i+1];
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flags = s->operands[3*i+2];
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mask = 0x7FFFFFFF >> (31 - bits);
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OP[i] = (ins >> shift) & mask;
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}
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}
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static void
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do_long (ins)
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uint32 ins;
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{
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struct hash_entry *h;
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#ifdef DEBUG
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if ((d10v_debug & DEBUG_INSTRUCTION) != 0)
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(*d10v_callback->printf_filtered) (d10v_callback, "do_long 0x%x\n", ins);
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#endif
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h = lookup_hash (ins, 1);
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get_operands (h->ops, ins);
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State.ins_type = INS_LONG;
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ins_type_counters[ (int)State.ins_type ]++;
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(h->ops->func)();
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}
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static void
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do_2_short (ins1, ins2, leftright)
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uint16 ins1, ins2;
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enum _leftright leftright;
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{
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struct hash_entry *h;
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#ifdef DEBUG
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if ((d10v_debug & DEBUG_INSTRUCTION) != 0)
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(*d10v_callback->printf_filtered) (d10v_callback, "do_2_short 0x%x (%s) -> 0x%x\n",
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ins1, (leftright) ? "left" : "right", ins2);
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#endif
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/* printf ("do_2_short %x -> %x\n",ins1,ins2); */
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h = lookup_hash (ins1, 0);
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get_operands (h->ops, ins1);
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State.ins_type = (leftright == LEFT_FIRST) ? INS_LEFT : INS_RIGHT;
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ins_type_counters[ (int)State.ins_type ]++;
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(h->ops->func)();
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h = lookup_hash (ins2, 0);
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get_operands (h->ops, ins2);
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State.ins_type = (leftright == LEFT_FIRST) ? INS_RIGHT : INS_LEFT;
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ins_type_counters[ (int)State.ins_type ]++;
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(h->ops->func)();
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}
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static void
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do_parallel (ins1, ins2)
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uint16 ins1, ins2;
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{
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struct hash_entry *h1, *h2;
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#ifdef DEBUG
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if ((d10v_debug & DEBUG_INSTRUCTION) != 0)
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(*d10v_callback->printf_filtered) (d10v_callback, "do_parallel 0x%x || 0x%x\n", ins1, ins2);
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#endif
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h1 = lookup_hash (ins1, 0);
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h2 = lookup_hash (ins2, 0);
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if (h1->ops->exec_type == PARONLY)
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{
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get_operands (h1->ops, ins1);
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State.ins_type = INS_LEFT;
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ins_type_counters[ (int)State.ins_type ]++;
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(h1->ops->func)();
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if (State.exe)
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{
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get_operands (h2->ops, ins2);
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State.ins_type = INS_RIGHT;
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(h2->ops->func)();
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}
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}
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else if (h2->ops->exec_type == PARONLY)
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{
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get_operands (h2->ops, ins2);
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State.ins_type = INS_RIGHT;
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ins_type_counters[ (int)State.ins_type ]++;
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(h2->ops->func)();
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if (State.exe)
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{
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get_operands (h1->ops, ins1);
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State.ins_type = INS_LEFT;
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(h1->ops->func)();
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}
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}
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else
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{
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get_operands (h1->ops, ins1);
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State.ins_type = INS_LEFT_PARALLEL;
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ins_type_counters[ (int)State.ins_type ]++;
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(h1->ops->func)();
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get_operands (h2->ops, ins2);
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State.ins_type = INS_RIGHT_PARALLEL;
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ins_type_counters[ (int)State.ins_type ]++;
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(h2->ops->func)();
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}
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}
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void
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sim_size (power)
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int power;
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{
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if (State.imem)
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{
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free (State.imem);
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free (State.dmem);
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}
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State.imem = (uint8 *)calloc(1,1<<IMEM_SIZE);
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State.dmem = (uint8 *)calloc(1,1<<DMEM_SIZE);
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if (!State.imem || !State.dmem )
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{
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(*d10v_callback->printf_filtered) (d10v_callback, "Memory allocation failed.\n");
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exit(1);
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}
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#ifdef DEBUG
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if ((d10v_debug & DEBUG_MEMSIZE) != 0)
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{
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(*d10v_callback->printf_filtered) (d10v_callback, "Allocated %d bytes instruction memory and\n",1<<IMEM_SIZE);
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(*d10v_callback->printf_filtered) (d10v_callback, " %d bytes data memory.\n", 1<<DMEM_SIZE);
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}
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#endif
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}
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static void
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init_system ()
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{
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if (!State.imem)
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sim_size(1);
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}
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int
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sim_write (addr, buffer, size)
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SIM_ADDR addr;
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unsigned char *buffer;
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int size;
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{
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int i;
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init_system ();
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/* (*d10v_callback->printf_filtered) (d10v_callback, "sim_write %d bytes to 0x%x\n",size,addr); */
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for (i = 0; i < size; i++)
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{
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State.imem[i+addr] = buffer[i];
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}
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return size;
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}
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void
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sim_open (args)
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char *args;
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{
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struct simops *s;
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struct hash_entry *h, *prev;
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static int init_p = 0;
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if (args != NULL)
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{
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#ifdef DEBUG
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if (strcmp (args, "-t") == 0)
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d10v_debug = DEBUG;
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else
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#endif
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(*d10v_callback->printf_filtered) (d10v_callback, "ERROR: unsupported option(s): %s\n",args);
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}
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/* put all the opcodes in the hash table */
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if (!init_p++)
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{
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for (s = Simops; s->func; s++)
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{
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h = &hash_table[hash(s->opcode,s->format)];
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/* go to the last entry in the chain */
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while (h->next)
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h = h->next;
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if (h->ops)
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{
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h->next = calloc(1,sizeof(struct hash_entry));
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h = h->next;
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}
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h->ops = s;
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h->mask = s->mask;
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h->opcode = s->opcode;
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}
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}
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}
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void
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sim_close (quitting)
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int quitting;
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{
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/* nothing to do */
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}
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void
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sim_set_profile (n)
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int n;
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{
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(*d10v_callback->printf_filtered) (d10v_callback, "sim_set_profile %d\n",n);
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}
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void
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sim_set_profile_size (n)
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int n;
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{
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(*d10v_callback->printf_filtered) (d10v_callback, "sim_set_profile_size %d\n",n);
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}
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void
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sim_resume (step, siggnal)
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int step, siggnal;
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{
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uint32 inst;
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int i;
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reg_t oldpc;
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/* (*d10v_callback->printf_filtered) (d10v_callback, "sim_resume (%d,%d) PC=0x%x\n",step,siggnal,PC); */
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if (step)
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State.exception = SIGTRAP;
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else
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State.exception = 0;
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do
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{
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inst = RLW (PC << 2);
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oldpc = PC;
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switch (inst & 0xC0000000)
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{
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case 0xC0000000:
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/* long instruction */
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do_long (inst & 0x3FFFFFFF);
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break;
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case 0x80000000:
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/* R -> L */
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do_2_short ( inst & 0x7FFF, (inst & 0x3FFF8000) >> 15, 0);
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break;
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case 0x40000000:
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/* L -> R */
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do_2_short ((inst & 0x3FFF8000) >> 15, inst & 0x7FFF, 1);
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break;
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case 0:
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do_parallel ((inst & 0x3FFF8000) >> 15, inst & 0x7FFF);
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break;
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}
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if (State.RP && PC == RPT_E)
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{
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RPT_C -= 1;
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if (RPT_C == 0)
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State.RP = 0;
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else
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PC = RPT_S;
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}
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/* FIXME */
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if (PC == oldpc)
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PC++;
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}
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while (!State.exception);
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}
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int
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sim_trace ()
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{
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#ifdef DEBUG
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d10v_debug = DEBUG;
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#endif
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sim_resume (0, 0);
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return 1;
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}
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void
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sim_info (verbose)
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int verbose;
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{
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char buf[40];
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int size;
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long total = (ins_type_counters[ (int)INS_LONG ]
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+ ins_type_counters[ (int)INS_LEFT ]
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+ ins_type_counters[ (int)INS_LEFT_PARALLEL ]
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+ ins_type_counters[ (int)INS_RIGHT ]
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+ ins_type_counters[ (int)INS_RIGHT_PARALLEL ]);
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sprintf (buf, "%ld", total);
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size = strlen (buf);
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(*d10v_callback->printf_filtered) (d10v_callback,
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"executed %*ld instructions in the left container, %*ld parallel, %*ld nops\n",
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size, ins_type_counters[ (int)INS_LEFT ] + ins_type_counters[ (int)INS_LEFT_PARALLEL ],
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size, ins_type_counters[ (int)INS_LEFT_PARALLEL ],
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size, left_nops);
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(*d10v_callback->printf_filtered) (d10v_callback,
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"executed %*ld instructions in the right container, %*ld parallel, %*ld nops\n",
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size, ins_type_counters[ (int)INS_RIGHT ] + ins_type_counters[ (int)INS_RIGHT_PARALLEL ],
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size, ins_type_counters[ (int)INS_RIGHT_PARALLEL ],
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size, right_nops);
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(*d10v_callback->printf_filtered) (d10v_callback,
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"executed %*ld long instructions\n",
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size, ins_type_counters[ (int)INS_LONG ]);
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(*d10v_callback->printf_filtered) (d10v_callback,
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"executed %*ld total instructions\n",
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size, total);
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}
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void
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sim_create_inferior (start_address, argv, env)
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SIM_ADDR start_address;
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char **argv;
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char **env;
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{
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#ifdef DEBUG
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if (d10v_debug)
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(*d10v_callback->printf_filtered) (d10v_callback, "sim_create_inferior: PC=0x%x\n", start_address);
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#endif
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PC = start_address >> 2;
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}
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void
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sim_kill ()
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{
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/* nothing to do */
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}
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void
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sim_set_callbacks(p)
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host_callback *p;
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{
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/* printf ("sim_set_callbacks\n"); */
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d10v_callback = p;
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}
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void
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sim_stop_reason (reason, sigrc)
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enum sim_stop *reason;
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int *sigrc;
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{
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/* (*d10v_callback->printf_filtered) (d10v_callback, "sim_stop_reason: PC=0x%x\n",PC<<2); */
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if (State.exception == SIGQUIT)
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{
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*reason = sim_exited;
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*sigrc = State.exception;
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}
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else
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{
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*reason = sim_stopped;
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*sigrc = State.exception;
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}
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}
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void
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sim_fetch_register (rn, memory)
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int rn;
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unsigned char *memory;
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{
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if (rn > 31)
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{
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WRITE_64 (memory, State.a[rn-32]);
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/* (*d10v_callback->printf_filtered) (d10v_callback, "sim_fetch_register %d 0x%llx\n",rn,State.a[rn-32]); */
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}
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else
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{
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WRITE_16 (memory, State.regs[rn]);
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/* (*d10v_callback->printf_filtered) (d10v_callback, "sim_fetch_register %d 0x%x\n",rn,State.regs[rn]); */
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}
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}
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void
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sim_store_register (rn, memory)
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int rn;
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unsigned char *memory;
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{
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if (rn > 31)
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{
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State.a[rn-32] = READ_64 (memory) & MASK40;
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/* (*d10v_callback->printf_filtered) (d10v_callback, "store: a%d=0x%llx\n",rn-32,State.a[rn-32]); */
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}
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else
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{
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State.regs[rn]= READ_16 (memory);
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/* (*d10v_callback->printf_filtered) (d10v_callback, "store: r%d=0x%x\n",rn,State.regs[rn]); */
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}
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}
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sim_read (addr, buffer, size)
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SIM_ADDR addr;
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unsigned char *buffer;
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int size;
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{
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int i;
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for (i = 0; i < size; i++)
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{
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buffer[i] = State.imem[addr + i];
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}
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return size;
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}
|
|
|
|
void
|
|
sim_do_command (cmd)
|
|
char *cmd;
|
|
{
|
|
(*d10v_callback->printf_filtered) (d10v_callback, "sim_do_command: %s\n",cmd);
|
|
}
|
|
|
|
int
|
|
sim_load (prog, from_tty)
|
|
char *prog;
|
|
int from_tty;
|
|
{
|
|
/* Return nonzero so GDB will handle it. */
|
|
return 1;
|
|
}
|