darling-gdb/gdb/m88k-pinsn.c

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/* This file has been modified by Data General Corporation, November 1989. */
#include <stdio.h>
#include "m88k-opcode.h"
#include "defs.h"
#include "symtab.h"
void sprint_address ();
/* Changed hashtab to hashtable to avoid naming conflict
with libdc.o (used for tdesc) for m88k.
*/
INSTAB *hashtable[HASHVAL] = {0};
/*
* Disassemble an M88000 Instruction
*
*
* This module decodes the first instruction in inbuf. It uses the pc
* to display pc-relative displacements. It writes the disassembled
* instruction in outbuf.
*
* Revision History
*
* Revision 1.0 11/08/85 Creation date by Motorola
* 05/11/89 R. Trawick adapted to GDB interface.
*/
#define MAXLEN 20
print_insn (memaddr, stream)
CORE_ADDR memaddr;
FILE *stream;
{
unsigned char buffer[MAXLEN];
/* should be expanded if disassembler prints symbol names */
char outbuf[100];
int n;
/* Instruction addresses may have low two bits set. Clear them. */
memaddr&= 0xfffffffc;
read_memory (memaddr, buffer, MAXLEN);
n = m88kdis ((int)memaddr, buffer, outbuf);
fputs (outbuf, stream);
return (n);
}
/*
* disassemble the first instruction in 'inbuf'.
* 'pc' should be the address of this instruction, it will
* be used to print the target address if this is a relative jump or call
* 'outbuf' gets filled in with the disassembled instruction. It should
* be long enough to hold the longest disassembled instruction.
* 100 bytes is certainly enough, unless symbol printing is added later
* The function returns the length of this instruction in bytes.
*/
int m88kdis( pc, inbuf, outbuf )
int pc;
int *inbuf;
char *outbuf;
{ static ihashtab_initialized = 0;
int instruction;
unsigned int opcode;
INSTAB *entry_ptr;
int opmask;
int class;
instruction= *inbuf;
if (!ihashtab_initialized) {
init_disasm();
}
/* create a the appropriate mask to isolate the opcode */
opmask= DEFMASK;
class= instruction & DEFMASK;
if ((class >= SFU0) && (class <= SFU7)) {
if (instruction < SFU1) {
opmask= CTRLMASK;
} else {
opmask= SFUMASK;
}
} else if (class == RRR) {
opmask= RRRMASK;
} else if (class == RRI10) {
opmask= RRI10MASK;
}
/* isolate the opcode */
opcode= instruction & opmask;
/* search the hash table with the isolated opcode */
for (entry_ptr= hashtable[ opcode % HASHVAL ];
(entry_ptr != NULL) && (entry_ptr->opcode != opcode);
entry_ptr= entry_ptr->next) {
}
if (entry_ptr == NULL) {
sprintf( outbuf, "word\t%08x", instruction );
} else {
sprintf( outbuf, "%s\t", entry_ptr->mnemonic );
sprintop( &outbuf[strlen(outbuf)], &(entry_ptr->op1), instruction, pc, 1 );
sprintop( &outbuf[strlen(outbuf)], &(entry_ptr->op2), instruction, pc, 0 );
sprintop( &outbuf[strlen(outbuf)], &(entry_ptr->op3), instruction, pc, 0 );
}
return 4;
}
/*
* Decode an Operand of an Instruction
*
* Functional Description
*
* This module formats and writes an operand of an instruction to buf
* based on the operand specification. When the first flag is set this
* is the first operand of an instruction. Undefined operand types
* cause a <dis error> message.
*
* Parameters
* char *buf buffer where the operand may be printed
* OPSPEC *opptr Pointer to an operand specification
* UINT inst Instruction from which operand is extracted
* UINT pc PC of instruction; used for pc-relative disp.
* int first Flag which if nonzero indicates the first
* operand of an instruction
*
* Output
*
* The operand specified is extracted from the instruction and is
* written to buf in the format specified. The operand is preceded
* by a comma if it is not the first operand of an instruction and it
* is not a register indirect form. Registers are preceded by 'r' and
* hex values by '0x'.
*
* Revision History
*
* Revision 1.0 11/08/85 Creation date
*/
sprintop( buf, opptr, inst, pc, first )
char *buf;
OPSPEC *opptr;
UINT inst;
int pc;
int first;
{ int extracted_field;
char *cond_mask_sym;
char cond_mask_sym_buf[6];
if (opptr->width == 0)
return;
switch(opptr->type) {
case CRREG:
if (!first)
*buf++= ',';
sprintf( buf, "cr%d", UEXT(inst,opptr->offset,opptr->width));
break;
case FCRREG:
if (!first)
*buf++= ',';
sprintf( buf, "fcr%d", UEXT(inst,opptr->offset,opptr->width));
break;
case REGSC:
sprintf( buf, "[r%d]", UEXT(inst,opptr->offset,opptr->width));
break;
case REG:
if (!first)
*buf++= ',';
sprintf( buf, "r%d", UEXT(inst,opptr->offset,opptr->width));
break;
case HEX:
if (!first)
*buf++= ',';
extracted_field= UEXT(inst, opptr->offset, opptr->width);
if (extracted_field == 0) {
sprintf( buf, "0" );
} else {
sprintf( buf, "0x%02x", extracted_field );
}
break;
case CONDMASK:
if (!first)
*buf++= ',';
extracted_field= UEXT(inst, opptr->offset, opptr->width);
switch (extracted_field & 0x0f) {
case 0x1: cond_mask_sym= "gt0";
break;
case 0x2: cond_mask_sym= "eq0";
break;
case 0x3: cond_mask_sym= "ge0";
break;
case 0xc: cond_mask_sym= "lt0";
break;
case 0xd: cond_mask_sym= "ne0";
break;
case 0xe: cond_mask_sym= "le0";
break;
default: cond_mask_sym= cond_mask_sym_buf;
sprintf( cond_mask_sym_buf,
"%x",
extracted_field );
break;
}
strcpy( buf, cond_mask_sym );
break;
case PCREL:
if (!first)
*buf++= ',';
sprint_address( pc + 4*(SEXT(inst,opptr->offset,opptr->width)),
buf );
break;
case CONT:
sprintf( buf,
"%d,r%d",
UEXT(inst,opptr->offset,5),
UEXT(inst,(opptr->offset)+5,5) );
break;
case BF:
if (!first)
*buf++= ',';
sprintf( buf,
"%d<%d>",
UEXT(inst,(opptr->offset)+5,5),
UEXT(inst,opptr->offset,5));
break;
default:
sprintf( buf, "<dis error: %08x>", inst );
}
}
/*
* Initialize the Disassembler Instruction Table
*
* Initialize the hash table and instruction table for the disassembler.
* This should be called once before the first call to disasm().
*
* Parameters
*
* Output
*
* If the debug option is selected, certain statistics about the hashing
* distribution are written to stdout.
*
* Revision History
*
* Revision 1.0 11/08/85 Creation date
*/
init_disasm()
{
int i,size;
for (i=0 ; i < HASHVAL ; i++)
hashtable[i] = NULL;
for (i=0, size = sizeof(instructions) / sizeof(INSTAB) ; i < size ;
install(&instructions[i++]));
}
/*
* Insert an instruction into the disassembler table by hashing the
* opcode and inserting it into the linked list for that hash value.
*
* Parameters
*
* INSTAB *instptr Pointer to the entry in the instruction table
* to be installed
*
* Revision 1.0 11/08/85 Creation date
* 05/11/89 R. TRAWICK ADAPTED FROM MOTOROLA
*/
install(instptr)
INSTAB *instptr;
{
UINT i;
i = (instptr->opcode) % HASHVAL;
instptr->next = hashtable[i];
hashtable[i] = instptr;
}
/* adapted from print_address in printcmd by R. Trawick 5/15/89. The two should
be combined.
*/
void sprint_address (addr, buffer)
CORE_ADDR addr;
char *buffer;
{
register int i;
struct symbol *fs;
char *name;
int name_location;
sprintf ( buffer, "0x%x", addr);
fs = find_pc_function (addr);
if (!fs) {
i = find_pc_misc_function (addr);
if (i < 0) return; /* If nothing comes through, don't
print anything symbolic */
name = misc_function_vector[i].name;
name_location = misc_function_vector[i].address;
} else {
name = fs->name;
name_location = BLOCK_START (SYMBOL_BLOCK_VALUE (fs));
}
if (addr - name_location)
sprintf (buffer, " <%s+%d>", name, addr - name_location);
else
sprintf (buffer, " <%s>", name);
}