#define dbg (0)
#endif
-#define BIT(word,n) ((word) & (1 << n))
-#define BITS(word,s,e) (((word) << (31 - e)) >> (s + (31 - e)))
-#define OPCODE(word) (BITS ((word), 27, 31))
-#define FIELDA(word) (BITS ((word), 21, 26))
-#define FIELDB(word) (BITS ((word), 15, 20))
-#define FIELDC(word) (BITS ((word), 9, 14))
+#define BIT(word,n) ((word) & (1 << n))
+#define BITS(word,s,e) (((word) << (31 - e)) >> (s + (31 - e)))
+#define OPCODE(word) (BITS ((word), 27, 31))
+#define FIELDA(word) (BITS ((word), 21, 26))
+#define FIELDB(word) (BITS ((word), 15, 20))
+#define FIELDC(word) (BITS ((word), 9, 14))
/* FIELD D is signed in all of its uses, so we make sure argument is
treated as signed for bit shifting purposes: */
-#define FIELDD(word) (BITS (((signed int)word), 0, 8))
+#define FIELDD(word) (BITS (((signed int)word), 0, 8))
#define PUT_NEXT_WORD_IN(a) \
do \
(IS_REG (x) ? cb1"%r"ca1 : \
usesAuxReg ? cb"%a"ca : \
IS_SMALL (x) ? cb"%d"ca : cb"%h"ca))
-#define WRITE_FORMAT_RB() strcat (formatString, "]")
+#define WRITE_FORMAT_RB() strcat (formatString, "]")
#define WRITE_COMMENT(str) (state->comm[state->commNum++] = (str))
-#define WRITE_NOP_COMMENT() if (!fieldAisReg && !flag) WRITE_COMMENT ("nop");
+#define WRITE_NOP_COMMENT() if (!fieldAisReg && !flag) WRITE_COMMENT ("nop");
-#define NEXT_WORD(x) (offset += 4, state->words[x])
+#define NEXT_WORD(x) (offset += 4, state->words[x])
-#define add_target(x) (state->targets[state->tcnt++] = (x))
+#define add_target(x) (state->targets[state->tcnt++] = (x))
static char comment_prefix[] = "\t; ";
+static const char *core_reg_name PARAMS ((struct arcDisState *, int));
+static const char *aux_reg_name PARAMS ((struct arcDisState *, int));
+static const char *cond_code_name PARAMS ((struct arcDisState *, int));
+static const char *instruction_name
+ PARAMS ((struct arcDisState *, int, int, int *));
+static void mwerror PARAMS ((struct arcDisState *, const char *));
+static const char *post_address PARAMS ((struct arcDisState *, int));
+static void write_comments_
+ PARAMS ((struct arcDisState *, int, int, long int));
+static void write_instr_name_
+ PARAMS ((struct arcDisState *, const char *, int, int, int, int, int, int));
+static int dsmOneArcInst PARAMS ((bfd_vma, struct arcDisState *));
+static const char *_coreRegName PARAMS ((void *, int));
+static int decodeInstr PARAMS ((bfd_vma, disassemble_info *));
+
static const char *
core_reg_name (state, val)
struct arcDisState * state;
- int val;
+ int val;
{
if (state->coreRegName)
return (*state->coreRegName)(state->_this, val);
static const char *
aux_reg_name (state, val)
struct arcDisState * state;
- int val;
+ int val;
{
if (state->auxRegName)
return (*state->auxRegName)(state->_this, val);
static const char *
cond_code_name (state, val)
struct arcDisState * state;
- int val;
+ int val;
{
if (state->condCodeName)
return (*state->condCodeName)(state->_this, val);
struct arcDisState * state;
int op1;
int op2;
- int * flags;
+ int * flags;
{
if (state->instName)
return (*state->instName)(state->_this, op1, op2, flags);
static void
mwerror (state, msg)
struct arcDisState * state;
- const char * msg;
+ const char * msg;
{
if (state->err != 0)
(*state->err)(state->_this, (msg));
static const char *
post_address (state, addr)
struct arcDisState * state;
- int addr;
+ int addr;
{
static char id[3 * ARRAY_SIZE (state->addresses)];
int j, i = state->acnt;
id[j+0] = '@';
id[j+1] = '0'+i;
id[j+2] = 0;
-
+
return id + j;
}
return "";
}
-static void
+static void
my_sprintf (
struct arcDisState * state,
char * buf,
const char * format,
...)
{
- char *bp;
+ char *bp;
const char *p;
int size, leading_zero, regMap[2];
long auxNum;
va_list ap;
-
+
va_start (ap, format);
-
- bp = buf;
+
+ bp = buf;
*bp = 0;
p = format;
auxNum = -1;
regMap[0] = 0;
regMap[1] = 0;
-
- while (1)
+
+ while (1)
switch (*p++)
{
case 0:
goto DOCOMM; /* (return) */
- default:
- *bp++ = p[-1];
+ default:
+ *bp++ = p[-1];
break;
case '%':
size = 0;
leading_zero = 0;
RETRY: ;
- switch (*p++)
+ switch (*p++)
{
case '0':
case '1':
}
#define inc_bp() bp = bp + strlen (bp)
- case 'h':
+ case 'h':
{
unsigned u = va_arg (ap, int);
/* Hex. We can change the format to 0x%08x in
one place, here, if we wish.
We add underscores for easy reading. */
- if (u > 65536)
+ if (u > 65536)
sprintf (bp, "0x%x_%04x", u >> 16, u & 0xffff);
- else
+ else
sprintf (bp, "0x%x", u);
inc_bp ();
- }
+ }
break;
- case 'X': case 'x':
+ case 'X': case 'x':
{
int val = va_arg (ap, int);
- if (size != 0)
+ if (size != 0)
if (leading_zero)
sprintf (bp, "%0*x", size, val);
else
inc_bp ();
}
break;
- case 'd':
+ case 'd':
{
int val = va_arg (ap, int);
-
+
if (size != 0)
sprintf (bp, "%*d", size, val);
else
inc_bp ();
}
break;
- case 'r':
+ case 'r':
{
/* Register. */
int val = va_arg (ap, int);
-
+
#define REG2NAME(num, name) case num: sprintf (bp, ""name); \
regMap[(num < 32) ? 0 : 1] |= 1 << (num - ((num < 32) ? 0 : 32)); break;
-
- switch (val)
+
+ switch (val)
{
REG2NAME (26, "gp");
REG2NAME (27, "fp");
}
inc_bp ();
} break;
-
- case 'a':
+
+ case 'a':
{
/* Aux Register. */
int val = va_arg (ap, int);
#define AUXREG2NAME(num, name) case num: sprintf (bp,name); break;
- switch (val)
+ switch (val)
{
AUXREG2NAME (0x0, "status");
AUXREG2NAME (0x1, "semaphore");
inc_bp ();
}
break;
-
- case 's':
+
+ case 's':
{
sprintf (bp, "%s", va_arg (ap, char *));
inc_bp ();
}
break;
-
+
default:
fprintf (stderr, "?? format %c\n", p[-1]);
break;
DOCOMM: *bp = 0;
}
-static void
+static void
write_comments_(state, shimm, is_limm, limm_value)
struct arcDisState * state;
int shimm;
int is_limm;
long limm_value;
{
- if (state->commentBuffer != 0)
+ if (state->commentBuffer != 0)
{
int i;
- if (is_limm)
+ if (is_limm)
{
const char *name = post_address (state, limm_value + shimm);
if (*name != 0)
WRITE_COMMENT (name);
}
- for (i = 0; i < state->commNum; i++)
+ for (i = 0; i < state->commNum; i++)
{
if (i == 0)
strcpy (state->commentBuffer, comment_prefix);
else
- strcat (state->commentBuffer, ", ");
+ strcat (state->commentBuffer, ", ");
strncat (state->commentBuffer, state->comm[i], sizeof (state->commentBuffer));
}
}
static const char *condName[] = {
/* 0..15. */
- "" , "z" , "nz" , "p" , "n" , "c" , "nc" , "v" ,
+ "" , "z" , "nz" , "p" , "n" , "c" , "nc" , "v" ,
"nv" , "gt" , "ge" , "lt" , "le" , "hi" , "ls" , "pnz"
};
-static void
+static void
write_instr_name_(state, instrName, cond, condCodeIsPartOfName, flag, signExtend, addrWriteBack, directMem)
struct arcDisState * state;
const char * instrName;
{
strcpy (state->instrBuffer, instrName);
- if (cond > 0)
+ if (cond > 0)
{
const char *cc = 0;
if (flag)
strcat (state->instrBuffer, ".f");
- switch (state->nullifyMode)
+ switch (state->nullifyMode)
{
case BR_exec_always:
strcat (state->instrBuffer, ".d");
} \
while (0)
-enum {
- op_LD0 = 0, op_LD1 = 1, op_ST = 2, op_3 = 3,
+enum {
+ op_LD0 = 0, op_LD1 = 1, op_ST = 2, op_3 = 3,
op_BC = 4, op_BLC = 5, op_LPC = 6, op_JC = 7,
- op_ADD = 8, op_ADC = 9, op_SUB = 10, op_SBC = 11,
+ op_ADD = 8, op_ADC = 9, op_SUB = 10, op_SBC = 11,
op_AND = 12, op_OR = 13, op_BIC = 14, op_XOR = 15
};
extern disassemble_info tm_print_insn_info;
-static int
+static int
dsmOneArcInst (addr, state)
bfd_vma addr;
struct arcDisState * state;
int flags;
int ignoreFirstOpd;
char formatString[60];
-
+
state->instructionLen = 4;
state->nullifyMode = BR_exec_when_no_jump;
state->opWidth = 12;
state->isBranch = 0;
-
+
state->_mem_load = 0;
state->_ea_present = 0;
state->_load_len = 0;
state->ea_reg1 = no_reg;
state->ea_reg2 = no_reg;
state->_offset = 0;
-
+
if (! NEXT_WORD (0))
return 0;
-
+
state->_opcode = OPCODE (state->words[0]);
instrName = 0;
decodingClass = 0; /* default! */
if (state->commentBuffer)
state->commentBuffer[0] = '\0';
- switch (state->_opcode)
+ switch (state->_opcode)
{
- case op_LD0:
- switch (BITS (state->words[0],1,2))
+ case op_LD0:
+ switch (BITS (state->words[0],1,2))
{
case 0:
instrName = "ld";
state->_load_len = 2;
break;
default:
- instrName = "??? (0[3])";
+ instrName = "??? (0[3])";
state->flow = invalid_instr;
break;
}
- decodingClass = 5;
+ decodingClass = 5;
break;
-
- case op_LD1:
- if (BIT (state->words[0],13))
+
+ case op_LD1:
+ if (BIT (state->words[0],13))
{
- instrName = "lr";
+ instrName = "lr";
decodingClass = 10;
}
- else
+ else
{
- switch (BITS (state->words[0],10,11))
+ switch (BITS (state->words[0],10,11))
{
case 0:
instrName = "ld";
state->_load_len = 2;
break;
default:
- instrName = "??? (1[3])";
+ instrName = "??? (1[3])";
state->flow = invalid_instr;
break;
}
decodingClass = 6;
}
break;
-
+
case op_ST:
- if (BIT (state->words[0],25))
+ if (BIT (state->words[0],25))
{
instrName = "sr";
decodingClass = 8;
}
- else
+ else
{
- switch (BITS (state->words[0],22,23))
+ switch (BITS (state->words[0],22,23))
{
case 0:
instrName = "st";
instrName = "stw";
break;
default:
- instrName = "??? (2[3])";
+ instrName = "??? (2[3])";
state->flow = invalid_instr;
break;
}
decodingClass = 7;
}
break;
-
+
case op_3:
decodingClass = 1; /* default for opcode 3... */
- switch (FIELDC (state->words[0]))
+ switch (FIELDC (state->words[0]))
{
case 0:
- instrName = "flag";
+ instrName = "flag";
decodingClass = 2;
break;
case 1:
case 8:
instrName = "extw";
break;
- case 0x3f:
+ case 0x3f:
{
decodingClass = 9;
- switch( FIELDD (state->words[0]) )
+ switch( FIELDD (state->words[0]) )
{
case 0:
instrName = "brk";
}
}
break;
-
+
/* ARC Extension Library Instructions
NOTE: We assume that extension codes are these instrs. */
default:
break;
case op_BC:
- instrName = "b";
+ instrName = "b";
case op_BLC:
if (!instrName)
- instrName = "bl";
+ instrName = "bl";
case op_LPC:
if (!instrName)
- instrName = "lp";
+ instrName = "lp";
case op_JC:
if (!instrName)
{
- if (BITS (state->words[0],9,9))
+ if (BITS (state->words[0],9,9))
{
- instrName = "jl";
+ instrName = "jl";
is_linked = 1;
}
- else
+ else
{
- instrName = "j";
+ instrName = "j";
is_linked = 0;
}
}
decodingClass = ((state->_opcode == op_JC) ? 4 : 3);
state->isBranch = 1;
break;
-
+
case op_ADD:
case op_ADC:
case op_AND:
repeatsOp = (FIELDC (state->words[0]) == FIELDB (state->words[0]));
decodingClass = 0;
- switch (state->_opcode)
+ switch (state->_opcode)
{
case op_ADD:
instrName = (repeatsOp ? "asl" : "add");
break;
}
break;
-
+
case op_SUB: instrName = "sub";
break;
case op_SBC: instrName = "sbc";
instrName = "nop";
decodingClass = 9;
}
- else
+ else
instrName = "xor";
break;
-
+
default:
instrName = instruction_name (state,state->_opcode,0,&flags);
/* if (instrName) printf("FLAGS=0x%x\n", flags); */
ignoreFirstOpd = 1;
break;
}
-
+
fieldAisReg = fieldBisReg = fieldCisReg = 1; /* Assume regs for now. */
flag = cond = is_shimm = is_limm = 0;
state->nullifyMode = BR_exec_when_no_jump; /* 0 */
signExtend = addrWriteBack = directMem = 0;
usesAuxReg = 0;
-
- switch (decodingClass)
+
+ switch (decodingClass)
{
case 0:
CHECK_FIELD_A ();
if (!repeatsOp)
CHECK_FIELD_C ();
CHECK_FLAG_COND_NULLIFY ();
-
+
write_instr_name ();
- if (!ignoreFirstOpd)
+ if (!ignoreFirstOpd)
{
WRITE_FORMAT_x (A);
WRITE_FORMAT_COMMA_x (B);
WRITE_NOP_COMMENT ();
my_sprintf (state, state->operandBuffer, formatString, fieldA, fieldB, fieldC);
}
- else
+ else
{
WRITE_FORMAT_x (B);
if (!repeatsOp)
}
write_comments ();
break;
-
+
case 1:
CHECK_FIELD_A ();
CHECK_FIELD_B ();
CHECK_FLAG_COND_NULLIFY ();
-
+
write_instr_name ();
- if (!ignoreFirstOpd)
+ if (!ignoreFirstOpd)
{
WRITE_FORMAT_x (A);
WRITE_FORMAT_COMMA_x (B);
WRITE_NOP_COMMENT ();
- my_sprintf (state, state->operandBuffer, formatString, fieldA, fieldB);
+ my_sprintf (state, state->operandBuffer, formatString, fieldA, fieldB);
}
- else
+ else
{
WRITE_FORMAT_x (B);
- my_sprintf (state, state->operandBuffer, formatString, fieldB);
+ my_sprintf (state, state->operandBuffer, formatString, fieldB);
}
write_comments ();
break;
-
+
case 2:
CHECK_FIELD_B ();
CHECK_FLAG_COND_NULLIFY ();
flag = 0; /* this is the FLAG instruction -- it's redundant */
-
+
write_instr_name ();
WRITE_FORMAT_x (B);
my_sprintf (state, state->operandBuffer, formatString, fieldB);
write_comments ();
break;
-
+
case 3:
fieldA = BITS (state->words[0],7,26) << 2;
fieldA = (fieldA << 10) >> 10; /* make it signed */
fieldA += addr + 4;
CHECK_FLAG_COND_NULLIFY ();
flag = 0;
-
+
write_instr_name ();
/* This address could be a label we know. Convert it. */
- if (state->_opcode != op_LPC /* LP */)
+ if (state->_opcode != op_LPC /* LP */)
{
add_target (fieldA); /* For debugger. */
state->flow = state->_opcode == op_BLC /* BL */
: direct_jump;
/* indirect calls are achieved by "lr blink,[status];
lr dest<- func addr; j [dest]" */
- }
-
+ }
+
strcat (formatString, "%s"); /* address/label name */
my_sprintf (state, state->operandBuffer, formatString, post_address (state, fieldA));
write_comments ();
break;
-
+
case 4:
/* For op_JC -- jump to address specified.
Also covers jump and link--bit 9 of the instr. word
fieldA = 0;
CHECK_FIELD_B ();
CHECK_FLAG_COND_NULLIFY ();
-
- if (!fieldBisReg)
+
+ if (!fieldBisReg)
{
fieldAisReg = 0;
fieldA = (fieldB >> 25) & 0x7F; /* flags */
if (is_linked && state->nullifyMode == BR_exec_when_jump)
state->nullifyMode = BR_exec_when_no_jump;
}
- else
+ else
{
state->flow = is_linked ? indirect_call : indirect_jump;
/* We should also treat this as indirect call if NOT linked
* For now we can't detect such. */
state->register_for_indirect_jump = fieldB;
}
-
+
write_instr_name ();
- strcat (formatString,
+ strcat (formatString,
IS_REG (B) ? "[%r]" : "%s"); /* address/label name */
- if (fieldA != 0)
+ if (fieldA != 0)
{
fieldAisReg = 0;
WRITE_FORMAT_COMMA_x (A);
if (IS_REG (B))
my_sprintf (state, state->operandBuffer, formatString, fieldB, fieldA);
else
- my_sprintf (state, state->operandBuffer, formatString,
+ my_sprintf (state, state->operandBuffer, formatString,
post_address (state, fieldB), fieldA);
write_comments ();
break;
-
+
case 5:
/* LD instruction.
B and C can be regs, or one (both?) can be limm. */
else
state->_offset += fieldC;
state->_mem_load = 1;
-
+
directMem = BIT (state->words[0],5);
addrWriteBack = BIT (state->words[0],3);
signExtend = BIT (state->words[0],0);
-
+
write_instr_name ();
WRITE_FORMAT_x_COMMA_LB(A);
if (fieldBisReg || fieldB != 0)
WRITE_FORMAT_x_COMMA (B);
else
fieldB = fieldC;
-
+
WRITE_FORMAT_x_RB (C);
my_sprintf (state, state->operandBuffer, formatString, fieldA, fieldB, fieldC);
write_comments ();
break;
-
+
case 6:
/* LD instruction. */
CHECK_FIELD_B ();
CHECK_FIELD_A ();
fieldC = FIELDD (state->words[0]);
-
+
if (dbg)
printf ("6:b reg %d %d c 0x%x \n",
fieldBisReg, fieldB, fieldC);
Say ea is not present, so only one of us will do the name lookup. */
else
state->_offset += fieldB, state->_ea_present = 0;
-
+
directMem = BIT (state->words[0],14);
addrWriteBack = BIT (state->words[0],12);
signExtend = BIT (state->words[0],9);
-
+
write_instr_name ();
WRITE_FORMAT_x_COMMA_LB (A);
- if (!fieldBisReg)
+ if (!fieldBisReg)
{
fieldB = state->_offset;
WRITE_FORMAT_x_RB (B);
}
- else
+ else
{
WRITE_FORMAT_x (B);
- if (fieldC != 0 && !BIT (state->words[0],13))
+ if (fieldC != 0 && !BIT (state->words[0],13))
{
fieldCisReg = 0;
WRITE_FORMAT_COMMA_x_RB (C);
my_sprintf (state, state->operandBuffer, formatString, fieldA, fieldB, fieldC);
write_comments ();
break;
-
+
case 7:
/* ST instruction. */
CHECK_FIELD_B();
CHECK_FIELD_C();
fieldA = FIELDD(state->words[0]); /* shimm */
-
+
/* [B,A offset] */
if (dbg) printf("7:b reg %d %x off %x\n",
fieldBisReg,fieldB,fieldA);
state->_offset = fieldA;
if (fieldBisReg)
state->ea_reg1 = fieldB;
- /* field B is either a shimm (same as fieldA) or limm (different!)
+ /* field B is either a shimm (same as fieldA) or limm (different!)
Say ea is not present, so only one of us will do the name lookup.
(for is_limm we do the name translation here). */
- else
+ else
state->_offset += fieldB, state->_ea_present = 0;
-
+
directMem = BIT(state->words[0],26);
addrWriteBack = BIT(state->words[0],24);
-
+
write_instr_name();
WRITE_FORMAT_x_COMMA_LB(C);
-
- if (!fieldBisReg)
+
+ if (!fieldBisReg)
{
fieldB = state->_offset;
WRITE_FORMAT_x_RB(B);
}
- else
+ else
{
WRITE_FORMAT_x(B);
- if (fieldBisReg && fieldA != 0)
+ if (fieldBisReg && fieldA != 0)
{
fieldAisReg = 0;
WRITE_FORMAT_COMMA_x_RB(A);
/* SR instruction */
CHECK_FIELD_B();
CHECK_FIELD_C();
-
+
write_instr_name();
WRITE_FORMAT_x_COMMA_LB(C);
/* Try to print B as an aux reg if it is not a core reg. */
my_sprintf (state, state->operandBuffer, formatString, fieldC, fieldB);
write_comments();
break;
-
+
case 9:
write_instr_name();
state->operandBuffer[0] = '\0';
break;
-
+
case 10:
/* LR instruction */
CHECK_FIELD_A();
CHECK_FIELD_B();
-
+
write_instr_name();
WRITE_FORMAT_x_COMMA_LB(A);
/* Try to print B as an aux reg if it is not a core reg. */
my_sprintf (state, state->operandBuffer, formatString, fieldA, fieldB);
write_comments();
break;
-
+
case 11:
CHECK_COND();
write_instr_name();
state->operandBuffer[0] = '\0';
break;
-
+
default:
mwerror (state, "Bad decoding class in ARC disassembler");
break;
}
-
+
state->_cond = cond;
return state->instructionLen = offset;
}
bfd_byte buffer[4];
struct arcDisState s; /* ARC Disassembler state */
void *stream = info->stream; /* output stream */
- fprintf_ftype func = info->fprintf_func;
+ fprintf_ftype func = info->fprintf_func;
int bytes;
-
+
memset (&s, 0, sizeof(struct arcDisState));
-
+
/* read first instruction */
status = (*info->read_memory_func) (address, buffer, 4, info);
if (status != 0)
/* display the disassembly instruction */
(*func) (stream, "%08x ", s.words[0]);
(*func) (stream, " ");
-
+
(*func) (stream, "%-10s ", s.instrBuffer);
-
+
if (__TRANSLATION_REQUIRED(s))
{
bfd_vma addr = s.addresses[s.operandBuffer[1] - '0'];