ref: 7a7dfee4fab3e9a725422edff93251ef0a717492
dir: /libinterp/das-power.c/
#include <lib9.h>
/*
* disassemble PowerPC opcodes in Plan9 format
* Copyright © 1997 C H Forsyth (forsyth@terzarima.net)
*/
/*
* ibm conventions for these: bit 0 is top bit
* from table 10-1
*/
typedef struct {
uchar aa; /* bit 30 */
uchar crba; /* bits 11-15 */
uchar crbb; /* bits 16-20 */
long bd; /* bits 16-29 */
uchar crfd; /* bits 6-8 */
uchar crfs; /* bits 11-13 */
uchar bi; /* bits 11-15 */
uchar bo; /* bits 6-10 */
uchar crbd; /* bits 6-10 */
union {
short d; /* bits 16-31 */
short simm;
ushort uimm;
};
uchar fm; /* bits 7-14 */
uchar fra; /* bits 11-15 */
uchar frb; /* bits 16-20 */
uchar frc; /* bits 21-25 */
uchar frs; /* bits 6-10 */
uchar frd; /* bits 6-10 */
uchar crm; /* bits 12-19 */
long li; /* bits 6-29 || b'00' */
uchar lk; /* bit 31 */
uchar mb; /* bits 21-25 */
uchar me; /* bits 26-30 */
uchar nb; /* bits 16-20 */
uchar op; /* bits 0-5 */
uchar oe; /* bit 21 */
uchar ra; /* bits 11-15 */
uchar rb; /* bits 16-20 */
uchar rc; /* bit 31 */
union {
uchar rs; /* bits 6-10 */
uchar rd;
};
uchar sh; /* bits 16-20 */
ushort spr; /* bits 11-20 */
uchar to; /* bits 6-10 */
uchar imm; /* bits 16-19 */
ushort xo; /* bits 21-30, 22-30, 26-30, or 30 (beware) */
long immediate;
long w0;
long w1;
ulong addr; /* pc of instruction */
short target;
char *curr; /* current fill level in output buffer */
char *end; /* end of buffer */
int size; /* number of longs in instr */
char *err; /* errmsg */
} Instr;
#define IBF(v,a,b) (((ulong)(v)>>(32-(b)-1)) & ~(~0L<<(((b)-(a)+1))))
#define IB(v,b) IBF((v),(b),(b))
static void
bprint(Instr *i, char *fmt, ...)
{
va_list arg;
va_start(arg, fmt);
i->curr = vseprint(i->curr, i->end, fmt, arg);
va_end(arg);
}
static int
decode(ulong *pc, Instr *i)
{
ulong w;
w = *pc;
i->aa = IB(w, 30);
i->crba = IBF(w, 11, 15);
i->crbb = IBF(w, 16, 20);
i->bd = IBF(w, 16, 29)<<2;
if(i->bd & 0x8000)
i->bd |= ~0L<<16;
i->crfd = IBF(w, 6, 8);
i->crfs = IBF(w, 11, 13);
i->bi = IBF(w, 11, 15);
i->bo = IBF(w, 6, 10);
i->crbd = IBF(w, 6, 10);
i->uimm = IBF(w, 16, 31); /* also d, simm */
i->fm = IBF(w, 7, 14);
i->fra = IBF(w, 11, 15);
i->frb = IBF(w, 16, 20);
i->frc = IBF(w, 21, 25);
i->frs = IBF(w, 6, 10);
i->frd = IBF(w, 6, 10);
i->crm = IBF(w, 12, 19);
i->li = IBF(w, 6, 29)<<2;
if(IB(w, 6))
i->li |= ~0<<25;
i->lk = IB(w, 31);
i->mb = IBF(w, 21, 25);
i->me = IBF(w, 26, 30);
i->nb = IBF(w, 16, 20);
i->op = IBF(w, 0, 5);
i->oe = IB(w, 21);
i->ra = IBF(w, 11, 15);
i->rb = IBF(w, 16, 20);
i->rc = IB(w, 31);
i->rs = IBF(w, 6, 10); /* also rd */
i->sh = IBF(w, 16, 20);
i->spr = IBF(w, 11, 20);
i->to = IBF(w, 6, 10);
i->imm = IBF(w, 16, 19);
i->xo = IBF(w, 21, 30); /* bits 21-30, 22-30, 26-30, or 30 (beware) */
i->immediate = i->simm;
if(i->op == 15)
i->immediate <<= 16;
i->w0 = w;
i->target = -1;
i->addr = (ulong)pc;
i->size = 1;
return 1;
}
static int
mkinstr(ulong *pc, Instr *i)
{
Instr x;
if(decode(pc, i) < 0)
return -1;
/*
* combine ADDIS/ORI (CAU/ORIL) into MOVW
*/
if (i->op == 15 && i->ra==0) {
if(decode(pc+1, &x) < 0)
return -1;
if (x.op == 24 && x.rs == x.ra && x.ra == i->rd) {
i->immediate |= (x.immediate & 0xFFFF);
i->w1 = x.w0;
i->target = x.rd;
i->size++;
return 1;
}
}
return 1;
}
static void
pglobal(Instr *i, long off, char *reg)
{
bprint(i, "%lux%s", off, reg);
}
static void
address(Instr *i)
{
if(i->simm < 0)
bprint(i, "-%lx(R%d)", -i->simm, i->ra);
else
bprint(i, "%lux(R%d)", i->immediate, i->ra);
}
static char *tcrbits[] = {"LT", "GT", "EQ", "VS"};
static char *fcrbits[] = {"GE", "LE", "NE", "VC"};
typedef struct Opcode Opcode;
struct Opcode {
uchar op;
ushort xo;
ushort xomask;
char *mnemonic;
void (*f)(Opcode *, Instr *);
char *ken;
int flags;
};
static void format(char *, Instr *, char *);
static void
branch(Opcode *o, Instr *i)
{
char buf[8];
int bo, bi;
bo = i->bo & ~1; /* ignore prediction bit */
if(bo==4 || bo==12 || bo==20) { /* simple forms */
if(bo != 20) {
bi = i->bi&3;
sprint(buf, "B%s%%L", bo==12? tcrbits[bi]: fcrbits[bi]);
format(buf, i, 0);
bprint(i, "\t");
if(i->bi > 4)
bprint(i, "CR(%d),", i->bi/4);
} else
format("BR%L\t", i, 0);
if(i->op == 16)
format(0, i, "%J");
else if(i->op == 19 && i->xo == 528)
format(0, i, "(CTR)");
else if(i->op == 19 && i->xo == 16)
format(0, i, "(LR)");
} else
format(o->mnemonic, i, o->ken);
}
static void
addi(Opcode *o, Instr *i)
{
if (i->op==14 && i->ra == 0)
format("MOVW", i, "%i,R%d");
else if(i->op==14 && i->simm < 0) {
bprint(i, "SUB\t$%d,R%d", -i->simm, i->ra);
if(i->rd != i->ra)
bprint(i, ",R%d", i->rd);
} else if(i->ra == i->rd) {
format(o->mnemonic, i, "%i");
bprint(i, ",R%d", i->rd);
} else
format(o->mnemonic, i, o->ken);
}
static void
addis(Opcode *o, Instr *i)
{
long v;
v = i->immediate;
if (i->op==15 && i->ra == 0)
bprint(i, "MOVW\t$%lux,R%d", v, i->rd);
else if(i->op==15 && v < 0) {
bprint(i, "SUB\t$%d,R%d", -v, i->ra);
if(i->rd != i->ra)
bprint(i, ",R%d", i->rd);
} else {
format(o->mnemonic, i, 0);
bprint(i, "\t$%ld,R%d", v, i->ra);
if(i->rd != i->ra)
bprint(i, ",R%d", i->rd);
}
}
static void
andi(Opcode *o, Instr *i)
{
if (i->ra == i->rs)
format(o->mnemonic, i, "%I,R%d");
else
format(o->mnemonic, i, o->ken);
}
static void
gencc(Opcode *o, Instr *i)
{
format(o->mnemonic, i, o->ken);
}
static void
gen(Opcode *o, Instr *i)
{
format(o->mnemonic, i, o->ken);
if (i->rc)
bprint(i, " [illegal Rc]");
}
static void
ldx(Opcode *o, Instr *i)
{
if(i->ra == 0)
format(o->mnemonic, i, "(R%b),R%d");
else
format(o->mnemonic, i, "(R%b+R%a),R%d");
if(i->rc)
bprint(i, " [illegal Rc]");
}
static void
stx(Opcode *o, Instr *i)
{
if(i->ra == 0)
format(o->mnemonic, i, "R%d,(R%b)");
else
format(o->mnemonic, i, "R%d,(R%b+R%a)");
if(i->rc && i->xo != 150)
bprint(i, " [illegal Rc]");
}
static void
fldx(Opcode *o, Instr *i)
{
if(i->ra == 0)
format(o->mnemonic, i, "(R%b),F%d");
else
format(o->mnemonic, i, "(R%b+R%a),F%d");
if(i->rc)
bprint(i, " [illegal Rc]");
}
static void
fstx(Opcode *o, Instr *i)
{
if(i->ra == 0)
format(o->mnemonic, i, "F%d,(R%b)");
else
format(o->mnemonic, i, "F%d,(R%b+R%a)");
if(i->rc)
bprint(i, " [illegal Rc]");
}
static void
dcb(Opcode *o, Instr *i)
{
if(i->ra == 0)
format(o->mnemonic, i, "(R%b)");
else
format(o->mnemonic, i, "(R%b+R%a)");
if(i->rd)
bprint(i, " [illegal Rd]");
if(i->rc)
bprint(i, " [illegal Rc]");
}
static void
lw(Opcode *o, Instr *i, char r)
{
bprint(i, "%s\t", o->mnemonic);
address(i);
bprint(i, ",%c%d", r, i->rd);
}
static void
load(Opcode *o, Instr *i)
{
lw(o, i, 'R');
}
static void
fload(Opcode *o, Instr *i)
{
lw(o, i, 'F');
}
static void
sw(Opcode *o, Instr *i, char r)
{
char *m;
m = o->mnemonic;
if (r == 'F')
format(m, i, "F%d,%l");
else
format(m, i, o->ken);
}
static void
store(Opcode *o, Instr *i)
{
sw(o, i, 'R');
}
static void
fstore(Opcode *o, Instr *i)
{
sw(o, i, 'F');
}
static void
shifti(Opcode *o, Instr *i)
{
if (i->ra == i->rs)
format(o->mnemonic, i, "$%k,R%a");
else
format(o->mnemonic, i, o->ken);
}
static void
shift(Opcode *o, Instr *i)
{
if (i->ra == i->rs)
format(o->mnemonic, i, "R%b,R%a");
else
format(o->mnemonic, i, o->ken);
}
static void
add(Opcode *o, Instr *i)
{
if (i->rd == i->ra)
format(o->mnemonic, i, "R%b,R%d");
else if (i->rd == i->rb)
format(o->mnemonic, i, "R%a,R%d");
else
format(o->mnemonic, i, o->ken);
}
static void
sub(Opcode *o, Instr *i)
{
format(o->mnemonic, i, 0);
bprint(i, "\t");
if(i->op == 31) {
bprint(i, "\tR%d,R%d", i->ra, i->rb); /* subtract Ra from Rb */
if(i->rd != i->rb)
bprint(i, ",R%d", i->rd);
} else
bprint(i, "\tR%d,$%d,R%d", i->ra, i->simm, i->rd);
}
static void
idiv(Opcode *o, Instr *i)
{
format(o->mnemonic, i, 0);
if(i->op == 31)
bprint(i, "\tR%d,R%d", i->rb, i->ra);
else
bprint(i, "\t$%d,R%d", i->simm, i->ra);
if(i->ra != i->rd)
bprint(i, ",R%d", i->rd);
}
static void
and(Opcode *o, Instr *i)
{
if (i->op == 31) {
/* Rb,Rs,Ra */
if (i->ra == i->rs)
format(o->mnemonic, i, "R%b,R%a");
else if (i->ra == i->rb)
format(o->mnemonic, i, "R%s,R%a");
else
format(o->mnemonic, i, o->ken);
} else {
/* imm,Rs,Ra */
if (i->ra == i->rs)
format(o->mnemonic, i, "%I,R%a");
else
format(o->mnemonic, i, o->ken);
}
}
static void
or(Opcode *o, Instr *i)
{
if (i->op == 31) {
/* Rb,Rs,Ra */
if (i->rs == 0 && i->ra == 0 && i->rb == 0)
format("NOP", i, 0);
else if (i->rs == i->rb)
format("MOVW", i, "R%b,R%a");
else
and(o, i);
} else
and(o, i);
}
static void
shifted(Opcode *o, Instr *i)
{
format(o->mnemonic, i, 0);
bprint(i, "\t$%lux,", (ulong)i->uimm<<16);
if (i->rs == i->ra)
bprint(i, "R%d", i->ra);
else
bprint(i, "R%d,R%d", i->rs, i->ra);
}
static void
neg(Opcode *o, Instr *i)
{
if (i->rd == i->ra)
format(o->mnemonic, i, "R%d");
else
format(o->mnemonic, i, o->ken);
}
static char ir2[] = "R%a,R%d"; /* reverse of IBM order */
static char ir3[] = "R%b,R%a,R%d";
static char ir3r[] = "R%a,R%b,R%d";
static char il3[] = "R%b,R%s,R%a";
static char il2u[] = "%I,R%s,R%a";
static char il3s[] = "$%k,R%s,R%a";
static char il2[] = "R%s,R%a";
static char icmp3[] = "R%a,R%b,%D";
static char cr3op[] = "%b,%a,%d";
static char ir2i[] = "%i,R%a,R%d";
static char fp2[] = "F%b,F%d";
static char fp3[] = "F%b,F%a,F%d";
static char fp3c[] = "F%c,F%a,F%d";
static char fp4[] = "F%a,F%c,F%b,F%d";
static char fpcmp[] = "F%a,F%b,%D";
static char ldop[] = "%l,R%d";
static char stop[] = "R%d,%l";
static char fldop[] = "%l,F%d";
static char fstop[] = "F%d,%l";
static char rlim[] = "R%b,R%s,$%z,R%a";
static char rlimi[] = "$%k,R%s,$%z,R%a";
#define OEM IBF(~0,22,30)
#define FP4 IBF(~0,26,30)
#define ALL (~0)
/*
notes:
10-26: crfD = rD>>2; rD&3 mbz
also, L bit (bit 10) mbz or selects 64-bit operands
*/
static Opcode opcodes[] = {
{31, 266, OEM, "ADD%V%C", add, ir3},
{31, 10, OEM, "ADDC%V%C", add, ir3},
{31, 138, OEM, "ADDE%V%C", add, ir3},
{14, 0, 0, "ADD", addi, ir2i},
{12, 0, 0, "ADDC", addi, ir2i},
{13, 0, 0, "ADDCCC", addi, ir2i},
{15, 0, 0, "ADD", addis, 0},
{31, 234, OEM, "ADDME%V%C", gencc, ir2},
{31, 202, OEM, "ADDZE%V%C", gencc, ir2},
{31, 28, ALL, "AND%C", and, il3},
{31, 60, ALL, "ANDN%C", and, il3},
{28, 0, 0, "ANDCC", andi, il2u},
{29, 0, 0, "ANDCC", shifted, 0},
{18, 0, 0, "B%L", gencc, "%j"},
{16, 0, 0, "BC%L", branch, "%d,%a,%J"},
{19, 528, ALL, "BC%L", branch, "%d,%a,(CTR)"},
{19, 16, ALL, "BC%L", branch, "%d,%a,(LR)"},
{31, 0, ALL, "CMP", 0, icmp3},
{11, 0, 0, "CMP", 0, "R%a,%i,%D"},
{31, 32, ALL, "CMPU", 0, icmp3},
{10, 0, 0, "CMPU", 0, "R%a,%I,%D"},
{31, 26, ALL, "CNTLZ%C", gencc, ir2},
{19, 257, ALL, "CRAND", gen, cr3op},
{19, 129, ALL, "CRANDN", gen, cr3op},
{19, 289, ALL, "CREQV", gen, cr3op},
{19, 225, ALL, "CRNAND", gen, cr3op},
{19, 33, ALL, "CRNOR", gen, cr3op},
{19, 449, ALL, "CROR", gen, cr3op},
{19, 417, ALL, "CRORN", gen, cr3op},
{19, 193, ALL, "CRXOR", gen, cr3op},
{31, 86, ALL, "DCBF", dcb, 0},
{31, 470, ALL, "DCBI", dcb, 0},
{31, 54, ALL, "DCBST", dcb, 0},
{31, 278, ALL, "DCBT", dcb, 0},
{31, 246, ALL, "DCBTST", dcb, 0},
{31, 1014, ALL, "DCBZ", dcb, 0},
{31, 491, OEM, "DIVW%V%C", idiv, ir3},
{31, 459, OEM, "DIVWU%V%C", idiv, ir3},
{31, 310, ALL, "ECIWX", ldx, 0},
{31, 438, ALL, "ECOWX", stx, 0},
{31, 854, ALL, "EIEIO", gen, 0},
{31, 284, ALL, "EQV%C", gencc, il3},
{31, 954, ALL, "EXTSB%C", gencc, il2},
{31, 922, ALL, "EXTSH%C", gencc, il2},
{63, 264, ALL, "FABS%C", gencc, fp2},
{63, 21, ALL, "FADD%C", gencc, fp3},
{59, 21, ALL, "FADDS%C", gencc, fp3},
{63, 32, ALL, "FCMPO", gen, fpcmp},
{63, 0, ALL, "FCMPU", gen, fpcmp},
{63, 14, ALL, "FCTIW%C", gencc, fp2},
{63, 15, ALL, "FCTIWZ%C", gencc, fp2},
{63, 18, ALL, "FDIV%C", gencc, fp3},
{59, 18, ALL, "FDIVS%C", gencc, fp3},
{63, 29, FP4, "FMADD%C", gencc, fp4},
{59, 29, FP4, "FMADDS%C", gencc, fp4},
{63, 72, ALL, "FMOVD%C", gencc, fp2},
{63, 28, FP4, "FMSUB%C", gencc, fp4},
{59, 28, FP4, "FMSUBS%C", gencc, fp4},
{63, 25, FP4, "FMUL%C", gencc, fp3c},
{59, 25, FP4, "FMULS%C", gencc, fp3c},
{63, 136, ALL, "FNABS%C", gencc, fp2},
{63, 40, ALL, "FNEG%C", gencc, fp2},
{63, 31, FP4, "FNMADD%C", gencc, fp4},
{59, 31, FP4, "FNMADDS%C", gencc, fp4},
{63, 30, FP4, "FNMSUB%C", gencc, fp4},
{59, 30, FP4, "FNMSUBS%C", gencc, fp4},
{63, 12, ALL, "FRSP%C", gencc, fp2},
{63, 20, FP4, "FSUB%C", gencc, fp3},
{59, 20, FP4, "FSUBS%C", gencc, fp3},
{31, 982, ALL, "ICBI", dcb, 0},
{19, 150, ALL, "ISYNC", gen, 0},
{34, 0, 0, "MOVBZ", load, ldop},
{35, 0, 0, "MOVBZU", load, ldop},
{31, 119, ALL, "MOVBZU", ldx, 0},
{31, 87, ALL, "MOVBZ", ldx, 0},
{50, 0, 0, "FMOVD", fload, fldop},
{51, 0, 0, "FMOVDU", fload, fldop},
{31, 631, ALL, "FMOVDU", fldx, 0},
{31, 599, ALL, "FMOVD", fldx, 0},
{48, 0, 0, "FMOVS", load, fldop},
{49, 0, 0, "FMOVSU", load, fldop},
{31, 567, ALL, "FMOVSU", fldx, 0},
{31, 535, ALL, "FMOVS", fldx, 0},
{42, 0, 0, "MOVH", load, ldop},
{43, 0, 0, "MOVHU", load, ldop},
{31, 375, ALL, "MOVHU", ldx, 0},
{31, 343, ALL, "MOVH", ldx, 0},
{31, 790, ALL, "MOVHBR", ldx, 0},
{40, 0, 0, "MOVHZ", load, ldop},
{41, 0, 0, "MOVHZU", load, ldop},
{31, 311, ALL, "MOVHZU", ldx, 0},
{31, 279, ALL, "MOVHZ", ldx, 0},
{46, 0, 0, "MOVMW", load, ldop},
{31, 597, ALL, "LSW", gen, "(R%a),$%n,R%d"},
{31, 533, ALL, "LSW", ldx, 0},
{31, 20, ALL, "LWAR", ldx, 0},
{31, 534, ALL, "MOVWBR", ldx, 0},
{32, 0, 0, "MOVW", load, ldop},
{33, 0, 0, "MOVWU", load, ldop},
{31, 55, ALL, "MOVWU", ldx, 0},
{31, 23, ALL, "MOVW", ldx, 0},
{19, 0, ALL, "MOVFL", gen, "%S,%D"},
{63, 64, ALL, "MOVCRFS", gen, "%S,%D"},
{31, 512, ALL, "MOVW", gen, "XER,%D"},
{31, 19, ALL, "MOVW", gen, "CR,R%d"},
{63, 583, ALL, "MOVW%C", gen, "FPSCR, F%d"}, /* mffs */
{31, 83, ALL, "MOVW", gen, "MSR,R%d"},
{31, 339, ALL, "MOVW", gen, "%P,R%d"},
{31, 595, ALL, "MOVW", gen, "SEG(%a),R%d"},
{31, 659, ALL, "MOVW", gen, "SEG(R%b),R%d"},
{31, 144, ALL, "MOVFL", gen, "R%s,%m,CR"},
{63, 70, ALL, "MTFSB0%C", gencc, "%D"},
{63, 38, ALL, "MTFSB1%C", gencc, "%D"},
{63, 711, ALL, "MOVFL%C", gencc, "F%b,%M,FPSCR"}, /* mtfsf */
{63, 134, ALL, "MOVFL%C", gencc, "%K,%D"},
{31, 146, ALL, "MOVW", gen, "R%s,MSR"},
{31, 467, ALL, "MOVW", gen, "R%s,%P"},
{31, 210, ALL, "MOVW", gen, "R%s,SEG(%a)"},
{31, 242, ALL, "MOVW", gen, "R%s,SEG(R%b)"},
{31, 235, OEM, "MULLW%V%C", gencc, ir3},
{7, 0, 0, "MULLW", idiv, "%i,R%a,R%d"},
{31, 476, ALL, "NAND%C", gencc, il3},
{31, 104, OEM, "NEG%V%C", neg, ir2},
{31, 124, ALL, "NOR%C", gencc, il3},
{31, 444, ALL, "OR%C", or, il3},
{31, 412, ALL, "ORN%C", or, il3},
{24, 0, 0, "OR", and, "%I,R%d,R%a"},
{25, 0, 0, "OR", shifted, 0},
{19, 50, ALL, "RFI", gen, 0},
{20, 0, 0, "RLWMI%C", gencc, rlimi},
{21, 0, 0, "RLWNM%C", gencc, rlimi},
{23, 0, 0, "RLWNM%C", gencc, rlim},
{17, 1, ALL, "SYSCALL", gen, 0},
{31, 24, ALL, "SLW%C", shift, il3},
{31, 792, ALL, "SRAW%C", shift, il3},
{31, 824, ALL, "SRAW%C", shifti, il3s},
{31, 536, ALL, "SRW%C", shift, il3},
{38, 0, 0, "MOVB", store, stop},
{39, 0, 0, "MOVBU", store, stop},
{31, 247, ALL, "MOVBU", stx, 0},
{31, 215, ALL, "MOVB", stx, 0},
{54, 0, 0, "FMOVD", fstore, fstop},
{55, 0, 0, "FMOVDU", fstore, fstop},
{31, 759, ALL, "FMOVDU", fstx, 0},
{31, 727, ALL, "FMOVD", fstx, 0},
{52, 0, 0, "FMOVS", fstore, fstop},
{53, 0, 0, "FMOVSU", fstore, fstop},
{31, 695, ALL, "FMOVSU", fstx, 0},
{31, 663, ALL, "FMOVS", fstx, 0},
{44, 0, 0, "MOVH", store, stop},
{31, 918, ALL, "MOVHBR", stx, 0},
{45, 0, 0, "MOVHU", store, stop},
{31, 439, ALL, "MOVHU", stx, 0},
{31, 407, ALL, "MOVH", stx, 0},
{47, 0, 0, "MOVMW", store, stop},
{31, 725, ALL, "STSW", gen, "R%d,$%n,(R%a)"},
{31, 661, ALL, "STSW", stx, 0},
{36, 0, 0, "MOVW", store, stop},
{31, 662, ALL, "MOVWBR", stx, 0},
{31, 150, ALL, "STWCCC", stx, 0},
{37, 0, 0, "MOVWU", store, stop},
{31, 183, ALL, "MOVWU", stx, 0},
{31, 151, ALL, "MOVW", stx, 0},
{31, 40, OEM, "SUB%V%C", sub, ir3},
{31, 8, OEM, "SUBC%V%C", sub, ir3},
{31, 136, OEM, "SUBE%V%C", sub, ir3},
{8, 0, 0, "SUBC", gen, "R%a,%i,R%d"},
{31, 232, OEM, "SUBME%V%C", sub, ir2},
{31, 200, OEM, "SUBZE%V%C", sub, ir2},
{31, 598, ALL, "SYNC", gen, 0},
{31, 306, ALL, "TLBIE", gen, "R%b"},
{31, 1010, ALL, "TLBLI", gen, "R%b"},
{31, 978, ALL, "TLBLD", gen, "R%b"},
{31, 4, ALL, "TW", gen, "%d,R%a,R%b"},
{3, 0, 0, "TW", gen, "%d,R%a,%i"},
{31, 316, ALL, "XOR", and, il3},
{26, 0, 0, "XOR", and, il2u},
{27, 0, 0, "XOR", shifted, 0},
{0},
};
typedef struct Spr Spr;
struct Spr {
int n;
char *name;
};
static Spr sprname[] = {
{0, "MQ"},
{1, "XER"},
{268, "TBL"},
{269, "TBU"},
{8, "LR"},
{9, "CTR"},
{528, "IBAT0U"},
{529, "IBAT0L"},
{530, "IBAT1U"},
{531, "IBAT1L"},
{532, "IBAT2U"},
{533, "IBAT2L"},
{534, "IBAT3U"},
{535, "IBAT3L"},
{536, "DBAT0U"},
{537, "DBAT0L"},
{538, "DBAT1U"},
{539, "DBAT1L"},
{540, "DBAT2U"},
{541, "DBAT2L"},
{542, "DBAT3U"},
{543, "DBAT3L"},
{25, "SDR1"},
{19, "DAR"},
{272, "SPRG0"},
{273, "SPRG1"},
{274, "SPRG2"},
{275, "SPRG3"},
{18, "DSISR"},
{26, "SRR0"},
{27, "SRR1"},
{284, "TBLW"},
{285, "TBUW"},
{22, "DEC"},
{282, "EAR"},
{1008, "HID0"},
{1009, "HID1"},
{976, "DMISS"},
{977, "DCMP"},
{978, "HASH1"},
{979, "HASH2"},
{980, "IMISS"},
{981, "ICMP"},
{982, "RPA"},
{1010, "IABR"},
{0,0},
};
static void
format(char *mnemonic, Instr *i, char *f)
{
int n, s;
ulong mask;
if (mnemonic)
format(0, i, mnemonic);
if (f == 0)
return;
if (mnemonic)
bprint(i, "\t");
for ( ; *f; f++) {
if (*f != '%') {
bprint(i, "%c", *f);
continue;
}
switch (*++f) {
case 'V':
if(i->oe)
bprint(i, "V");
break;
case 'C':
if(i->rc)
bprint(i, "CC");
break;
case 'a':
bprint(i, "%d", i->ra);
break;
case 'b':
bprint(i, "%d", i->rb);
break;
case 'c':
bprint(i, "%d", i->frc);
break;
case 'd':
case 's':
bprint(i, "%d", i->rd);
break;
case 'S':
if(i->ra & 3)
bprint(i, "CR(INVAL:%d)", i->ra);
else if(i->op == 63)
bprint(i, "FPSCR(%d)", i->crfs);
else
bprint(i, "CR(%d)", i->crfs);
break;
case 'D':
if(i->rd & 3)
bprint(i, "CR(INVAL:%d)", i->rd);
else if(i->op == 63)
bprint(i, "FPSCR(%d)", i->crfd);
else
bprint(i, "CR(%d)", i->crfd);
break;
case 'l':
if(i->simm < 0)
bprint(i, "-%lx(R%d)", -i->simm, i->ra);
else
bprint(i, "%lx(R%d)", i->simm, i->ra);
break;
case 'i':
bprint(i, "$%ld", i->simm);
break;
case 'I':
bprint(i, "$%lx", i->uimm);
break;
case 'w':
bprint(i, "[%lux]", i->w0);
break;
case 'P':
n = ((i->spr&0x1f)<<5)|((i->spr>>5)&0x1f);
for(s=0; sprname[s].name; s++)
if(sprname[s].n == n)
break;
if(sprname[s].name) {
if(n < 10)
bprint(i, sprname[s].name);
else
bprint(i, "SPR(%s)", sprname[s].name);
} else
bprint(i, "SPR(%d)", n);
break;
case 'n':
bprint(i, "%d", i->nb==0? 32: i->nb); /* eg, pg 10-103 */
break;
case 'm':
bprint(i, "%lx", i->crm);
break;
case 'M':
bprint(i, "%lx", i->fm);
break;
case 'z':
if(i->mb <= i->me)
mask = ((ulong)~0L>>i->mb) & (~0L<<(31-i->me));
else
mask = ~(((ulong)~0L>>(i->me+1)) & (~0L<<(31-(i->mb-1))));
bprint(i, "%lux", mask);
break;
case 'k':
bprint(i, "%d", i->sh);
break;
case 'K':
bprint(i, "$%x", i->imm);
break;
case 'L':
if(i->lk)
bprint(i, "L");
break;
case 'j':
if(i->aa)
pglobal(i, i->li, "(ABS)");
else
pglobal(i, i->addr+i->li, "(REL)");
break;
case 'J':
if(i->aa)
pglobal(i, i->bd, "(ABS)");
else
pglobal(i, i->addr+i->bd, "(REL)");
break;
case '\0':
bprint(i, "%%");
return;
default:
bprint(i, "%%%c", *f);
break;
}
}
}
int
das(ulong *pc)
{
Instr i;
Opcode *o;
char buf[100];
int r;
memset(&i, 0, sizeof(i));
i.curr = buf;
i.end = buf+sizeof(buf)-1;
r = mkinstr(pc, &i);
i.curr += sprint(i.curr, " %.8lux %.8lux ", (ulong)pc, i.w0);
if(r >= 0){
if(i.size == 2)
i.curr += sprint(i.curr, "%.8lux ", i.w1);
for(o = opcodes; o->mnemonic != 0; o++)
if(i.op == o->op && (i.xo & o->xomask) == o->xo) {
if (o->f)
(*o->f)(o, &i);
else
format(o->mnemonic, &i, o->ken);
print("%s\n", buf);
return i.size;
}
}
strcpy(i.curr, "ILLEGAL");
print("%s\n", buf);
return i.size;
}