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plan9port / plan9 / b3a110affa33f0a3c96e06438047913f2db90c91 / . / src / libmach / machpower.c
blob: 4c9b574c5e68abdfef8335540856dc94b374807b [file] [log] [blame]
/*
* PowerPC definition
* forsyth@plan9.cs.york.ac.uk
*/
#include <u.h>
#include <libc.h>
#include <bio.h>
#include "uregpower.h"
#include <mach.h>
/*
* PowerPC-specific debugger interface
* forsyth@plan9.cs.york.ac.uk
*/
static char *powerexcep(Map*, Regs*);
static int powerfoll(Map*, Regs*, u64int, u64int*);
static int powerdas(Map*, u64int, char, char*, int);
static int powerinstlen(Map*, u64int);
static int powerhexinst(Map*, u64int, char*, int);
static char *excname[] =
{
"reserved 0",
"system reset",
"machine check",
"data access",
"instruction access",
"external interrupt",
"alignment",
"program exception",
"floating-point unavailable",
"decrementer",
"i/o controller interface error",
"reserved B",
"system call",
"trace trap",
"floating point assist",
"reserved",
"ITLB miss",
"DTLB load miss",
"DTLB store miss",
"instruction address breakpoint"
"SMI interrupt"
"reserved 15",
"reserved 16",
"reserved 17",
"reserved 18",
"reserved 19",
"reserved 1A",
/* the following are made up on a program exception */
"floating point exception", /* FPEXC */
"illegal instruction",
"privileged instruction",
"trap",
"illegal operation",
};
static char*
powerexcep(Map *map, Regs *regs)
{
u64int c;
static char buf[32];
if(rget(regs, "CAUSE", &c) < 0)
return "no cause register";
c >>= 8;
if(c < nelem(excname))
return excname[c];
sprint(buf, "unknown trap #%lux", c);
return buf;
}
/*
* disassemble PowerPC opcodes
*/
#define REGSP 1 /* should come from q.out.h, but there's a clash */
#define REGSB 2
/*static char FRAMENAME[] = ".frame"; */
static Map *mymap;
/*
* 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;
u64int 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)
{
u32int w;
if (get4(mymap, pc, &w) < 0) {
werrstr("can't read instruction: %r");
return -1;
}
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 = 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+4, &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 int
plocal(Instr *i)
{
Symbol s;
Loc l, li;
l.type = LOFFSET;
l.offset = i->immediate;
l.reg = "SP";
li.type = LADDR;
li.addr = i->addr;
if (findsym(li, CTEXT, &s)<0 || findlsym(&s, l, &s)<0)
return -1;
bprint(i, "%s%+ld(SP)", s.name, (long)i->immediate);
return 0;
}
static int
pglobal(Instr *i, long off, int anyoff, char *reg)
{
Symbol s, s2;
u32int off1;
Loc l;
l.type = LADDR;
l.addr = off;
if(findsym(l, CANY, &s)>=0 && s.loc.type==LADDR &&
s.loc.addr-off < 4096 &&
(s.class == CDATA || s.class == CTEXT)) {
if(off==s.loc.addr && s.name[0]=='$'){
off1 = 0;
get4(mymap, s.loc.addr, &off1);
l.addr = off1;
if(off1 && findsym(l, CANY, &s2)>=0 && s2.loc.type==LADDR && s2.loc.addr == off1){
bprint(i, "$%s%s", s2.name, reg);
return 1;
}
}
bprint(i, "%s", s.name);
if (s.loc.addr != off)
bprint(i, "+%lux", off-s.loc.addr);
bprint(i, reg);
return 1;
}
if(!anyoff)
return 0;
bprint(i, "%lux%s", off, reg);
return 1;
}
static void
address(Instr *i)
{
if (i->ra == REGSP && plocal(i) >= 0)
return;
if (i->ra == REGSB && mach->sb && pglobal(i, mach->sb+i->immediate, 0, "(SB)") >= 0)
return;
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->ra == REGSB) {
bprint(i, "MOVW\t$");
address(i);
bprint(i, ",R%d", i->rd);
} else if(i->op==14 && i->simm < 0) {
bprint(i, "SUB\t$%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$%lux,R%d", v, i->rd);
else if (i->op==15 && i->ra == REGSB) {
bprint(i, "MOVW\t$");
address(i);
bprint(i, ",R%d", 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;
Symbol s;
Loc l;
m = o->mnemonic;
if (i->rs == REGSP) {
l.type = LADDR;
l.addr = i->addr;
if (findsym(l, CTEXT, &s)>=0) {
l.type = LOFFSET;
l.reg = "SP";
l.offset = i->immediate;
if (findlsym(&s, l, &s) >= 0) {
bprint(i, "%s\t%c%d,%s-%d(SP)", m, r, i->rd,
s.name, i->immediate);
return;
}
}
}
if (i->rs == REGSB && mach->sb) {
bprint(i, "%s\t%c%d,", m, r, i->rd);
address(i);
return;
}
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);
}
#define div power_div
static void
div(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%a,R%d";
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 ((ushort)~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, 360, OEM, "ABS%V%C", 0, ir2}, /* POWER */
{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, 531, ALL, "CLCS", gen, ir2}, /* POWER */
{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, 331, OEM, "DIV%V%C", div, ir3}, /* POWER */
{31, 363, OEM, "DIVS%V%C", div, ir3}, /* POWER */
{31, 491, OEM, "DIVW%V%C", div, ir3},
{31, 459, OEM, "DIVWU%V%C", div, ir3},
{31, 264, OEM, "DOZ%V%C", gencc, ir3r}, /* POWER */
{9, 0, 0, "DOZ", gen, ir2i}, /* POWER */
{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, 277, ALL, "LSCBX%C", ldx, 0}, /* POWER */
{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},
{31, 29, ALL, "MASKG%C", gencc, "R%s:R%b,R%d"}, /* POWER */
{31, 541, ALL, "MASKIR%C", gencc, "R%s,R%b,R%a"}, /* POWER */
{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, 107, OEM, "MUL%V%C", gencc, ir3}, /* POWER */
{31, 75, ALL, "MULHW%C", gencc, ir3}, /* POWER */
{31, 11, ALL, "MULHWU%C", gencc, ir3}, /* POWER */
{31, 235, OEM, "MULLW%V%C", gencc, ir3},
{7, 0, 0, "MULLW", div, "%i,R%a,R%d"},
{31, 488, OEM, "NABS%V%C", neg, ir2}, /* POWER */
{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},
{22, 0, 0, "RLMI%C", gencc, rlim}, /* POWER */
{20, 0, 0, "RLWMI%C", gencc, rlimi},
{21, 0, 0, "RLWNM%C", gencc, rlimi},
{23, 0, 0, "RLWNM%C", gencc, rlim},
{31, 537, ALL, "RRIB%C", gencc, il3}, /* POWER */
{17, 1, ALL, "SYSCALL", gen, 0},
{31, 153, ALL, "SLE%C", shift, il3}, /* POWER */
{31, 217, ALL, "SLEQ%C", shift, il3}, /* POWER */
{31, 184, ALL, "SLQ%C", shifti, il3s}, /* POWER */
{31, 248, ALL, "SLLQ%C", shifti, il3s}, /* POWER */
{31, 216, ALL, "SLLQ%C", shift, il3}, /* POWER */
{31, 152, ALL, "SLQ%C", shift, il3}, /* POWER */
{31, 24, ALL, "SLW%C", shift, il3},
{31, 920, ALL, "SRAQ%C", shift, il3}, /* POWER */
{31, 952, ALL, "SRAQ%C", shifti, il3s}, /* POWER */
{31, 792, ALL, "SRAW%C", shift, il3},
{31, 824, ALL, "SRAW%C", shifti, il3s},
{31, 665, ALL, "SRE%C", shift, il3}, /* POWER */
{31, 921, ALL, "SREA%C", shift, il3}, /* POWER */
{31, 729, ALL, "SREQ%C", shift, il3}, /* POWER */
{31, 696, ALL, "SRQ%C", shifti, il3s}, /* POWER */
{31, 760, ALL, "SRLQ%C", shifti, il3s}, /* POWER */
{31, 728, ALL, "SRLQ%C", shift, il3}, /* POWER */
{31, 664, ALL, "SRQ%C", shift, il3}, /* POWER */
{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, 370, ALL, "TLBIA", 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(s < 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, 1, "(SB)");
else
pglobal(i, i->addr+i->li, 1, "");
break;
case 'J':
if(i->aa)
pglobal(i, i->bd, 1, "(SB)");
else
pglobal(i, i->addr+i->bd, 1, "");
break;
case '\0':
bprint(i, "%%");
return;
default:
bprint(i, "%%%c", *f);
break;
}
}
}
static int
printins(Map *map, ulong pc, char *buf, int n)
{
Instr i;
Opcode *o;
mymap = map;
memset(&i, 0, sizeof(i));
i.curr = buf;
i.end = buf+n-1;
if(mkinstr(pc, &i) < 0)
return -1;
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);
return i.size*4;
}
bprint(&i, "unknown %lux", i.w0);
return i.size*4;
}
static int
powerdas(Map *map, u64int pc, char modifier, char *buf, int n)
{
USED(modifier);
return printins(map, pc, buf, n);
}
static int
powerhexinst(Map *map, u64int pc, char *buf, int n)
{
Instr instr;
mymap = map;
memset(&instr, 0, sizeof(instr));
instr.curr = buf;
instr.end = buf+n-1;
if (mkinstr(pc, &instr) < 0)
return -1;
if (instr.end-instr.curr > 8)
instr.curr = _hexify(instr.curr, instr.w0, 7);
if (instr.end-instr.curr > 9 && instr.size == 2) {
*instr.curr++ = ' ';
instr.curr = _hexify(instr.curr, instr.w1, 7);
}
*instr.curr = 0;
return instr.size*4;
}
static int
powerinstlen(Map *map, u64int pc)
{
Instr i;
mymap = map;
if (mkinstr(pc, &i) < 0)
return -1;
return i.size*4;
}
static int
powerfoll(Map *map, Regs *regs, u64int pc, u64int *foll)
{
char *reg;
Instr i;
mymap = map;
if (mkinstr(pc, &i) < 0)
return -1;
foll[0] = pc+4;
foll[1] = pc+4;
switch(i.op) {
default:
return 1;
case 18: /* branch */
foll[0] = i.li;
if(!i.aa)
foll[0] += pc;
break;
case 16: /* conditional branch */
foll[0] = i.bd;
if(!i.aa)
foll[0] += pc;
break;
case 19: /* conditional branch to register */
if(i.xo == 528)
reg = "CTR";
else if(i.xo == 16)
reg = "LR";
else
return 1; /* not a branch */
if(rget(regs, reg, &foll[0]) < 0)
return -1;
break;
}
if(i.lk)
return 2;
return 1;
}
#define REGOFF(x) (ulong) (&((struct Ureg *) 0)->x)
#define SP REGOFF(r1)
#define PC REGOFF(pc)
#define R3 REGOFF(r3) /* return reg */
#define LR REGOFF(lr)
#define R31 REGOFF(r31)
#define FP_REG(x) (R31+4+8*(x))
#define REGSIZE sizeof(struct Ureg)
#define FPREGSIZE (8*33)
Regdesc powerreglist[] =
{
{"CAUSE", REGOFF(cause), RINT|RRDONLY, 'X'},
{"SRR1", REGOFF(srr1), RINT|RRDONLY, 'X'},
{"PC", REGOFF(pc), RINT, 'X'},
{"LR", REGOFF(lr), RINT, 'X'},
{"CR", REGOFF(cr), RINT, 'X'},
{"XER", REGOFF(xer), RINT, 'X'},
{"CTR", REGOFF(ctr), RINT, 'X'},
{"PC", PC, RINT, 'X'},
{"SP", SP, RINT, 'X'},
{"R0", REGOFF(r0), RINT, 'X'},
/* R1 is SP */
{"R2", REGOFF(r2), RINT, 'X'},
{"R3", REGOFF(r3), RINT, 'X'},
{"R4", REGOFF(r4), RINT, 'X'},
{"R5", REGOFF(r5), RINT, 'X'},
{"R6", REGOFF(r6), RINT, 'X'},
{"R7", REGOFF(r7), RINT, 'X'},
{"R8", REGOFF(r8), RINT, 'X'},
{"R9", REGOFF(r9), RINT, 'X'},
{"R10", REGOFF(r10), RINT, 'X'},
{"R11", REGOFF(r11), RINT, 'X'},
{"R12", REGOFF(r12), RINT, 'X'},
{"R13", REGOFF(r13), RINT, 'X'},
{"R14", REGOFF(r14), RINT, 'X'},
{"R15", REGOFF(r15), RINT, 'X'},
{"R16", REGOFF(r16), RINT, 'X'},
{"R17", REGOFF(r17), RINT, 'X'},
{"R18", REGOFF(r18), RINT, 'X'},
{"R19", REGOFF(r19), RINT, 'X'},
{"R20", REGOFF(r20), RINT, 'X'},
{"R21", REGOFF(r21), RINT, 'X'},
{"R22", REGOFF(r22), RINT, 'X'},
{"R23", REGOFF(r23), RINT, 'X'},
{"R24", REGOFF(r24), RINT, 'X'},
{"R25", REGOFF(r25), RINT, 'X'},
{"R26", REGOFF(r26), RINT, 'X'},
{"R27", REGOFF(r27), RINT, 'X'},
{"R28", REGOFF(r28), RINT, 'X'},
{"R29", REGOFF(r29), RINT, 'X'},
{"R30", REGOFF(r30), RINT, 'X'},
{"R31", REGOFF(r31), RINT, 'X'},
{"VRSAVE", REGOFF(vrsave), RINT, 'X'},
{"F0", FP_REG(0), RFLT, 'F'},
{"F1", FP_REG(1), RFLT, 'F'},
{"F2", FP_REG(2), RFLT, 'F'},
{"F3", FP_REG(3), RFLT, 'F'},
{"F4", FP_REG(4), RFLT, 'F'},
{"F5", FP_REG(5), RFLT, 'F'},
{"F6", FP_REG(6), RFLT, 'F'},
{"F7", FP_REG(7), RFLT, 'F'},
{"F8", FP_REG(8), RFLT, 'F'},
{"F9", FP_REG(9), RFLT, 'F'},
{"F10", FP_REG(10), RFLT, 'F'},
{"F11", FP_REG(11), RFLT, 'F'},
{"F12", FP_REG(12), RFLT, 'F'},
{"F13", FP_REG(13), RFLT, 'F'},
{"F14", FP_REG(14), RFLT, 'F'},
{"F15", FP_REG(15), RFLT, 'F'},
{"F16", FP_REG(16), RFLT, 'F'},
{"F17", FP_REG(17), RFLT, 'F'},
{"F18", FP_REG(18), RFLT, 'F'},
{"F19", FP_REG(19), RFLT, 'F'},
{"F20", FP_REG(20), RFLT, 'F'},
{"F21", FP_REG(21), RFLT, 'F'},
{"F22", FP_REG(22), RFLT, 'F'},
{"F23", FP_REG(23), RFLT, 'F'},
{"F24", FP_REG(24), RFLT, 'F'},
{"F25", FP_REG(25), RFLT, 'F'},
{"F26", FP_REG(26), RFLT, 'F'},
{"F27", FP_REG(27), RFLT, 'F'},
{"F28", FP_REG(28), RFLT, 'F'},
{"F29", FP_REG(29), RFLT, 'F'},
{"F30", FP_REG(30), RFLT, 'F'},
{"F31", FP_REG(31), RFLT, 'F'},
{"FPSCR", FP_REG(32)+4, RFLT, 'X'},
{ 0 }
};
static char *powerwindregs[] =
{
"PC",
"SP",
"LR",
0,
};
static int
powerunwind(Map *map, Regs *regs, u64int *next, Symbol *sym)
{
/*
* This is tremendously hard. The best we're going to
* do without better debugger support is trace through
* the stack frame links and pull the link registers out of 8(R1).
* Anything more requires knowing which registers got saved,
* and the compiler appears not to record that. Gdb appears
* to disassemble the function prologues in order to figure
* this out.
*/
/* evaluate lr */
/* if in this function, no good - go to saved one. */
/* set next[sp] to *cur[sp] */
/* set next[pc] to lr */
/* set next[lr] to lr */
/* */
werrstr("powerunwind not implemented");
return -1;
}
/* the machine description */
Mach machpower =
{
"power",
MPOWER, /* machine type */
powerreglist, /* register set */
REGSIZE, /* number of bytes in register set */
FPREGSIZE, /* number of bytes in FP register set */
"PC", /* name of PC */
"SP", /* name of SP */
0, /* name of FP */
"LR", /* name of link register */
"setSB", /* static base register name */
0, /* value */
0x1000, /* page size */
0x80000000, /* kernel base */
0, /* kernel text mask */
4, /* quantization of pc */
4, /* szaddr */
4, /* szreg */
4, /* szfloat */
8, /* szdouble */
powerwindregs, /* locations unwound in stack trace */
3,
{0x02, 0x8F, 0xFF, 0xFF}, /* break point */ /* BUG */
4,
powerfoll, /* following addresses */
powerexcep, /* print exception */
powerunwind, /* stack unwind */
beswap2, /* convert short to local byte order */
beswap4, /* convert long to local byte order */
beswap8, /* convert vlong to local byte order */
beieeeftoa32, /* single precision float pointer */
beieeeftoa64, /* double precision float pointer */
beieeeftoa80, /* long double precision floating point */
powerdas, /* dissembler */
powerdas, /* plan9-format disassembler */
0, /* commercial disassembler */
powerhexinst, /* print instruction */
powerinstlen, /* instruction size calculation */
};