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x86.c
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x86.c
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/* architecture-dependent code generation for x86 */
#include <stdlib.h>
#include "ncc.h"
/* x86-64 registers, without r8-r15 */
#define R_RAX 0x00
#define R_RCX 0x01
#define R_RDX 0x02
#define R_RBX 0x03
#define R_RSP 0x04
#define R_RBP 0x05
#define R_RSI 0x06
#define R_RDI 0x07
#define REG_RET R_RAX
#define R_BYTE 0x0007
/* x86 opcodes */
#define I_MOV 0x89
#define I_MOVI 0xc7
#define I_MOVIR 0xb8
#define I_MOVR 0x8b
#define I_MOVSXD 0x63
#define I_SHX 0xd3
#define I_CMP 0x3b
#define I_TST 0x85
#define I_LEA 0x8d
#define I_NOT 0xf7
#define I_CALL 0xff
#define I_MUL 0xf7
#define I_XOR 0x33
#define I_CQO 0x99
#define I_PUSH 0x50
#define I_POP 0x58
#define MIN(a, b) ((a) < (b) ? (a) : (b))
#define ALIGN(x, a) (((x) + (a) - 1) & ~((a) - 1))
int tmpregs[] = {0, 1, 2, 6, 7, 3};
int argregs[] = {0};
#define OP2(o2, o1) (0x010000 | ((o2) << 8) | (o1))
#define O2(op) (((op) >> 8) & 0xff)
#define O1(op) ((op) & 0xff)
#define MODRM(m, r1, r2) ((m) << 6 | (r1) << 3 | (r2))
static struct mem cs; /* generated code */
/* code generation functions */
static void os(void *s, int n)
{
mem_put(&cs, s, n);
}
static char *ointbuf(long n, int l)
{
static char buf[16];
int i;
for (i = 0; i < l; i++) {
buf[i] = n & 0xff;
n >>= 8;
}
return buf;
}
static void oi(long n, int l)
{
mem_put(&cs, ointbuf(n, l), l);
}
static void oi_at(long pos, long n, int l)
{
mem_cpy(&cs, pos, ointbuf(n, l), l);
}
static long opos(void)
{
return mem_len(&cs);
}
static void op_x(int op, int r1, int r2, int bt)
{
int sz = T_SZ(bt);
if (sz == 2)
oi(0x66, 1);
if (op & 0x10000)
oi(O2(op), 1);
oi(sz == 1 ? O1(op) & ~0x1 : O1(op), 1);
}
#define op_mr op_rm
/* op_*(): r=reg, m=mem, i=imm, s=sym */
static void op_rm(int op, int src, int base, int off, int bt)
{
int dis = off == (char) off ? 1 : 4;
int mod = dis == 4 ? 2 : 1;
if (!off && (base & 7) != R_RBP)
mod = 0;
op_x(op, src, base, bt);
oi(MODRM(mod, src & 0x07, base & 0x07), 1);
if ((base & 7) == R_RSP)
oi(0x24, 1);
if (mod)
oi(off, dis);
}
static void op_rr(int op, int src, int dst, int bt)
{
op_x(op, src, dst, bt);
oi(MODRM(3, src & 0x07, dst & 0x07), 1);
}
#define movrx_bt(bt) (LONGSZ)
static int movrx_op(int bt, int mov)
{
int sz = T_SZ(bt);
if (sz == 2)
return OP2(0x0f, bt & T_MSIGN ? 0xbf : 0xb7);
if (sz == 1)
return OP2(0x0f, bt & T_MSIGN ? 0xbe : 0xb6);
return mov;
}
static void mov_r2r(int rd, int r1, unsigned bt)
{
if (rd != r1 || T_SZ(bt) != LONGSZ)
op_rr(movrx_op(bt, I_MOVR), rd, r1, movrx_bt(bt));
}
static void i_push(int reg)
{
op_x(I_PUSH | (reg & 0x7), 0, reg, LONGSZ);
}
static void i_pop(int reg)
{
op_x(I_POP | (reg & 0x7), 0, reg, LONGSZ);
}
static void i_mov(int rd, int rn)
{
op_rr(movrx_op(LONGSZ, I_MOVR), rd, rn, movrx_bt(LONGSZ));
}
static void i_add(int op, int rd, int r1, int r2)
{
/* opcode for O_ADD, O_SUB, O_AND, O_OR, O_XOR */
static int rx[] = {0003, 0053, 0043, 0013, 0063};
op_rr(rx[op & 0x0f], rd, r2, LONGSZ);
}
static void i_add_imm(int op, int rd, int rn, long n)
{
/* opcode for O_ADD, O_SUB, O_AND, O_OR, O_XOR */
static int rx[] = {0xc0, 0xe8, 0xe0, 0xc8, 0xf0};
unsigned char s[4] = {0x83, rx[op & 0x0f] | rd, n & 0xff};
os((void *) s, 3);
}
static void i_num(int rd, long n)
{
if (!n) {
op_rr(I_XOR, rd, rd, 4);
return;
} else {
op_x(I_MOVIR + (rd & 7), 0, rd, LONGSZ);
oi(n, LONGSZ);
}
}
static void i_mul(int rd, int r1, int r2)
{
if (r2 != R_RDX)
i_num(R_RDX, 0);
op_rr(I_MUL, 4, r2, LONGSZ);
}
static void i_div(int op, int rd, int r1, int r2)
{
long bt = O_T(op);
if (r2 != R_RDX) {
if (bt & T_MSIGN)
op_x(I_CQO, R_RAX, R_RDX, LONGSZ);
else
i_num(R_RDX, 0);
}
op_rr(I_MUL, bt & T_MSIGN ? 7 : 6, r2, LONGSZ);
}
static void i_tst(int rn, int rm)
{
op_rr(I_TST, rn, rm, LONGSZ);
}
static void i_cmp(int rn, int rm)
{
op_rr(I_CMP, rn, rm, LONGSZ);
}
static void i_cmp_imm(int rn, long n)
{
unsigned char s[4] = {0x83, 0xf8 | rn, n & 0xff};
os(s, 3);
}
static void i_shl(int op, int rd, int r1, int rs)
{
long bt = O_T(op);
int sm = 4;
if ((op & 0x0f) == 1)
sm = bt & T_MSIGN ? 7 : 5;
op_rr(I_SHX, sm, rd, LONGSZ);
}
static void i_shl_imm(int op, int rd, int rn, long n)
{
long bt = O_T(op);
int sm = (op & 0x1) ? (bt & T_MSIGN ? 0xf8 : 0xe8) : 0xe0;
char s[4] = {0xc1, sm | rn, n & 0xff};
os(s, 3);
}
static void i_neg(int rd)
{
op_rr(I_NOT, 3, rd, LONGSZ);
}
static void i_not(int rd)
{
op_rr(I_NOT, 2, rd, LONGSZ);
}
static int i_cond(long op)
{
/* lt, ge, eq, ne, le, gt */
static int ucond[] = {0x92, 0x93, 0x94, 0x95, 0x96, 0x97};
static int scond[] = {0x9c, 0x9d, 0x94, 0x95, 0x9e, 0x9f};
long bt = O_T(op);
return bt & T_MSIGN ? scond[op & 0x0f] : ucond[op & 0x0f];
}
static void i_set(long op, int rd)
{
char set[] = "\x0f\x00\xc0";
set[1] = i_cond(op);
os(set, 3); /* setl al */
os("\x0f\xb6\xc0", 3); /* movzx rax, al */
}
static void i_lnot(int rd)
{
char cmp[] = "\x83\xf8\x00";
cmp[1] |= rd;
os(cmp, 3); /* cmp rax, 0 */
i_set(O_EQ, rd);
}
static void jx(int x, int nbytes)
{
char op[2] = {0x0f};
if (nbytes == 1) {
oi(0x70 | (x & 0x0f), 1); /* jx $addr */
} else {
op[1] = x;
os(op, 2); /* jx $addr */
}
}
/* generate cmp or tst before a conditional jump */
static void i_jcmp(long op, long rn, long rm)
{
if (op & O_JZ)
i_tst(rn, rn);
if (op & O_JCC) {
if (op & O_NUM)
i_cmp_imm(rn, rm);
else
i_cmp(rn, rm);
}
}
/* generate a jump instruction and return the of its displacement */
static long i_jmp(long op, int nb)
{
if (op & O_JZ)
jx(O_C(op) == O_JZ ? 0x84 : 0x85, nb);
else if (op & O_JCC)
jx(i_cond(op) & ~0x10, nb);
else
os(nb == 1 ? "\xeb" : "\xe9", 1);
oi(0, nb);
return opos() - nb;
}
/* the length of a jump instruction opcode */
static int i_jlen(long op, int nb)
{
if (op & (O_JZ | O_JCC))
return nb ? 2 : 1;
return 1;
}
/* zero extend */
static void i_zx(int rd, int r1, int bits)
{
if (bits & 0x07) {
i_shl_imm(O_SHL, rd, rd, LONGSZ * 8 - bits);
i_shl_imm(O_SHR, rd, rd, LONGSZ * 8 - bits);
} else {
mov_r2r(rd, r1, bits >> 3);
}
}
/* sign extend */
static void i_sx(int rd, int r1, int bits)
{
mov_r2r(rd, r1, T_MSIGN | (bits >> 3));
}
static void i_cast(int rd, int rn, int bt)
{
if (T_SZ(bt) == 8) {
if (rd != rn)
i_mov(rd, rn);
} else {
if (bt & T_MSIGN)
i_sx(rd, rn, T_SZ(bt) * 8);
else
i_zx(rd, rn, T_SZ(bt) * 8);
}
}
static void i_add_anyimm(int rd, int rn, long n)
{
op_rm(I_LEA, rd, rn, n, LONGSZ);
}
static long *rel_sym; /* relocation symbols */
static long *rel_flg; /* relocation flags */
static long *rel_off; /* relocation offsets */
static long rel_n, rel_sz; /* relocation count */
static long lab_sz; /* label count */
static long *lab_loc; /* label offsets in cs */
static long jmp_n, jmp_sz; /* jump count */
static long *jmp_off; /* jump offsets */
static long *jmp_dst; /* jump destinations */
static long *jmp_op; /* jump opcode */
static long jmp_ret; /* the position of the last return jmp */
static void lab_add(long id)
{
while (id >= lab_sz) {
int lab_n = lab_sz;
lab_sz = MAX(128, lab_sz * 2);
lab_loc = mextend(lab_loc, lab_n, lab_sz, sizeof(*lab_loc));
}
lab_loc[id] = opos();
}
static void jmp_add(long op, long off, long dst)
{
if (jmp_n == jmp_sz) {
jmp_sz = MAX(128, jmp_sz * 2);
jmp_off = mextend(jmp_off, jmp_n, jmp_sz, sizeof(*jmp_off));
jmp_dst = mextend(jmp_dst, jmp_n, jmp_sz, sizeof(*jmp_dst));
jmp_op = mextend(jmp_op, jmp_n, jmp_sz, sizeof(*jmp_op));
}
jmp_off[jmp_n] = off;
jmp_dst[jmp_n] = dst;
jmp_op[jmp_n] = op;
jmp_n++;
}
void i_label(long id)
{
lab_add(id + 1);
}
static void i_rel(long sym, long flg, long off)
{
if (rel_n == rel_sz) {
rel_sz = MAX(128, rel_sz * 2);
rel_sym = mextend(rel_sym, rel_n, rel_sz, sizeof(*rel_sym));
rel_flg = mextend(rel_flg, rel_n, rel_sz, sizeof(*rel_flg));
rel_off = mextend(rel_off, rel_n, rel_sz, sizeof(*rel_off));
}
rel_sym[rel_n] = sym;
rel_flg[rel_n] = flg;
rel_off[rel_n] = off;
rel_n++;
}
static void i_sym(int rd, int sym, int off)
{
op_x(I_MOVIR + (rd & 7), 0, rd, LONGSZ);
i_rel(sym, OUT_CS, opos());
oi(off, LONGSZ);
}
static void i_subsp(long val)
{
if (!val)
return;
if (val <= 127 && val >= -128) {
os("\x83\xec", 2);
oi(val, 1);
} else {
os("\x81\xec", 2);
oi(val, 4);
}
}
static int regs_count(long regs)
{
int cnt = 0;
int i;
for (i = 0; i < N_REGS; i++)
if (((1 << i) & R_TMPS) & regs)
cnt++;
return cnt;
}
static void regs_save(long sregs, long dis)
{
int i;
for (i = 0; i < N_REGS; i++)
if (((1 << i) & R_TMPS) & sregs)
i_push(i);
if (dis)
i_subsp(dis);
}
static void regs_load(long sregs, long dis)
{
int i;
if (dis)
i_subsp(-dis);
for (i = N_REGS - 1; i >= 0; --i)
if (((1 << i) & R_TMPS) & sregs)
i_pop(i);
}
void i_wrap(int argc, long sargs, long spsub, int initfp, long sregs, long sregs_pos)
{
long body_n;
void *body;
long diff; /* prologue length */
int i;
/* removing the last jmp to the epilogue */
if (jmp_ret + i_jlen(O_JMP, 4) + 4 == opos()) {
mem_cut(&cs, jmp_ret);
jmp_n--;
}
lab_add(0); /* the return label */
body_n = mem_len(&cs);
body = mem_get(&cs);
/* generating function prologue */
if (initfp) {
os("\x55", 1); /* push rbp */
os("\x89\xe5", 2); /* mov rbp, rsp */
}
if (spsub) {
spsub = ALIGN(spsub, 8);
i_subsp(sregs ? -sregs_pos - regs_count(sregs) * ULNG : spsub);
}
if (sregs) /* saving registers */
regs_save(sregs, spsub + sregs_pos);
diff = mem_len(&cs);
mem_put(&cs, body, body_n);
free(body);
/* generating function epilogue */
if (sregs) /* restoring saved registers */
regs_load(sregs, spsub + sregs_pos);
if (initfp)
os("\xc9", 1); /* leave */
os("\xc3", 1); /* ret */
/* adjusting code offsets */
for (i = 0; i < rel_n; i++)
rel_off[i] += diff;
for (i = 0; i < jmp_n; i++)
jmp_off[i] += diff;
for (i = 0; i < lab_sz; i++)
lab_loc[i] += diff;
}
/* introduce shorter jumps, if possible */
static void i_shortjumps(int *nb)
{
long off = 0; /* current code offset */
long dif = 0; /* the difference after changing jump instructions */
int rel = 0; /* current relocation */
int lab = 1; /* current label */
long c_len = mem_len(&cs);
char *c = mem_get(&cs);
int i;
for (i = 0; i < jmp_n; i++)
nb[i] = abs(lab_loc[jmp_dst[i]] - jmp_off[i]) < 0x70 ? 1 : 4;
for (i = 0; i < jmp_n; i++) {
long cur = jmp_off[i] - i_jlen(jmp_op[i], 4);
while (rel < rel_n && rel_off[rel] <= cur)
rel_off[rel++] += dif;
while (lab < lab_sz && lab_loc[lab] <= cur)
lab_loc[lab++] += dif;
mem_put(&cs, c + off, cur - off);
jmp_off[i] = i_jmp(jmp_op[i], nb[i]);
off = cur + i_jlen(jmp_op[i], 4) + 4;
dif = mem_len(&cs) - off;
}
while (rel < rel_n)
rel_off[rel++] += dif;
while (lab < lab_sz)
lab_loc[lab++] += dif;
lab_loc[0] += dif;
mem_put(&cs, c + off, c_len - off);
free(c);
}
void i_code(char **c, long *c_len, long **rsym, long **rflg, long **roff, long *rcnt)
{
int *nb; /* number of bytes necessary for jump displacements */
int i;
/* more compact jmp instructions */
nb = malloc(jmp_n * sizeof(nb[0]));
for (i = 0; i < jmp_n; i++)
nb[i] = 4;
i_shortjumps(nb);
for (i = 0; i < jmp_n; i++) /* filling jmp destinations */
oi_at(jmp_off[i], lab_loc[jmp_dst[i]] -
jmp_off[i] - nb[i], nb[i]);
free(nb);
*c_len = mem_len(&cs);
*c = mem_get(&cs);
*rsym = rel_sym;
*rflg = rel_flg;
*roff = rel_off;
*rcnt = rel_n;
rel_sym = NULL;
rel_flg = NULL;
rel_off = NULL;
rel_n = 0;
rel_sz = 0;
jmp_n = 0;
}
void i_done(void)
{
free(jmp_off);
free(jmp_dst);
free(jmp_op);
free(lab_loc);
}
long i_reg(long op, long *rd, long *r1, long *r2, long *r3, long *tmp)
{
long oc = O_C(op);
long bt = O_T(op);
*rd = 0;
*r1 = 0;
*r2 = 0;
*r3 = 0;
*tmp = 0;
if (oc & O_MOV) {
*rd = R_TMPS;
if (oc & (O_NUM | O_SYM))
*r1 = 32;
else
*r1 = T_SZ(bt) == 1 ? R_BYTE : R_TMPS;
return 0;
}
if (oc & O_ADD) {
*r1 = R_TMPS;
*r2 = oc & O_NUM ? (oc == O_ADD ? 32 : 8) : R_TMPS;
return 0;
}
if (oc & O_SHL) {
if (oc & O_NUM) {
*r1 = R_TMPS;
*r2 = 8;
} else {
*r2 = 1 << R_RCX;
*r1 = R_TMPS & ~*r2;
}
return 0;
}
if (oc & O_MUL) {
if (oc & O_NUM)
return 1;
*rd = oc == O_MOD ? (1 << R_RDX) : (1 << R_RAX);
*r1 = (1 << R_RAX);
*r2 = R_TMPS & ~*rd & ~*r1;
if (oc == O_DIV)
*r2 &= ~(1 << R_RDX);
*tmp = (1 << R_RDX) | (1 << R_RAX);
return 0;
}
if (oc & O_CMP) {
*rd = 1 << R_RAX;
*r1 = R_TMPS;
*r2 = oc & O_NUM ? 8 : R_TMPS;
return 0;
}
if (oc & O_UOP) {
if (oc == O_LNOT)
*r1 = 1 << R_RAX;
else
*r1 = R_TMPS;
return 0;
}
if (oc == O_MSET) {
*r1 = 1 << R_RDI;
*r2 = 1 << R_RAX;
*r3 = 1 << R_RCX;
*tmp = (1 << R_RDI) | (1 << R_RCX);
return 0;
}
if (oc == O_MCPY) {
*r1 = 1 << R_RDI;
*r2 = 1 << R_RSI;
*r3 = 1 << R_RCX;
*tmp = (1 << R_RDI) | (1 << R_RSI) | (1 << R_RCX);
return 0;
}
if (oc == O_RET) {
*r1 = (1 << REG_RET);
return 0;
}
if (oc & O_CALL) {
*rd = (1 << REG_RET);
*r1 = oc & O_SYM ? 0 : R_TMPS;
*tmp = R_TMPS & ~R_PERM;
return 0;
}
if (oc & O_LD) {
*rd = T_SZ(bt) == 1 ? R_BYTE : R_TMPS;
*r1 = R_TMPS;
*r2 = oc & O_NUM ? 32 : R_TMPS;
return 0;
}
if (oc & O_ST) {
*r1 = T_SZ(bt) == 1 ? R_BYTE : R_TMPS;
*r2 = R_TMPS;
*r3 = oc & O_NUM ? 32 : R_TMPS;
return 0;
}
if (oc & O_JZ) {
*r1 = R_TMPS;
return 0;
}
if (oc & O_JCC) {
*r1 = R_TMPS;
*r2 = oc & O_NUM ? 8 : R_TMPS;
return 0;
}
if (oc == O_JMP)
return 0;
return 1;
}
int i_imm(long lim, long n)
{
long max = (1 << (lim - 1)) - 1;
return n <= max && n + 1 >= -max;
}
long i_ins(long op, long rd, long r1, long r2, long r3)
{
long oc = O_C(op);
long bt = O_T(op);
if (oc & O_ADD) {
if (oc & O_NUM) {
if (rd == r1 && r2 <= 127 && r2 >= -128)
i_add_imm(op, r1, r1, r2);
else
i_add_anyimm(rd, r1, r2);
} else {
i_add(op, r1, r1, r2);
}
}
if (oc & O_SHL) {
if (oc & O_NUM)
i_shl_imm(op, r1, r1, r2);
else
i_shl(op, r1, r1, r2);
}
if (oc & O_MUL) {
if (oc == O_MUL)
i_mul(R_RAX, r1, r2);
if (oc == O_DIV)
i_div(op, R_RAX, r1, r2);
if (oc == O_MOD)
i_div(op, R_RDX, r1, r2);
return 0;
}
if (oc & O_CMP) {
if (oc & O_NUM)
i_cmp_imm(r1, r2);
else
i_cmp(r1, r2);
i_set(op, rd);
return 0;
}
if (oc & O_UOP) { /* uop */
if (oc == O_NEG)
i_neg(r1);
if (oc == O_NOT)
i_not(r1);
if (oc == O_LNOT)
i_lnot(r1);
return 0;
}
if (oc == O_CALL) {
op_rr(I_CALL, 2, r1, LONGSZ);
return 0;
}
if (oc == (O_CALL | O_SYM)) {
os("\xe8", 1); /* call $x */
i_rel(r1, OUT_CS | OUT_RLREL, opos());
oi(-4, 4);
return 0;
}
if (oc == (O_MOV | O_SYM)) {
i_sym(rd, r1, r2);
return 0;
}
if (oc == (O_MOV | O_NUM)) {
i_num(rd, r1);
return 0;
}
if (oc == O_MSET) {
os("\xfc\xf3\xaa", 3); /* cld; rep stosb */
return 0;
}
if (oc == O_MCPY) {
os("\xfc\xf3\xa4", 3); /* cld; rep movs */
return 0;
}
if (oc == O_RET) {
jmp_ret = opos();
jmp_add(O_JMP, i_jmp(op, 4), 0);
return 0;
}
if (oc == (O_LD | O_NUM)) {
op_rm(movrx_op(bt, I_MOVR), rd, r1, r2, movrx_bt(bt));
return 0;
}
if (oc == (O_ST | O_NUM)) {
op_rm(I_MOV, r1, r2, r3, bt);
return 0;
}
if (oc == O_MOV) {
i_cast(rd, r1, bt);
return 0;
}
if (oc & O_JXX) {
i_jcmp(op, r1, r2);
jmp_add(op, i_jmp(op, 4), r3 + 1);
return 0;
}
return 1;
}