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#pragma once
#include "substitute-internal.h"
#include <stdbool.h>
#include <stdint.h>
#include <stdlib.h>
#define INLINE __attribute__((always_inline))
#define NOINLINE __attribute__((noinline))
struct bitslice_run {
int inpos, outpos, len;
};
struct bitslice {
int nruns;
const struct bitslice_run *runs;
};
static inline int sext(unsigned val, int bits) {
return val & (1 << (bits - 1)) ? ((int)val - (1 << bits)) : (int)val;
}
static inline unsigned bs_get(struct bitslice bs, unsigned op) {
unsigned ret = 0;
for(int i = 0; i < bs.nruns; i++) {
const struct bitslice_run *run = &bs.runs[i];
unsigned val = (op >> run->inpos) & ((1 << run->len) - 1);
ret |= val << run->outpos;
}
return ret;
}
static inline unsigned bs_set(struct bitslice bs, unsigned new, unsigned op) {
for(int i = 0; i < bs.nruns; i++) {
const struct bitslice_run *run = &bs.runs[i];
unsigned mask = (1 << run->len) - 1;
unsigned val = (new >> run->outpos) & mask;
op = (op & ~(mask << run->inpos)) | (val << run->inpos);
}
return op;
}
static inline struct bitslice bs_slice_(struct bitslice bs, struct bitslice_run *runs, int lo, int size) {
int nruns = 0;
for(int i = 0; i < bs.nruns; i++) {
struct bitslice_run inr = bs.runs[i];
inr.outpos -= lo;
if(inr.outpos < 0) {
inr.len += inr.outpos;
inr.inpos -= inr.outpos;
inr.outpos = 0;
}
if(inr.outpos + inr.len > size)
inr.len = size - inr.outpos;
if(inr.len > 0)
runs[nruns++] = (struct bitslice_run) {inr.inpos, inr.outpos, inr.len};
}
return (struct bitslice) {nruns, runs};
}
#define bs_slice(bs, lo, size) \
bs_slice_(bs, alloca((bs).nruns * sizeof(struct bitslice_run)), lo, size)
enum pcrel_load_mode {
PLM_ADR, /* just want the address */
PLM_U8, PLM_S8,
PLM_U16, PLM_S16,
PLM_U32, PLM_S32,
PLM_U64,
PLM_U128, /* i.e. LDRD */
PLM_U32_SIMD,
PLM_U64_SIMD,
PLM_U128_SIMD,
};
static const struct bitslice null_bs = { 0, NULL };
static const unsigned null_op = -0x100;
#define r(nn) nn, false, true
#define rs(nn, l, s) bs_slice(nn, l, s), false, true
#define rout(nn) nn, true, true
#define rsout(nn, l, s) bs_slice(nn, l, s), true, true
#define rnull null_bs, false, false
#define data(...) data_(__VA_ARGS__, rnull, rnull, rnull, rnull)
#define data_(...) data__(__VA_ARGS__)
#define data__(b1, o1, v1, b2, o2, v2, b3, o3, v3, b4, o4, v4, ...) do { \
P(data)(ctx, \
v1 ? bs_get(b1, ctx->op) : null_op, \
v2 ? bs_get(b2, ctx->op) : null_op, \
v3 ? bs_get(b3, ctx->op) : null_op, \
v4 ? bs_get(b4, ctx->op) : null_op, \
(o1 << 0) | \
(o2 << 1) | \
(o3 << 2) | \
(o4 << 3)); \
if (TDIS_CTX_MODIFY(ctx)) { \
unsigned new = ctx->op; \
new = bs_set(b1, TDIS_CTX_NEWVAL(ctx, 0), new); \
new = bs_set(b2, TDIS_CTX_NEWVAL(ctx, 1), new); \
new = bs_set(b3, TDIS_CTX_NEWVAL(ctx, 2), new); \
new = bs_set(b4, TDIS_CTX_NEWVAL(ctx, 3), new); \
TDIS_CTX_SET_NEWOP(ctx, new); \
} \
return; \
} while (0)
#if defined(TARGET_x86_64)
#define MIN_INSN_SIZE 1
#error "no x86 dis yet"
struct arch_dis_ctx {};
#elif defined(TARGET_i386)
#define MIN_INSN_SIZE 1
#error "no x86 dis yet"
struct arch_dis_ctx {};
#elif defined(TARGET_arm)
#define MIN_INSN_SIZE 2
#define TARGET_DIS_HEADER "dis-arm-multi.inc.h"
struct arch_dis_ctx { unsigned thumb_it_length; };
#elif defined(TARGET_arm64)
#define MIN_INSN_SIZE 4
#define TARGET_DIS_HEADER "dis-arm64.inc.h"
struct arch_dis_ctx {};
#endif
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