radare2/libr/reg/profile.c

471 lines
11 KiB
C

/* radare - LGPL - Copyright 2009-2022 - pancake */
#include <r_reg.h>
#include <r_util.h>
#include <r_lib.h>
static const char *parse_alias(RReg *reg, char **tok, const int n) {
if (n == 2) {
int role = r_reg_get_name_idx (tok[0] + 1);
return r_reg_set_name (reg, role, tok[1]) ? NULL : "Invalid alias";
}
return "Invalid syntax";
}
// Sizes prepended with a dot are expressed in bits
// strtoul with base 0 allows the input to be in decimal/octal/hex format
static ut64 parse_size(char *s, char **end) {
if (*s == '.') {
return strtoul (s + 1, end, 10);
}
char *has_dot = strchr (s, '.');
if (has_dot) {
*has_dot++ = 0;
ut64 a = strtoul (s, end, 0) << 3;
ut64 b = strtoul (has_dot, end, 0);
return a + b;
}
return strtoul (s, end, 0) << 3;
}
//TODO: implement bool r_reg_set_def_string()
static const char *parse_def(RReg *reg, char **tok, const int n) {
char *end = "";
int type, type2;
if (n != 5 && n != 6) {
return "Invalid syntax: Wrong number of columns";
}
char *p = strchr (tok[0], '@');
if (p) {
char *tok0 = strdup (tok[0]);
char *at = tok0 + (p - tok[0]);
*at++ = 0;
type = r_reg_type_by_name (tok0);
type2 = r_reg_type_by_name (at);
free (tok0);
} else {
type2 = type = r_reg_type_by_name (tok[0]);
/* Hack to put flags in the same arena as gpr */
if (type == R_REG_TYPE_FLG) {
type2 = R_REG_TYPE_GPR;
}
}
if (type < 0 || type2 < 0) {
return "Invalid register type";
}
RRegItem *ri = r_reg_get (reg, tok[1], R_REG_TYPE_ALL);
if (ri) {
R_LOG_WARN ("Duplicated register definition for '%s' has been ignored", tok[1]);
return NULL;
}
r_unref (ri);
RRegItem *item = R_NEW0 (RRegItem);
if (!item) {
return "Unable to allocate memory";
}
item->type = type;
item->name = strdup (tok[1]);
// All the numeric arguments are strictly checked
item->size = parse_size (tok[2], &end);
if (*end || !item->size) {
r_reg_item_free (item);
r_unref (ri);
return "Invalid size";
}
if (!strcmp (tok[3], "?")) {
item->offset = -1;
} else if (!strcmp (tok[3], "$")) {
RRegItem *ri;
RListIter *iter;
int last = 0;
r_list_foreach (reg->regset[type].regs, iter, ri) {
if (ri->size >= 8 && ri->offset >= 0) {
int pos = ri->offset + ri->size;
if (pos > last) {
last = pos;
}
}
}
item->offset = last;
} else {
item->offset = parse_size (tok[3], &end);
}
if (*end) {
r_reg_item_free (item);
return "Invalid offset";
}
item->packed_size = parse_size (tok[4], &end);
if (*end) {
r_reg_item_free (item);
return "Invalid packed size";
}
// Update the list of supported bit sizes
if (!r_reg_hasbits_use (reg, item->size)) {
R_LOG_DEBUG ("r_reg_hasbits_use failed with %d", item->size);
}
// This is optional
if (n == 6) {
if (*tok[5] == '#') {
// Remove # from the comment
item->comment = strdup (tok[5] + 1);
} else {
item->flags = strdup (tok[5]);
}
}
item->arena = type2;
if (!reg->regset[type2].regs) {
reg->regset[type2].regs = r_list_newf ((RListFree)r_reg_item_free);
}
r_ref (item);
r_list_append (reg->regset[type2].regs, item);
if (!reg->regset[type2].ht_regs) {
reg->regset[type2].ht_regs = ht_pp_new0 ();
}
// r_ref (item);
ht_pp_insert (reg->regset[type2].ht_regs, item->name, item);
// Update the overall profile size
if (item->offset + item->size > reg->size) {
reg->size = item->offset + item->size;
}
// Update the overall type of registers into a regset
reg->regset[type2].maskregstype |= (1ULL << type);
return NULL;
}
#define PARSER_MAX_TOKENS 8
R_API bool r_reg_set_profile_string(RReg *reg, const char *str) {
char *tok[PARSER_MAX_TOKENS];
char tmp[128];
int i, j, l;
const char *p = str;
r_return_val_if_fail (reg && str, false);
if (R_STR_ISEMPTY (str)) {
return true;
}
// Same profile, no need to change
if (reg->reg_profile_str && !strcmp (reg->reg_profile_str, str)) {
// r_reg_free_internal (reg, false);
// r_reg_init (reg);
return true;
}
// we should reset all the arenas before setting the new reg profile
r_reg_arena_pop (reg);
// Purge the old registers
r_reg_free_internal (reg, true);
r_reg_arena_shrink (reg);
// Cache the profile string
reg->reg_profile_str = strdup (str);
// Line number
l = 0;
bool have_a0 = false;
// For every line
do {
// Increment line number
l++;
// Skip comment lines
if (*p == '#') {
const char *q = p;
while (*q != '\n') {
q++;
}
reg->reg_profile_cmt = r_str_appendlen (
reg->reg_profile_cmt, p, (int)(q - p) + 1);
p = q;
continue;
}
j = 0;
// For every word
while (*p) {
// Skip the whitespace
while (*p == ' ' || *p == '\t') {
p++;
}
// EOL ?
if (*p == '\n') {
break;
}
if (*p == '#') {
// Place the rest of the line in the token if a comment is encountered
for (i = 0; *p != '\n'; p++) {
if (i < sizeof (tmp) - 1) {
tmp[i++] = *p;
}
}
} else {
// Save all characters up to a space/tab
// Use isgraph instead of isprint because the latter considers ' ' printable
for (i = 0; isgraph ((const unsigned char)*p) && i < sizeof (tmp) - 1;) {
tmp[i++] = *p++;
}
}
tmp[i] = '\0';
// Limit the number of tokens
if (j > PARSER_MAX_TOKENS - 1) {
break;
}
// Save the token
tok[j++] = strdup (tmp);
}
// Empty line, eww
if (j) {
// Do the actual parsing
char *first = tok[0];
// Check whether it's defining an alias or a register
if (!strncmp (first, "=RS", 3)) {
reg->bits_default = atoi (tok[1]);
// Clean up
for (i = 0; i < j; i++) {
free (tok[i]);
}
} else {
const char *r = (*first == '=')
? parse_alias (reg, tok, j)
: parse_def (reg, tok, j);
if (!strncmp (first, "=A0", 3)) {
have_a0 = true;
}
// Clean up
for (i = 0; i < j; i++) {
free (tok[i]);
}
// Warn the user if something went wrong
if (r) {
R_LOG_ERROR ("Parse error @ line %d (%s)", l, r);
// Clean up
r_reg_free_internal (reg, false);
r_reg_init (reg);
return false;
}
}
}
} while (*p++);
if (!have_a0) {
R_LOG_ERROR ("=A0 not defined");
//r_reg_free_internal (reg, false);
///return false;
}
reg->size = 0;
for (i = 0; i < R_REG_TYPE_LAST; i++) {
RRegSet *rs = &reg->regset[i];
if (rs && rs->arena) {
reg->size += rs->arena->size;
}
}
// Align to byte boundary if needed
//if (reg->size & 7) {
// reg->size += 8 - (reg->size & 7);
//}
//reg->size >>= 3; // bits to bytes (divide by 8)
r_reg_fit_arena (reg);
// dup the last arena to allow regdiffing
r_reg_arena_push (reg);
r_reg_reindex (reg);
// reset arenas
return true;
}
// read profile from file
R_API bool r_reg_set_profile(RReg *reg, const char *profile) {
r_return_val_if_fail (reg && profile, false);
char *str = r_file_slurp (profile, NULL);
if (!str) {
char *base = r_sys_getenv (R_LIB_ENV);
if (base) {
char *file = r_str_append (base, profile);
str = r_file_slurp (file, NULL);
free (file);
}
}
if (!str) {
R_LOG_WARN ("Cannot find '%s'", profile);
return false;
}
bool ret = r_reg_set_profile_string (reg, str);
free (str);
return ret;
}
static char *gdb_to_r2_profile(const char *gdb) {
r_return_val_if_fail (gdb, NULL);
RStrBuf *sb = r_strbuf_new ("");
if (!sb) {
return NULL;
}
char *ptr1, *gptr, *gptr1;
char name[16], groups[128], type[16];
const int all = 1, gpr = 2, save = 4, restore = 8, float_ = 16,
sse = 32, vector = 64, system = 128, mmx = 256;
int number, rel, offset, size, type_bits, ret;
// Every line is -
// Name Number Rel Offset Size Type Groups
const char *ptr = r_str_trim_head_ro (gdb);
// It's possible someone includes the heading line too. Skip it
if (r_str_startswith (ptr, "Name")) {
if (!(ptr = strchr (ptr, '\n'))) {
return NULL;
}
ptr++;
}
for (;;) {
// Skip whitespace at beginning of line and empty lines
while (isspace ((ut8)*ptr)) {
ptr++;
}
if (!*ptr) {
break;
}
if ((ptr1 = strchr (ptr, '\n'))) {
*ptr1 = '\0';
} else {
R_LOG_WARN ("Could not parse line: %s (missing newline)", ptr);
r_strbuf_free (sb);
return false;
}
ret = sscanf (ptr, " %s %d %d %d %d %s %s", name, &number, &rel,
&offset, &size, type, groups);
// Groups is optional, others not
if (ret < 6) {
if (*ptr != '*') {
R_LOG_WARN ("Could not parse line: %s", ptr);
r_strbuf_free (sb);
return false;
}
ptr = ptr1 + 1;
continue;
}
// If name is '', then skip
if (r_str_startswith (name, "''")) {
if (!ptr1) {
break;
}
ptr = ptr1 + 1;
continue;
}
// If size is 0, skip
if (size == 0) {
if (!ptr1) {
break;
}
ptr = ptr1 + 1;
continue;
}
// Parse group
gptr = groups;
type_bits = 0;
while (1) {
if ((gptr1 = strchr (gptr, ','))) {
*gptr1 = '\0';
}
if (r_str_startswith (gptr, "general")) {
type_bits |= gpr;
} else if (r_str_startswith (gptr, "all")) {
type_bits |= all;
} else if (r_str_startswith (gptr, "save")) {
type_bits |= save;
} else if (r_str_startswith (gptr, "restore")) {
type_bits |= restore;
} else if (r_str_startswith (gptr, "float")) {
type_bits |= float_;
} else if (r_str_startswith (gptr, "sse")) {
type_bits |= sse;
} else if (r_str_startswith (gptr, "mmx")) {
type_bits |= mmx;
} else if (r_str_startswith (gptr, "vector")) {
type_bits |= vector;
} else if (r_str_startswith (gptr, "system")) {
type_bits |= system;
}
if (!gptr1) {
break;
}
gptr = gptr1 + 1;
}
// If type is not defined, skip
if (!*type) {
if (!ptr1) {
break;
}
ptr = ptr1 + 1;
continue;
}
// TODO: More mappings between gdb and r2 reg groups. For now, either fpu or gpr
if (!(type_bits & sse) && !(type_bits & float_)) {
type_bits |= gpr;
}
// Print line
r_strbuf_appendf (sb, "%s\t%s\t.%d\t%d\t0\n",
// Ref: Comment above about more register type mappings
((type_bits & mmx) || (type_bits & float_) || (type_bits & sse)) ? "fpu" : "gpr",
name, size * 8, offset);
// Go to next line
if (!ptr1) {
break;
}
ptr = ptr1 + 1;
continue;
}
return r_strbuf_drain (sb);
}
R_API char *r_reg_parse_gdb_profile(const char *profile_file) {
char *str = NULL;
if (!(str = r_file_slurp (profile_file, NULL))) {
char *base = r_sys_getenv (R_LIB_ENV);
if (base) {
char *file = r_str_appendf (base, R_SYS_DIR "%s", profile_file);
if (file) {
str = r_file_slurp (file, NULL);
free (file);
}
}
}
if (str) {
char *ret = gdb_to_r2_profile (str);
free (str);
return ret;
}
R_LOG_WARN ("r_reg_parse_gdb_profile: Cannot find '%s'", profile_file);
return NULL;
}
R_API char *r_reg_profile_to_cc(RReg *reg) {
const char *r0 = r_reg_get_name_by_type (reg, "R0");
const char *a0 = r_reg_get_name_by_type (reg, "A0");
const char *a1 = r_reg_get_name_by_type (reg, "A1");
const char *a2 = r_reg_get_name_by_type (reg, "A2");
const char *a3 = r_reg_get_name_by_type (reg, "A3");
if (!r0) {
r0 = a0;
}
if (!r0) {
// it is mandatory to have at least =A0 defined in the reg profile
// this will be enforced in reg/profile at parsing time
return NULL;
}
if (a3 && a2 && a1) {
return r_str_newf ("%s reg(%s, %s, %s, %s)", r0, a0, a1, a2, a3);
}
if (a2 && a1) {
return r_str_newf ("%s reg(%s, %s, %s)", r0, a0, a1, a2);
}
if (a1) {
return r_str_newf ("%s reg(%s, %s)", r0, a0, a1);
}
return r_str_newf ("%s reg(%s)", r0, a0);
}