radare2/libr/debug/dreg.c
2018-12-31 05:36:14 +01:00

367 lines
9.5 KiB
C

/* radare - LGPL - Copyright 2009-2018 - pancake */
#include <r_core.h> // just to get the RPrint instance
#include <r_debug.h>
#include <r_cons.h>
#include <r_reg.h>
R_API int r_debug_reg_sync(RDebug *dbg, int type, int write) {
int i, n, size;
if (!dbg || !dbg->reg || !dbg->h) {
return false;
}
// Theres no point in syncing a dead target
if (r_debug_is_dead (dbg)) {
return false;
}
// Check if the functions needed are available
if (write && !dbg->h->reg_write) {
return false;
}
if (!write && !dbg->h->reg_read) {
return false;
}
// Sync all the types sequentially if asked
i = (type == R_REG_TYPE_ALL)? R_REG_TYPE_GPR: type;
// Check to get the correct arena when using @ into reg profile (arena!=type)
// if request type is positive and the request regset dont have regs
if (i >= R_REG_TYPE_GPR && dbg->reg->regset[i].regs && !dbg->reg->regset[i].regs->length) {
// seek into the other arena for redirections.
for (n = R_REG_TYPE_GPR; n < R_REG_TYPE_LAST; n++) {
// get regset mask
int mask = dbg->reg->regset[n].maskregstype;
// convert request arena to mask value
int v = ((int)1 << i);
// skip checks on same request arena and check if this arena have inside the request arena type
if (n != i && (mask & v)) {
//eprintf(" req = %i arena = %i mask = %x search = %x \n", i, n, mask, v);
//eprintf(" request arena %i found at arena %i\n", i, n );
// if this arena have the request arena type, force to use this arena.
i = n;
break;
}
}
}
do {
if (write) {
ut8 *buf = r_reg_get_bytes (dbg->reg, i, &size);
if (!buf || !dbg->h->reg_write (dbg, i, buf, size)) {
if (!i) {
eprintf ("r_debug_reg: error writing "
"registers %d to %d\n", i, dbg->tid);
}
free (buf);
return false;
}
free (buf);
} else {
// int bufsize = R_MAX (1024, dbg->reg->size*2); // i know. its hacky
int bufsize = dbg->reg->size;
//int bufsize = dbg->reg->regset[i].arena->size;
if (bufsize > 0) {
ut8 *buf = calloc (1 + 1, bufsize);
if (!buf) {
return false;
}
//we have already checked dbg->h and dbg->h->reg_read above
size = dbg->h->reg_read (dbg, i, buf, bufsize);
// we need to check against zero because reg_read can return false
if (size > 0) {
r_reg_set_bytes (dbg->reg, i, buf, size); //R_MIN (size, bufsize));
// free (buf);
// return true;
}
free (buf);
}
}
// DO NOT BREAK R_REG_TYPE_ALL PLEASE
// break;
// Continue the syncronization or just stop if it was asked only for a single type of regs
i++;
} while ((type == R_REG_TYPE_ALL) && (i < R_REG_TYPE_LAST));
return true;
}
R_API int r_debug_reg_list(RDebug *dbg, int type, int size, int rad, const char *use_color) {
int i, delta, from, to, cols, n = 0;
const char *fmt, *fmt2, *kwhites;
RPrint *pr = NULL;
int colwidth = 20;
RListIter *iter;
RRegItem *item;
RList *head;
ut64 diff;
char strvalue[256];
if (!dbg || !dbg->reg) {
return false;
}
if (dbg->corebind.core) {
pr = ((RCore*)dbg->corebind.core)->print;
}
if (size != 0 && !(dbg->reg->bits & size)) {
// TODO: verify if 32bit exists, otherwise use 64 or 8?
size = 32;
}
if (dbg->bits & R_SYS_BITS_64) {
//fmt = "%s = 0x%08"PFMT64x"%s";
fmt = "%s = %s%s";
fmt2 = "%s%4s%s %s%s";
kwhites = " ";
colwidth = dbg->regcols? 20: 25;
cols = 3;
} else {
//fmt = "%s = 0x%08"PFMT64x"%s";
fmt = "%s = %s%s";
fmt2 = "%s%4s%s %s%s";
kwhites = " ";
colwidth = 20;
cols = 4;
}
if (dbg->regcols) {
cols = dbg->regcols;
}
if (rad == 'j') {
dbg->cb_printf ("{");
}
// with the new field "arena" into reg items why need
// to get all arenas.
from = 0;
to = R_REG_TYPE_LAST;
int itmidx = -1;
dbg->creg = NULL;
for (i = from; i < to; i++) {
head = r_reg_get_list (dbg->reg, i);
if (!head) {
continue;
}
r_list_foreach (head, iter, item) {
ut64 value;
utX valueBig;
if (type != -1) {
if (type != item->type && R_REG_TYPE_FLG != item->type) {
continue;
}
if (size != 0 && size != item->size) {
continue;
}
}
// Is this register being asked?
if (dbg->q_regs) {
if (!r_list_empty (dbg->q_regs)) {
RListIter *iterreg;
RList *q_reg = dbg->q_regs;
char *q_name;
bool found = false;
r_list_foreach (q_reg, iterreg, q_name) {
if (!strcmp (item->name, q_name)) {
found = true;
break;
}
}
if (!found) {
continue;
}
r_list_delete (q_reg, iterreg);
} else {
// List is empty, all requested regs were taken, no need to go further
goto beach;
}
}
int regSize = item->size;
if (regSize < 80) {
value = r_reg_get_value (dbg->reg, item);
r_reg_arena_swap (dbg->reg, false);
diff = r_reg_get_value (dbg->reg, item);
r_reg_arena_swap (dbg->reg, false);
delta = value-diff;
if (tolower ((ut8)rad) == 'j') {
snprintf (strvalue, sizeof (strvalue),"%"PFMT64u, value);
} else {
if (pr && pr->wide_offsets && dbg->bits & R_SYS_BITS_64) {
snprintf (strvalue, sizeof (strvalue),"0x%016"PFMT64x, value);
} else {
snprintf (strvalue, sizeof (strvalue),"0x%08"PFMT64x, value);
}
}
} else {
value = r_reg_get_value_big (dbg->reg, item, &valueBig);
switch (regSize) {
case 80:
snprintf (strvalue, sizeof (strvalue), "0x%04x%016"PFMT64x"", valueBig.v80.High, valueBig.v80.Low);
break;
case 96:
snprintf (strvalue, sizeof (strvalue), "0x%08x%016"PFMT64x"", valueBig.v96.High, valueBig.v96.Low);
break;
case 128:
snprintf (strvalue, sizeof (strvalue), "0x%016"PFMT64x"%016"PFMT64x"", valueBig.v128.High, valueBig.v128.Low);
break;
default:
snprintf (strvalue, sizeof (strvalue), "ERROR");
}
delta = 0; // TODO: calculate delta with big values.
}
itmidx++;
switch (rad) {
case 'J':
case 'j':
dbg->cb_printf ("%s\"%s\":%s",
n?",":"", item->name, strvalue);
break;
case '-':
dbg->cb_printf ("f-%s\n", item->name);
break;
case 'R':
dbg->cb_printf ("aer %s = %s\n", item->name, strvalue);
break;
case 1:
case '*':
dbg->cb_printf ("f %s 1 %s\n", item->name, strvalue);
break;
case 'd':
case 2:
{
int len, highlight = use_color && pr && pr->cur_enabled && itmidx == pr->cur;
char *str, whites[32], content[300];
const char *a = "", *b = "";
if (highlight) {
a = Color_INVERT;
b = Color_INVERT_RESET;
dbg->creg = item->name;
}
strcpy (whites, kwhites);
if (delta && use_color) {
dbg->cb_printf ("%s", use_color);
}
if (item->flags) {
str = r_reg_get_bvalue (dbg->reg, item);
len = 12 - strlen (str);
memset (whites, ' ', sizeof (whites));
whites[len] = 0;
dbg->cb_printf (" %s%s%s %s%s", a, item->name, b,
str, ((n+1)%cols)? whites: "\n");
free (str);
} else {
snprintf (content, sizeof (content),
fmt2, "", item->name, "", strvalue, "");
len = colwidth - strlen (content);
if (len < 0) {
len = 0;
}
memset (whites, ' ', sizeof (whites));
whites[len] = 0;
dbg->cb_printf (fmt2, a, item->name, b, strvalue,
((n+1)%cols)? whites: "\n");
}
if (highlight) {
dbg->cb_printf (Color_INVERT_RESET);
}
if (delta && use_color) {
dbg->cb_printf (Color_RESET);
}
}
break;
case 3:
if (delta) {
char woot[512];
snprintf (woot, sizeof (woot),
" was 0x%"PFMT64x" delta %d\n", diff, delta);
dbg->cb_printf (fmt, item->name, strvalue, woot);
}
break;
default:
if (delta && use_color) {
dbg->cb_printf (use_color);
dbg->cb_printf (fmt, item->name, strvalue, Color_RESET"\n");
} else {
dbg->cb_printf (fmt, item->name, strvalue, "\n");
}
break;
}
n++;
}
}
beach:
if (rad == 'j') {
dbg->cb_printf ("}\n");
} else if (rad == 'J') {
// do nothing
} else if (n > 0 && rad == 2 && ((n%cols))) {
dbg->cb_printf ("\n");
}
return n;
}
R_API int r_debug_reg_set(struct r_debug_t *dbg, const char *name, ut64 num) {
RRegItem *ri;
int role = r_reg_get_name_idx (name);
if (!dbg || !dbg->reg) {
return false;
}
if (role != -1) {
name = r_reg_get_name (dbg->reg, role);
}
ri = r_reg_get (dbg->reg, name, R_REG_TYPE_ALL);
if (ri) {
r_reg_set_value (dbg->reg, ri, num);
r_debug_reg_sync (dbg, R_REG_TYPE_ALL, true);
}
return (ri != NULL);
}
R_API ut64 r_debug_reg_get(RDebug *dbg, const char *name) {
// ignores errors
return r_debug_reg_get_err (dbg, name, NULL, NULL);
}
R_API ut64 r_debug_reg_get_err(RDebug *dbg, const char *name, int *err, utX *value) {
RRegItem *ri = NULL;
ut64 ret = 0LL;
int role = r_reg_get_name_idx (name);
const char *pname = name;
if (err) {
*err = 0;
}
if (!dbg || !dbg->reg) {
if (err) {
*err = 1;
}
return UT64_MAX;
}
if (role != -1) {
name = r_reg_get_name (dbg->reg, role);
if (!name || *name == '\0') {
eprintf ("No debug register profile defined for '%s'.\n", pname);
if (err) {
*err = 1;
}
return UT64_MAX;
}
}
ri = r_reg_get (dbg->reg, name, R_REG_TYPE_ALL);
if (ri) {
r_debug_reg_sync (dbg, R_REG_TYPE_ALL, false);
if (value && ri->size > 64) {
if (err) {
*err = ri->size;
}
ret = r_reg_get_value_big (dbg->reg, ri, value);
} else {
ret = r_reg_get_value (dbg->reg, ri);
}
} else {
if (err) {
*err = 1;
}
}
return ret;
}
// XXX: dup for get_Err!
R_API ut64 r_debug_num_callback(RNum *userptr, const char *str, int *ok) {
RDebug *dbg = (RDebug *)userptr;
// resolve using regnu
return r_debug_reg_get_err (dbg, str, ok, NULL);
}