radare2/libr/bp/bp.c
2017-12-10 11:28:33 +01:00

365 lines
8.6 KiB
C

/* radare2 - LGPL - Copyright 2009-2017 - pancake */
#include <r_bp.h>
#include <config.h>
R_LIB_VERSION (r_bp);
static struct r_bp_plugin_t *bp_static_plugins[] =
{ R_BP_STATIC_PLUGINS };
static void r_bp_item_free (RBreakpointItem *b) {
free (b->name);
free (b->bbytes);
free (b->obytes);
free (b->module_name);
free (b->data);
free (b->cond);
free (b);
}
R_API RBreakpoint *r_bp_new() {
int i;
RBreakpointPlugin *static_plugin;
RBreakpoint *bp = R_NEW0 (RBreakpoint);
if (!bp) {
return NULL;
}
bp->bps_idx_count = 16;
bp->bps_idx = R_NEWS0 (RBreakpointItem*, bp->bps_idx_count);
bp->stepcont = R_BP_CONT_NORMAL;
bp->traces = r_bp_traptrace_new ();
bp->cb_printf = (PrintfCallback)printf;
bp->bps = r_list_newf ((RListFree)r_bp_item_free);
bp->plugins = r_list_newf ((RListFree)free);
bp->nhwbps = 0;
for (i = 0; bp_static_plugins[i]; i++) {
static_plugin = R_NEW (RBreakpointPlugin);
memcpy (static_plugin, bp_static_plugins[i],
sizeof (RBreakpointPlugin));
r_bp_plugin_add (bp, static_plugin);
}
memset (&bp->iob, 0, sizeof (bp->iob));
return bp;
}
R_API RBreakpoint *r_bp_free(RBreakpoint *bp) {
r_list_free (bp->bps);
r_list_free (bp->plugins);
r_list_free (bp->traces);
free (bp->bps_idx);
free (bp);
return NULL;
}
R_API int r_bp_get_bytes(RBreakpoint *bp, ut8 *buf, int len, int endian, int idx) {
int i;
struct r_bp_arch_t *b;
if (bp->cur) {
// find matching size breakpoint
repeat:
for (i = 0; i < bp->cur->nbps; i++) {
b = &bp->cur->bps[i];
if (bp->cur->bps[i].bits) {
if (bp->bits != bp->cur->bps[i].bits) {
continue;
}
}
if (bp->cur->bps[i].length == len && bp->cur->bps[i].endian == endian) {
memcpy (buf, b->bytes, b->length);
return b->length;
}
}
if (len != 4) {
len = 4;
goto repeat;
}
/* if not found try to pad with the first one */
b = &bp->cur->bps[0];
if (len % b->length) {
eprintf ("No matching bpsize\n");
return 0;
}
for (i = 0; i < len; i++) {
memcpy (buf + i, b->bytes, b->length);
}
return b->length;
}
return 0;
}
R_API RBreakpointItem *r_bp_get_at(RBreakpoint *bp, ut64 addr) {
RListIter *iter;
RBreakpointItem *b;
r_list_foreach(bp->bps, iter, b) {
if (b->addr == addr)
return b;
}
return NULL;
}
static inline bool inRange(RBreakpointItem *b, ut64 addr) {
return (addr >= b->addr && addr < (b->addr + b->size));
}
static inline bool matchProt(RBreakpointItem *b, int rwx) {
return (!rwx || (rwx && b->rwx));
}
R_API RBreakpointItem *r_bp_get_in(RBreakpoint *bp, ut64 addr, int rwx) {
RBreakpointItem *b;
RListIter *iter;
r_list_foreach (bp->bps, iter, b) {
// eprintf ("---ataddr--- 0x%08"PFMT64x" %d %d %x\n", b->addr, b->size, b->recoil, b->rwx);
// Check addr within range and provided rwx matches (or null)
if (inRange (b, addr) && matchProt (b, rwx)) {
return b;
}
}
return NULL;
}
R_API RBreakpointItem *r_bp_enable(RBreakpoint *bp, ut64 addr, int set) {
RBreakpointItem *b = r_bp_get_in (bp, addr, 0);
if (b) {
b->enabled = set;
return b;
}
return NULL;
}
R_API int r_bp_enable_all(RBreakpoint *bp, int set) {
RListIter *iter;
RBreakpointItem *b;
r_list_foreach (bp->bps, iter, b) {
b->enabled = set;
}
return true;
}
R_API int r_bp_stepy_continuation(RBreakpoint *bp) {
// TODO: implement
return bp->stepcont;
}
/* TODO: detect overlapping of breakpoints */
static RBreakpointItem *r_bp_add(RBreakpoint *bp, const ut8 *obytes, ut64 addr, int size, int hw, int rwx) {
int ret;
RBreakpointItem *b;
if (addr == UT64_MAX || size < 1) {
return NULL;
}
if (r_bp_get_in (bp, addr, rwx)) {
eprintf ("Breakpoint already set at this address.\n");
return NULL;
}
b = r_bp_item_new (bp);
b->addr = addr + bp->delta;
b->size = size;
b->enabled = true;
b->rwx = rwx;
b->hw = hw;
// NOTE: for hw breakpoints there are no bytes to save/restore
if (!hw) {
b->bbytes = calloc (size + 16, 1);
if (obytes) {
b->obytes = malloc (size);
memcpy (b->obytes, obytes, size);
} else {
b->obytes = NULL;
}
/* XXX: endian .. use bp->endian */
ret = r_bp_get_bytes (bp, b->bbytes, size, bp->endian, 0);
if (ret != size) {
eprintf ("Cannot get breakpoint bytes. No architecture selected?\n");
r_bp_item_free (b);
return NULL;
}
b->recoil = ret;
}
bp->nbps++;
r_list_append (bp->bps, b);
return b;
}
R_API int r_bp_add_fault(RBreakpoint *bp, ut64 addr, int size, int rwx) {
// TODO
return false;
}
R_API RBreakpointItem* r_bp_add_sw(RBreakpoint *bp, ut64 addr, int size, int rwx) {
RBreakpointItem *item;
ut8 *bytes;
if (size < 1) {
size = 1;
}
if (!(bytes = calloc (1, size))) {
return NULL;
}
memset (bytes, 0, size);
if (bp->iob.read_at) {
bp->iob.read_at (bp->iob.io, addr, bytes, size);
}
item = r_bp_add (bp, bytes, addr, size, R_BP_TYPE_SW, rwx);
free (bytes);
return item;
}
R_API RBreakpointItem* r_bp_add_hw(RBreakpoint *bp, ut64 addr, int size, int rwx) {
return r_bp_add (bp, NULL, addr, size, R_BP_TYPE_HW, rwx);
}
R_API int r_bp_del_all(RBreakpoint *bp) {
if (!r_list_empty (bp->bps)) {
r_list_purge (bp->bps);
return true;
}
return false;
}
R_API int r_bp_del(RBreakpoint *bp, ut64 addr) {
RListIter *iter;
RBreakpointItem *b;
/* No _safe loop necessary because we return immediately after the delete. */
r_list_foreach (bp->bps, iter, b) {
if (b->addr == addr) {
r_list_delete (bp->bps, iter);
return true;
}
}
return false;
}
R_API int r_bp_set_trace(RBreakpoint *bp, ut64 addr, int set) {
RBreakpointItem *b = r_bp_get_in (bp, addr, 0);
if (b) {
b->trace = set;
return true;
}
return false;
}
R_API int r_bp_set_trace_all(RBreakpoint *bp, int set) {
RListIter *iter;
RBreakpointItem *b;
r_list_foreach (bp->bps, iter, b) {
b->trace = set;
}
return true;
}
// TODO: deprecate
R_API int r_bp_list(RBreakpoint *bp, int rad) {
int n = 0;
RBreakpointItem *b;
RListIter *iter;
if (rad == 'j') bp->cb_printf ("[");
//eprintf ("Breakpoint list:\n");
r_list_foreach (bp->bps, iter, b) {
switch (rad) {
case 0:
bp->cb_printf ("0x%08"PFMT64x" - 0x%08"PFMT64x \
" %d %c%c%c %s %s %s cmd=\"%s\" cond=\"%s\" " \
"name=\"%s\" module=\"%s\"\n",
b->addr, b->addr + b->size, b->size,
(b->rwx & R_BP_PROT_READ) ? 'r' : '-',
(b->rwx & R_BP_PROT_WRITE) ? 'w' : '-',
(b->rwx & R_BP_PROT_EXEC) ? 'x' : '-',
b->hw ? "hw": "sw",
b->trace ? "trace" : "break",
b->enabled ? "enabled" : "disabled",
r_str_get2 (b->data),
r_str_get2 (b->cond),
r_str_get2 (b->name),
r_str_get2 (b->module_name));
break;
case 1:
case 'r':
case '*':
// TODO: add command, tracing, enable, ..
if (b->module_name) {
bp->cb_printf ("dbm %s %"PFMT64d"\n", b->module_name, b->module_delta);
} else {
bp->cb_printf ("db 0x%08"PFMT64x"\n", b->addr);
}
//b->trace? "trace": "break",
//b->enabled? "enabled": "disabled",
// b->data? b->data: "");
break;
case 'j':
bp->cb_printf ("%s{\"addr\":%"PFMT64d",\"size\":%d,"
"\"prot\":\"%c%c%c\",\"hw\":%s,"
"\"trace\":%s,\"enabled\":%s,"
"\"data\":\"%s\","
"\"cond\":\"%s\"}",
iter->p ? "," : "",
b->addr, b->size,
(b->rwx & R_BP_PROT_READ) ? 'r' : '-',
(b->rwx & R_BP_PROT_WRITE) ? 'w' : '-',
(b->rwx & R_BP_PROT_EXEC) ? 'x' : '-',
b->hw ? "true" : "false",
b->trace ? "true" : "false",
b->enabled ? "true" : "false",
r_str_get2 (b->data),
r_str_get2 (b->cond));
break;
}
/* TODO: Show list of pids and trace points, conditionals */
n++;
}
if (rad == 'j') {
bp->cb_printf ("]\n");
}
return n;
}
R_API RBreakpointItem *r_bp_item_new (RBreakpoint *bp) {
int i, j;
/* find empty slot */
for (i = 0; i < bp->bps_idx_count; i++) {
if (!bp->bps_idx[i]) {
goto return_slot;
}
}
/* allocate new slot */
bp->bps_idx_count += 16; // alocate space for 16 more bps
bp->bps_idx = realloc (bp->bps_idx, bp->bps_idx_count * sizeof(RBreakpointItem*));
for (j = i; j < bp->bps_idx_count; j++) {
bp->bps_idx[j] = NULL;
}
return_slot:
/* empty slot */
return (bp->bps_idx[i] = R_NEW0 (RBreakpointItem));
}
R_API RBreakpointItem *r_bp_get_index(RBreakpoint *bp, int idx) {
if (idx >= 0 && idx < bp->bps_idx_count) {
return bp->bps_idx[idx];
}
return NULL;
}
R_API int r_bp_del_index(RBreakpoint *bp, int idx) {
if (idx >= 0 && idx < bp->bps_idx_count) {
r_list_delete_data (bp->bps, bp->bps_idx[idx]);
free (bp->bps_idx[idx]);
bp->bps_idx[idx] = NULL;
return true;
}
return false;
}
R_API int r_bp_size(RBreakpoint *bp) {
RBreakpointArch *bpa;
int i, bpsize = 8;
for (i = 0; bp->cur->bps[i].bytes; i++) {
bpa = &bp->cur->bps[i];
if (bpa->bits && bpa->bits != bp->bits) {
continue;
}
if (bpa->length < bpsize) {
bpsize = bpa->length;
}
}
return bpsize;
}