radare2/libr/bin/bfile.c
Florian Märkl 2c7ecc9736
Even more R2R (#16348)
* Fix r2r without FILE
* Fix many tests for r2r-c
* Pipe stdin in r2r to make isatty() return false
* Fix a leak in r2r
* Fix lock usage in RThread
* Always print stderr on failed tests
* Break broken zip tests
* Add -j arg to r2r
* Temporarily disable some tests that js and v don't parse
* Fix ar= trailing newline
2020-03-29 18:07:44 +02:00

1052 lines
27 KiB
C

/* radare2 - LGPL - Copyright 2009-2019 - pancake, nibble, dso */
#include <r_bin.h>
#include <r_hash.h>
#include "i/private.h"
// maybe too big sometimes? 2KB of stack eaten here..
#define R_STRING_SCAN_BUFFER_SIZE 2048
#define R_STRING_MAX_UNI_BLOCKS 4
static RBinClass *__getClass(RBinFile *bf, const char *name) {
r_return_val_if_fail (bf && bf->o && bf->o->classes_ht && name, NULL);
return ht_pp_find (bf->o->classes_ht, name, NULL);
}
static RBinSymbol *__getMethod(RBinFile *bf, const char *klass, const char *method) {
r_return_val_if_fail (bf && bf->o && bf->o->methods_ht && klass && method, NULL);
const char *name = sdb_fmt ("%s::%s", klass, method);
return ht_pp_find (bf->o->methods_ht, name, NULL);
}
static RBinString *__stringAt(RBinFile *bf, RList *ret, ut64 addr) {
if (addr != 0 && addr != UT64_MAX) {
return ht_up_find (bf->o->strings_db, addr, NULL);
}
return NULL;
}
static ut64 binobj_a2b(RBinObject *o, ut64 addr) {
return o ? addr + o->baddr_shift : addr;
}
static void print_string(RBinFile *bf, RBinString *string, int raw, PJ *pj) {
r_return_if_fail (bf && string);
int mode = bf->strmode;
ut64 addr, vaddr;
RBin *bin = bf->rbin;
if (!bin) {
return;
}
const char *section_name, *type_string;
RIO *io = bin->iob.io;
if (!io) {
return;
}
RBinSection *s = r_bin_get_section_at (bf->o, string->paddr, false);
if (s) {
string->vaddr = s->vaddr + (string->paddr - s->paddr);
}
section_name = s ? s->name : "";
type_string = r_bin_string_type (string->type);
vaddr = addr = r_bin_get_vaddr (bin, string->paddr, string->vaddr);
// If raw string dump mode, use printf to dump directly to stdout.
// PrintfCallback temp = io->cb_printf;
switch (mode) {
case R_MODE_JSON:
{
if (pj) {
pj_o (pj);
pj_kn (pj, "vaddr", vaddr);
pj_kn (pj, "paddr", string->paddr);
pj_kn (pj, "ordinal", string->ordinal);
pj_kn (pj, "size", string->size);
pj_kn (pj, "length", string->length);
pj_ks (pj, "section", section_name);
pj_ks (pj, "type", type_string);
pj_ks (pj, "string", string->string);
pj_end (pj);
}
}
break;
case R_MODE_SIMPLEST:
io->cb_printf ("%s\n", string->string);
break;
case R_MODE_SIMPLE:
if (raw == 2) {
io->cb_printf ("0x%08"PFMT64x" %s\n", addr, string->string);
} else {
io->cb_printf ("%s\n", string->string);
}
break;
case R_MODE_RADARE: {
char *f_name, *nstr;
f_name = strdup (string->string);
r_name_filter (f_name, 512);
if (bin->prefix) {
nstr = r_str_newf ("%s.str.%s", bin->prefix, f_name);
io->cb_printf ("f %s.str.%s %u @ 0x%08"PFMT64x"\n"
"Cs %u @ 0x%08"PFMT64x"\n",
bin->prefix, f_name, string->size, addr,
string->size, addr);
} else {
nstr = r_str_newf ("str.%s", f_name);
io->cb_printf ("f str.%s %u @ 0x%08"PFMT64x"\n"
"Cs %u @ 0x%08"PFMT64x"\n",
f_name, string->size, addr,
string->size, addr);
}
free (nstr);
free (f_name);
break;
}
case R_MODE_PRINT:
io->cb_printf ("%03u 0x%08" PFMT64x " 0x%08" PFMT64x " %3u %3u "
"(%s) %5s %s\n",
string->ordinal, string->paddr, vaddr,
string->length, string->size,
section_name, type_string, string->string);
break;
}
}
static int string_scan_range(RList *list, RBinFile *bf, int min,
const ut64 from, const ut64 to, int type, int raw, RBinSection *section) {
RBin *bin = bf->rbin;
ut8 tmp[R_STRING_SCAN_BUFFER_SIZE];
ut64 str_start, needle = from;
int count = 0, i, rc, runes;
int str_type = R_STRING_TYPE_DETECT;
// if list is null it means its gonna dump
r_return_val_if_fail (bf, -1);
if (type == -1) {
type = R_STRING_TYPE_DETECT;
}
if (from == to) {
return 0;
}
if (from > to) {
eprintf ("Invalid range to find strings 0x%"PFMT64x" .. 0x%"PFMT64x"\n", from, to);
return -1;
}
int len = to - from;
ut8 *buf = calloc (len, 1);
if (!buf || !min) {
free (buf);
return -1;
}
st64 vdelta = 0, pdelta = 0;
RBinSection *s = NULL;
bool ascii_only = false;
PJ *pj = NULL;
if (bf->strmode == R_MODE_JSON && !list) {
pj = pj_new ();
if (pj) {
pj_a (pj);
}
}
r_buf_read_at (bf->buf, from, buf, len);
// may oobread
while (needle < to) {
if (bin && bin->consb.is_breaked) {
if (bin->consb.is_breaked ()) {
break;
}
}
rc = r_utf8_decode (buf + needle - from, to - needle, NULL);
if (!rc) {
needle++;
continue;
}
if (type == R_STRING_TYPE_DETECT) {
char *w = (char *)buf + needle + rc - from;
if ((to - needle) > 5 + rc) {
bool is_wide32 = (needle + rc + 2 < to) && (!w[0] && !w[1] && !w[2] && w[3] && !w[4]);
if (is_wide32) {
str_type = R_STRING_TYPE_WIDE32;
} else {
bool is_wide = needle + rc + 2 < to && !w[0] && w[1] && !w[2];
str_type = is_wide? R_STRING_TYPE_WIDE: R_STRING_TYPE_ASCII;
}
} else {
str_type = R_STRING_TYPE_ASCII;
}
} else {
str_type = type;
}
runes = 0;
str_start = needle;
/* Eat a whole C string */
for (i = 0; i < sizeof (tmp) - 4 && needle < to; i += rc) {
RRune r = {0};
if (str_type == R_STRING_TYPE_WIDE32) {
rc = r_utf32le_decode (buf + needle - from, to - needle, &r);
if (rc) {
rc = 4;
}
} else if (str_type == R_STRING_TYPE_WIDE) {
rc = r_utf16le_decode (buf + needle - from, to - needle, &r);
if (rc == 1) {
rc = 2;
}
} else {
rc = r_utf8_decode (buf + needle - from, to - needle, &r);
if (rc > 1) {
str_type = R_STRING_TYPE_UTF8;
}
}
/* Invalid sequence detected */
if (!rc || (ascii_only && r > 0x7f)) {
needle++;
break;
}
needle += rc;
if (r_isprint (r) && r != '\\') {
if (str_type == R_STRING_TYPE_WIDE32) {
if (r == 0xff) {
r = 0;
}
}
rc = r_utf8_encode (tmp + i, r);
runes++;
/* Print the escape code */
} else if (r && r < 0x100 && strchr ("\b\v\f\n\r\t\a\033\\", (char)r)) {
if ((i + 32) < sizeof (tmp) && r < 93) {
tmp[i + 0] = '\\';
tmp[i + 1] = " abtnvfr e "
" "
" "
" \\"[r];
} else {
// string too long
break;
}
rc = 2;
runes++;
} else {
/* \0 marks the end of C-strings */
break;
}
}
tmp[i++] = '\0';
if (runes < min && runes >= 2 && str_type == R_STRING_TYPE_ASCII && needle < to) {
// back up past the \0 to the last char just in case it starts a wide string
needle -= 2;
}
if (runes >= min) {
// reduce false positives
int j, num_blocks, *block_list;
int *freq_list = NULL, expected_ascii, actual_ascii, num_chars;
if (str_type == R_STRING_TYPE_ASCII) {
for (j = 0; j < i; j++) {
char ch = tmp[j];
if (ch != '\n' && ch != '\r' && ch != '\t') {
if (!IS_PRINTABLE (tmp[j])) {
continue;
}
}
}
}
switch (str_type) {
case R_STRING_TYPE_UTF8:
case R_STRING_TYPE_WIDE:
case R_STRING_TYPE_WIDE32:
num_blocks = 0;
block_list = r_utf_block_list ((const ut8*)tmp, i - 1,
str_type == R_STRING_TYPE_WIDE ? &freq_list : NULL);
if (block_list) {
for (j = 0; block_list[j] != -1; j++) {
num_blocks++;
}
}
if (freq_list) {
num_chars = 0;
actual_ascii = 0;
for (j = 0; freq_list[j] != -1; j++) {
num_chars += freq_list[j];
if (!block_list[j]) { // ASCII
actual_ascii = freq_list[j];
}
}
free (freq_list);
expected_ascii = num_blocks ? num_chars / num_blocks : 0;
if (actual_ascii > expected_ascii) {
ascii_only = true;
needle = str_start;
free (block_list);
continue;
}
}
free (block_list);
if (num_blocks > R_STRING_MAX_UNI_BLOCKS) {
continue;
}
}
RBinString *bs = R_NEW0 (RBinString);
if (!bs) {
break;
}
bs->type = str_type;
bs->length = runes;
bs->size = needle - str_start;
bs->ordinal = count++;
// TODO: move into adjust_offset
switch (str_type) {
case R_STRING_TYPE_WIDE:
if (str_start - from > 1) {
const ut8 *p = buf + str_start - 2 - from;
if (p[0] == 0xff && p[1] == 0xfe) {
str_start -= 2; // \xff\xfe
}
}
break;
case R_STRING_TYPE_WIDE32:
if (str_start - from > 3) {
const ut8 *p = buf + str_start - 4 - from;
if (p[0] == 0xff && p[1] == 0xfe) {
str_start -= 4; // \xff\xfe\x00\x00
}
}
break;
}
if (!s) {
if (section) {
s = section;
} else if (bf->o) {
s = r_bin_get_section_at (bf->o, str_start, false);
}
if (s) {
vdelta = s->vaddr;
pdelta = s->paddr;
}
}
bs->paddr = str_start;
bs->vaddr = str_start - pdelta + vdelta;
bs->string = r_str_ndup ((const char *)tmp, i);
if (list) {
r_list_append (list, bs);
if (bf->o) {
ht_up_insert (bf->o->strings_db, bs->vaddr, bs);
}
} else {
print_string (bf, bs, raw, pj);
r_bin_string_free (bs);
}
if (from == 0 && to == bf->size) {
/* force lookup section at the next one */
s = NULL;
}
}
ascii_only = false;
}
free (buf);
if (pj) {
pj_end (pj);
RIO *io = bin->iob.io;
if (io) {
io->cb_printf ("%s\n", pj_string (pj));
}
pj_free (pj);
}
return count;
}
static bool __isDataSection(RBinFile *a, RBinSection *s) {
if (s->has_strings || s->is_data) {
return true;
}
// Rust
return strstr (s->name, "_const") != NULL;
}
static void get_strings_range(RBinFile *bf, RList *list, int min, int raw, ut64 from, ut64 to, RBinSection * section) {
r_return_if_fail (bf && bf->buf);
RBinPlugin *plugin = r_bin_file_cur_plugin (bf);
if (!raw && (!plugin || !plugin->info)) {
return;
}
if (!min) {
min = plugin? plugin->minstrlen: 4;
}
/* Some plugins return zero, fix it up */
if (!min) {
min = 4;
}
if (min < 0) {
return;
}
if (!bf->rbin->is_debugger) {
if (!to || to > r_buf_size (bf->buf)) {
to = r_buf_size (bf->buf);
}
if (!to) {
return;
}
}
if (raw != 2) {
ut64 size = to - from;
// in case of dump ignore here
if (bf->rbin->maxstrbuf && size && size > bf->rbin->maxstrbuf) {
if (bf->rbin->verbose) {
eprintf ("WARNING: bin_strings buffer is too big (0x%08" PFMT64x "). Use -zzz or set bin.maxstrbuf (RABIN2_MAXSTRBUF) in r2 (rabin2)\n",
size);
}
return;
}
}
string_scan_range (list, bf, min, from, to, -1, raw, section);
}
R_IPI RBinFile *r_bin_file_new(RBin *bin, const char *file, ut64 file_sz, int rawstr, int fd, const char *xtrname, Sdb *sdb, bool steal_ptr) {
ut32 bf_id;
if (!r_id_pool_grab_id (bin->ids->pool, &bf_id)) {
return NULL;
}
RBinFile *bf = R_NEW0 (RBinFile);
if (bf) {
bf->id = bf_id;
bf->rbin = bin;
bf->file = file ? strdup (file) : NULL;
bf->rawstr = rawstr;
bf->fd = fd;
bf->curxtr = xtrname ? r_bin_get_xtrplugin_by_name (bin, xtrname) : NULL;
bf->sdb = sdb;
bf->size = file_sz;
bf->xtr_data = r_list_newf ((RListFree)r_bin_xtrdata_free);
bf->xtr_obj = NULL;
bf->sdb = sdb_new0 ();
bf->sdb_addrinfo = sdb_new0 (); //ns (bf->sdb, "addrinfo", 1);
// bf->sdb_addrinfo->refs++;
}
return bf;
}
static RBinPlugin *get_plugin_from_buffer(RBin *bin, const char *pluginname, RBuffer *buf) {
RBinPlugin *plugin = bin->force? r_bin_get_binplugin_by_name (bin, bin->force): NULL;
if (plugin) {
return plugin;
}
plugin = pluginname? r_bin_get_binplugin_by_name (bin, pluginname): NULL;
if (plugin) {
return plugin;
}
plugin = r_bin_get_binplugin_by_buffer (bin, buf);
if (plugin) {
return plugin;
}
return r_bin_get_binplugin_by_name (bin, "any");
}
R_API bool r_bin_file_object_new_from_xtr_data(RBin *bin, RBinFile *bf, ut64 baseaddr, ut64 loadaddr, RBinXtrData *data) {
r_return_val_if_fail (bin && bf && data, false);
ut64 offset = data->offset;
ut64 sz = data->size;
RBinPlugin *plugin = get_plugin_from_buffer (bin, NULL, data->buf);
bf->buf = r_buf_ref (data->buf);
RBinObject *o = r_bin_object_new (bf, plugin, baseaddr, loadaddr, offset, sz);
if (!o) {
return false;
}
// size is set here because the reported size of the object depends on
// if loaded from xtr plugin or partially read
if (!o->size) {
o->size = sz;
}
bf->narch = data->file_count;
if (!o->info) {
o->info = R_NEW0 (RBinInfo);
}
free (o->info->file);
free (o->info->arch);
free (o->info->machine);
free (o->info->type);
o->info->file = strdup (bf->file);
o->info->arch = strdup (data->metadata->arch);
o->info->machine = strdup (data->metadata->machine);
o->info->type = strdup (data->metadata->type);
o->info->bits = data->metadata->bits;
o->info->has_crypto = bf->o->info->has_crypto;
data->loaded = true;
return true;
}
static bool xtr_metadata_match(RBinXtrData *xtr_data, const char *arch, int bits) {
if (!xtr_data->metadata || !xtr_data->metadata->arch) {
return false;
}
const char *iter_arch = xtr_data->metadata->arch;
int iter_bits = xtr_data->metadata->bits;
return bits == iter_bits && !strcmp (iter_arch, arch) && !xtr_data->loaded;
}
R_IPI RBinFile *r_bin_file_new_from_buffer(RBin *bin, const char *file, RBuffer *buf, int rawstr, ut64 baseaddr, ut64 loadaddr, int fd, const char *pluginname) {
r_return_val_if_fail (bin && file && buf, NULL);
RBinFile *bf = r_bin_file_new (bin, file, r_buf_size (buf), rawstr, fd, pluginname, NULL, false);
if (bf) {
bf->buf = r_buf_ref (buf);
RBinPlugin *plugin = get_plugin_from_buffer (bin, pluginname, bf->buf);
RBinObject *o = r_bin_object_new (bf, plugin, baseaddr, loadaddr, 0, r_buf_size (bf->buf));
if (!o) {
r_bin_file_free (bf);
return NULL;
}
// size is set here because the reported size of the object depends on
// if loaded from xtr plugin or partially read
if (!o->size) {
o->size = r_buf_size (buf);
}
r_list_append (bin->binfiles, bf);
}
return bf;
}
R_API RBinFile *r_bin_file_find_by_arch_bits(RBin *bin, const char *arch, int bits) {
RListIter *iter;
RBinFile *binfile = NULL;
RBinXtrData *xtr_data;
r_return_val_if_fail (bin && arch, NULL);
r_list_foreach (bin->binfiles, iter, binfile) {
RListIter *iter_xtr;
if (!binfile->xtr_data) {
continue;
}
// look for sub-bins in Xtr Data and Load if we need to
r_list_foreach (binfile->xtr_data, iter_xtr, xtr_data) {
if (xtr_metadata_match (xtr_data, arch, bits)) {
if (!r_bin_file_object_new_from_xtr_data (bin, binfile, xtr_data->baddr,
xtr_data->laddr, xtr_data)) {
return NULL;
}
return binfile;
}
}
}
return binfile;
}
R_IPI RBinFile *r_bin_file_find_by_id(RBin *bin, ut32 bf_id) {
RBinFile *bf;
RListIter *iter;
r_list_foreach (bin->binfiles, iter, bf) {
if (bf->id == bf_id) {
return bf;
}
}
return NULL;
}
R_API ut64 r_bin_file_delete_all(RBin *bin) {
if (bin) {
ut64 counter = r_list_length (bin->binfiles);
r_list_purge (bin->binfiles);
bin->cur = NULL;
return counter;
}
return 0;
}
R_API bool r_bin_file_delete(RBin *bin, ut32 bin_id) {
r_return_val_if_fail (bin, false);
RListIter *iter;
RBinFile *bf, *cur = r_bin_cur (bin);
r_list_foreach (bin->binfiles, iter, bf) {
if (bf && bf->id == bin_id) {
if (cur && cur->id == bin_id) {
// avoiding UaF due to dead reference
bin->cur = NULL;
}
r_list_delete (bin->binfiles, iter);
return true;
}
}
return false;
}
R_API RBinFile *r_bin_file_find_by_fd(RBin *bin, ut32 bin_fd) {
RListIter *iter;
RBinFile *bf;
r_return_val_if_fail (bin, NULL);
r_list_foreach (bin->binfiles, iter, bf) {
if (bf->fd == bin_fd) {
return bf;
}
}
return NULL;
}
R_API RBinFile *r_bin_file_find_by_name(RBin *bin, const char *name) {
RListIter *iter;
RBinFile *bf;
r_return_val_if_fail (bin && name, NULL);
r_list_foreach (bin->binfiles, iter, bf) {
if (bf->file && !strcmp (bf->file, name)) {
return bf;
}
}
return NULL;
}
R_IPI RBinFile *r_bin_file_find_by_name_n(RBin *bin, const char *name, int idx) {
RListIter *iter;
RBinFile *bf = NULL;
int i = 0;
if (!bin) {
return bf;
}
r_list_foreach (bin->binfiles, iter, bf) {
if (bf && bf->file && !strcmp (bf->file, name)) {
if (i == idx) {
break;
}
i++;
}
bf = NULL;
}
return bf;
}
R_API bool r_bin_file_set_cur_by_id(RBin *bin, ut32 bin_id) {
RBinFile *bf = r_bin_file_find_by_id (bin, bin_id);
return bf? r_bin_file_set_cur_binfile (bin, bf): false;
}
R_API bool r_bin_file_set_cur_by_fd(RBin *bin, ut32 bin_fd) {
RBinFile *bf = r_bin_file_find_by_fd (bin, bin_fd);
return bf? r_bin_file_set_cur_binfile (bin, bf): false;
}
R_IPI bool r_bin_file_set_obj(RBin *bin, RBinFile *bf, RBinObject *obj) {
r_return_val_if_fail (bin && bf, false);
bin->file = bf->file;
bin->cur = bf;
bin->narch = bf->narch;
if (obj) {
bf->o = obj;
} else {
obj = bf->o;
}
RBinPlugin *plugin = r_bin_file_cur_plugin (bf);
if (bin->minstrlen < 1) {
bin->minstrlen = plugin? plugin->minstrlen: bin->minstrlen;
}
if (obj) {
if (!obj->info) {
return false;
}
if (!obj->info->lang) {
obj->info->lang = r_bin_lang_tostring (obj->lang);
}
}
return true;
}
R_API bool r_bin_file_set_cur_binfile(RBin *bin, RBinFile *bf) {
r_return_val_if_fail (bin && bf, false);
return r_bin_file_set_obj (bin, bf, bf->o);
}
R_API bool r_bin_file_set_cur_by_name(RBin *bin, const char *name) {
r_return_val_if_fail (bin && name, false);
RBinFile *bf = r_bin_file_find_by_name (bin, name);
return r_bin_file_set_cur_binfile (bin, bf);
}
R_API bool r_bin_file_deref(RBin *bin, RBinFile *a) {
r_return_val_if_fail (bin && a, false);
if (!r_bin_cur_object (bin)) {
return false;
}
bin->cur = NULL;
return true;
}
R_API void r_bin_file_free(void /*RBinFile*/ *_bf) {
if (!_bf) {
return;
}
RBinFile *bf = _bf;
RBinPlugin *plugin = r_bin_file_cur_plugin (bf);
// Binary format objects are connected to the
// RBinObject, so the plugin must destroy the
// format data first
if (plugin && plugin->destroy) {
plugin->destroy (bf);
}
r_buf_free (bf->buf);
if (bf->curxtr && bf->curxtr->destroy && bf->xtr_obj) {
bf->curxtr->free_xtr ((void *)(bf->xtr_obj));
}
// TODO: unset related sdb namespaces
if (bf->sdb_addrinfo) {
sdb_free (bf->sdb_addrinfo);
bf->sdb_addrinfo = NULL;
}
free (bf->file);
r_bin_object_free (bf->o);
r_list_free (bf->xtr_data);
if (bf->id != -1) {
// TODO: use r_storage api
r_id_pool_kick_id (bf->rbin->ids->pool, bf->id);
}
(void) r_bin_object_delete (bf->rbin, bf->id);
free (bf);
}
R_IPI RBinFile *r_bin_file_xtr_load_buffer(RBin *bin, RBinXtrPlugin *xtr, const char *filename, RBuffer *buf, ut64 baseaddr, ut64 loadaddr, int idx, int fd, int rawstr) {
r_return_val_if_fail (bin && xtr && buf, NULL);
RBinFile *bf = r_bin_file_find_by_name (bin, filename);
if (!bf) {
bf = r_bin_file_new (bin, filename, r_buf_size (buf), rawstr, fd, xtr->name, bin->sdb, false);
if (!bf) {
return NULL;
}
r_list_append (bin->binfiles, bf);
if (!bin->cur) {
bin->cur = bf;
}
}
r_list_free (bf->xtr_data);
bf->xtr_data = NULL;
if (xtr->extractall_from_buffer) {
bf->xtr_data = xtr->extractall_from_buffer (bin, buf);
} else if (xtr->extractall_from_bytes) {
ut64 sz = 0;
const ut8 *bytes = r_buf_data (buf, &sz);
eprintf ("TODO: Implement extractall_from_buffer in '%s' xtr.bin plugin\n", xtr->name);
bf->xtr_data = xtr->extractall_from_bytes (bin, bytes, sz);
}
if (bf->xtr_data) {
RListIter *iter;
RBinXtrData *x;
//populate xtr_data with baddr and laddr that will be used later on
//r_bin_file_object_new_from_xtr_data
r_list_foreach (bf->xtr_data, iter, x) {
x->baddr = baseaddr? baseaddr : UT64_MAX;
x->laddr = loadaddr? loadaddr : UT64_MAX;
}
}
bf->loadaddr = loadaddr;
return bf;
}
// XXX deprecate this function imho.. wee can just access bf->buf directly
R_IPI bool r_bin_file_set_bytes(RBinFile *bf, const ut8 *bytes, ut64 sz, bool steal_ptr) {
r_return_val_if_fail (bf && bytes, false);
r_buf_free (bf->buf);
if (steal_ptr) {
bf->buf = r_buf_new_with_pointers (bytes, sz, true);
} else {
bf->buf = r_buf_new_with_bytes (bytes, sz);
}
return bf->buf != NULL;
}
R_API RBinPlugin *r_bin_file_cur_plugin(RBinFile *bf) {
return (bf && bf->o)? bf->o->plugin: NULL;
}
// TODO: searchStrings() instead
R_IPI RList *r_bin_file_get_strings(RBinFile *bf, int min, int dump, int raw) {
r_return_val_if_fail (bf, NULL);
RListIter *iter;
RBinSection *section;
RList *ret = dump? NULL: r_list_newf (r_bin_string_free);
if (!raw && bf && bf->o && bf->o->sections && !r_list_empty (bf->o->sections)) {
RBinObject *o = bf->o;
r_list_foreach (o->sections, iter, section) {
if (__isDataSection (bf, section)) {
get_strings_range (bf, ret, min, raw, section->paddr,
section->paddr + section->size, section);
}
}
r_list_foreach (o->sections, iter, section) {
/* load objc/swift strings */
const int bits = (bf->o && bf->o->info) ? bf->o->info->bits : 32;
const int cfstr_size = (bits == 64) ? 32 : 16;
const int cfstr_offs = (bits == 64) ? 16 : 8;
if (strstr (section->name, "__cfstring")) {
int i;
// XXX do not walk if bin.strings == 0
ut8 *p;
if (section->size > bf->size) {
continue;
}
ut8 *sbuf = malloc (section->size);
if (!sbuf) {
continue;
}
r_buf_read_at (bf->buf, section->paddr + cfstr_offs, sbuf, section->size);
for (i = 0; i < section->size; i += cfstr_size) {
ut8 *buf = sbuf;
p = buf + i;
if ((i + ((bits == 64)? 8: 4)) >= section->size) {
break;
}
ut64 cfstr_vaddr = section->vaddr + i;
ut64 cstr_vaddr = (bits == 64) ? r_read_le64 (p) : r_read_le32 (p);
RBinString *s = __stringAt (bf, ret, cstr_vaddr);
if (s) {
RBinString *bs = R_NEW0 (RBinString);
if (bs) {
bs->type = s->type;
bs->length = s->length;
bs->size = s->size;
bs->ordinal = s->ordinal;
bs->vaddr = cfstr_vaddr;
bs->paddr = cfstr_vaddr; // XXX should be paddr instead
bs->string = r_str_newf ("cstr.%s", s->string);
r_list_append (ret, bs);
ht_up_insert (o->strings_db, bs->vaddr, bs);
}
}
}
free (sbuf);
}
}
} else {
get_strings_range (bf, ret, min, raw, 0, bf->size, NULL);
}
return ret;
}
R_API ut64 r_bin_file_get_baddr(RBinFile *bf) {
if (bf && bf->o) {
return bf->o->baddr;
}
return UT64_MAX;
}
R_API bool r_bin_file_close(RBin *bin, int bd) {
r_return_val_if_fail (bin, false);
RBinFile *bf = r_id_storage_take (bin->ids, bd);
if (bf) {
// file_free removes the fd already.. maybe its unnecessary
r_id_storage_delete (bin->ids, bd);
r_bin_file_free (bf);
return true;
}
return false;
}
R_API RList *r_bin_file_compute_hashes(RBin *bin, ut64 limit) {
r_return_val_if_fail (bin && bin->cur && bin->cur->o, NULL);
ut64 buf_len = 0, r = 0;
RBinFile *bf = bin->cur;
RBinObject *o = bf->o;
RIODesc *iod = r_io_desc_get (bin->iob.io, bf->fd);
if (!iod) {
return NULL;
}
buf_len = r_io_desc_size (iod);
// By SLURP_LIMIT normally cannot compute ...
if (buf_len > limit) {
eprintf ("Warning: r_bin_file_hash: file exceeds bin.hashlimit\n");
return NULL;
}
const size_t blocksize = 64000;
ut8 *buf = malloc (blocksize);
if (!buf) {
eprintf ("Cannot allocate computation buffer\n");
return NULL;
}
char hash[128];
RHash *ctx = r_hash_new (false, R_HASH_MD5 | R_HASH_SHA1 | R_HASH_SHA256);
while (r + blocksize < buf_len) {
r_io_desc_seek (iod, r, R_IO_SEEK_SET);
int b = r_io_desc_read (iod, buf, blocksize);
(void)r_hash_do_md5 (ctx, buf, blocksize);
(void)r_hash_do_sha1 (ctx, buf, blocksize);
(void)r_hash_do_sha256 (ctx, buf, blocksize);
r += b;
}
if (r < buf_len) {
r_io_desc_seek (iod, r, R_IO_SEEK_SET);
const size_t rem_len = buf_len-r;
int b = r_io_desc_read (iod, buf, rem_len);
if (b < 1) {
eprintf ("r_io_desc_read: error\n");
} else {
(void)r_hash_do_md5 (ctx, buf, b);
(void)r_hash_do_sha1 (ctx, buf, b);
(void)r_hash_do_sha256 (ctx, buf, b);
}
}
r_hash_do_end (ctx, R_HASH_MD5);
r_hex_bin2str (ctx->digest, R_HASH_SIZE_MD5, hash);
RList *file_hashes = r_list_newf ((RListFree) r_bin_file_hash_free);
RBinFileHash *md5h = R_NEW0 (RBinFileHash);
if (md5h) {
md5h->type = strdup ("md5");
md5h->hex = strdup (hash);
r_list_push (file_hashes, md5h);
}
r_hash_do_end (ctx, R_HASH_SHA1);
r_hex_bin2str (ctx->digest, R_HASH_SIZE_SHA1, hash);
RBinFileHash *sha1h = R_NEW0 (RBinFileHash);
if (sha1h) {
sha1h->type = strdup ("sha1");
sha1h->hex = strdup (hash);
r_list_push (file_hashes, sha1h);
}
r_hash_do_end (ctx, R_HASH_SHA256);
r_hex_bin2str (ctx->digest, R_HASH_SIZE_SHA256, hash);
RBinFileHash *sha256h = R_NEW0 (RBinFileHash);
if (sha256h) {
sha256h->type = strdup ("sha256");
sha256h->hex = strdup (hash);
r_list_push (file_hashes, sha256h);
}
if (o->plugin && o->plugin->hashes) {
RList *plugin_hashes = o->plugin->hashes (bf);
r_list_join (file_hashes, plugin_hashes);
free (plugin_hashes);
}
// TODO: add here more rows
free (buf);
r_hash_free (ctx);
return file_hashes;
}
// Set new hashes to current RBinInfo, caller should free the returned RList
R_API RList *r_bin_file_set_hashes(RBin *bin, RList/*<RBinFileHash*/ *new_hashes) {
r_return_val_if_fail (bin && bin->cur && bin->cur->o && bin->cur->o->info, NULL);
RBinFile *bf = bin->cur;
RBinInfo *info = bf->o->info;
RList *prev_hashes = info->file_hashes;
info->file_hashes = new_hashes;
return prev_hashes;
}
R_IPI RBinClass *r_bin_class_new(const char *name, const char *super, int view) {
r_return_val_if_fail (name, NULL);
RBinClass *c = R_NEW0 (RBinClass);
if (c) {
c->name = strdup (name);
c->super = super? strdup (super): NULL;
c->methods = r_list_new ();
c->fields = r_list_new ();
c->visibility = view;
}
return c;
}
R_IPI void r_bin_class_free(RBinClass *k) {
if (k) {
free (k->name);
free (k->super);
r_list_free (k->methods);
r_list_free (k->fields);
free (k);
}
}
R_API RBinClass *r_bin_file_add_class(RBinFile *bf, const char *name, const char *super, int view) {
r_return_val_if_fail (name && bf && bf->o, NULL);
RBinClass *c = __getClass (bf, name);
if (c) {
if (super) {
free (c->super);
c->super = strdup (super);
}
return c;
}
c = r_bin_class_new (name, super, view);
if (c) {
// XXX. no need for a list, the ht is iterable too
c->index = r_list_length (bf->o->classes);
r_list_append (bf->o->classes, c);
ht_pp_insert (bf->o->classes_ht, name, c);
}
return c;
}
R_API RBinSymbol *r_bin_file_add_method(RBinFile *bf, const char *klass, const char *method, int nargs) {
r_return_val_if_fail (bf, NULL);
RBinClass *c = r_bin_file_add_class (bf, klass, NULL, 0);
if (!c) {
eprintf ("Cannot allocate class %s\n", klass);
return NULL;
}
RBinSymbol *sym = __getMethod (bf, klass, method);
if (!sym) {
sym = R_NEW0 (RBinSymbol);
if (sym) {
sym->name = strdup (method);
r_list_append (c->methods, sym);
const char *name = sdb_fmt ("%s::%s", klass, method);
ht_pp_insert (bf->o->methods_ht, name, sym);
}
}
return sym;
}
R_API RBinField *r_bin_file_add_field(RBinFile *binfile, const char *classname, const char *name) {
//TODO: add_field into class
//eprintf ("TODO add field: %s \n", name);
return NULL;
}
// XXX this api name makes no sense
/* returns vaddr, rebased with the baseaddr of binfile, if va is enabled for
* bin, paddr otherwise */
R_API ut64 r_bin_file_get_vaddr(RBinFile *bf, ut64 paddr, ut64 vaddr) {
r_return_val_if_fail (bf && bf->o, paddr);
if (bf->o->info && bf->o->info->has_va) {
return binobj_a2b (bf->o, vaddr);
}
return paddr;
}
R_API RList *r_bin_file_get_trycatch(RBinFile *bf) {
r_return_val_if_fail (bf && bf->o && bf->o->plugin, NULL);
if (bf->o->plugin->trycatch) {
return bf->o->plugin->trycatch (bf);
}
return NULL;
}
R_API RList *r_bin_file_get_symbols(RBinFile *bf) {
r_return_val_if_fail (bf, NULL);
RBinObject *o = bf->o;
return o? o->symbols: NULL;
}