radare2/libr/core/cbin.c
2017-01-14 22:02:33 +01:00

2845 lines
80 KiB
C

/* radare - LGPL - Copyright 2011-2017 - earada, pancake */
#include <r_core.h>
#define is_in_range(at, from, sz) ((at) >= (from) && (at) < ((from) + (sz)))
#define VA_FALSE 0
#define VA_TRUE 1
#define VA_NOREBASE 2
#define IS_MODE_SET(mode) (mode & R_CORE_BIN_SET)
#define IS_MODE_SIMPLE(mode) (mode & R_CORE_BIN_SIMPLE)
#define IS_MODE_SIMPLEST(mode) (mode & R_CORE_BIN_SIMPLEST)
#define IS_MODE_JSON(mode) (mode & R_CORE_BIN_JSON)
#define IS_MODE_RAD(mode) (mode & R_CORE_BIN_RADARE)
#define IS_MODE_NORMAL(mode) (!mode)
// dup from cmd_info
#define PAIR_WIDTH 9
static void pair(const char *a, const char *b, int mode, bool last) {
if (!b || !(*b)) {
return;
}
if (IS_MODE_JSON (mode)) {
const char *lst = last ? "" : ",";
r_cons_printf ("\"%s\":%s%s", a, b, lst);
} else {
char ws[16];
int al = strlen (a);
al = PAIR_WIDTH - al;
if (al < 0) {
al = 0;
}
memset (ws, ' ', al);
ws[al] = 0;
r_cons_printf ("%s%s%s\n", a, ws, b);
}
}
static void pair_bool(const char *a, bool t, int mode, bool last) {
pair (a, r_str_bool (t), mode, last);
}
static void pair_int(const char *a, int n, int mode, bool last) {
pair (a, sdb_fmt (0, "%d", n), mode, last);
}
static void pair_str(const char *a, const char *b, int mode, int last) {
if (IS_MODE_JSON (mode)) {
if (!b) b = "";
pair (a, sdb_fmt (0, "\"%s\"", b), mode, last);
} else {
pair (a, b, mode, last);
}
}
#define STR(x) (x)?(x):""
// XXX - this may lead to conflicts with set by name
static int r_core_bin_set_cur(RCore *core, RBinFile *binfile);
static ut64 rva(RBin *bin, ut64 paddr, ut64 vaddr, int va) {
if (va == VA_TRUE) {
return r_bin_get_vaddr (bin, paddr, vaddr);
}
if (va == VA_NOREBASE) {
return vaddr;
}
return paddr;
}
R_API int r_core_bin_set_by_fd(RCore *core, ut64 bin_fd) {
if (r_bin_file_set_cur_by_fd (core->bin, bin_fd)) {
r_core_bin_set_cur (core, r_core_bin_cur (core));
return true;
}
return false;
}
R_API int r_core_bin_set_by_name(RCore *core, const char * name) {
if (r_bin_file_set_cur_by_name (core->bin, name)) {
r_core_bin_set_cur (core, r_core_bin_cur (core));
return true;
}
return false;
}
R_API int r_core_bin_set_env(RCore *r, RBinFile *binfile) {
RBinObject *binobj = binfile ? binfile->o: NULL;
RBinInfo *info = binobj ? binobj->info: NULL;
if (info) {
int va = info->has_va;
const char * arch = info->arch;
ut16 bits = info->bits;
ut64 baseaddr = r_bin_get_baddr (r->bin);
/* Hack to make baddr work on some corner */
r_config_set_i (r->config, "io.va",
(binobj->info)? binobj->info->has_va: 0);
r_config_set_i (r->config, "bin.baddr", baseaddr);
r_config_set (r->config, "asm.arch", arch);
r_config_set_i (r->config, "asm.bits", bits);
r_config_set (r->config, "anal.arch", arch);
if (info->cpu && *info->cpu) {
r_config_set (r->config, "anal.cpu", info->cpu);
} else {
r_config_set (r->config, "anal.cpu", arch);
}
r_asm_use (r->assembler, arch);
r_core_bin_info (r, R_CORE_BIN_ACC_ALL, R_CORE_BIN_SET,
va, NULL, NULL);
r_core_bin_set_cur (r, binfile);
return true;
}
return false;
}
R_API int r_core_bin_set_cur(RCore *core, RBinFile *binfile) {
if (!core->bin) {
return false;
}
if (!binfile) {
// Find first available binfile
ut32 fd = r_core_file_cur_fd (core);
binfile = fd != (ut32)-1
? r_bin_file_find_by_fd (core->bin, fd)
: NULL;
if (!binfile) {
return false;
}
}
r_bin_file_set_cur_binfile (core->bin, binfile);
return true;
}
R_API int r_core_bin_refresh_strings(RCore *r) {
return r_bin_reset_strings (r->bin) ? true: false;
}
R_API RBinFile * r_core_bin_cur(RCore *core) {
RBinFile *binfile = r_bin_cur (core->bin);
return binfile;
}
static bool string_filter(RCore *core, const char *str) {
int i;
/* pointer/rawdata detection */
if (core->bin->strpurge) {
ut8 bo[0x100];
int up = 0;
int lo = 0;
int ot = 0;
int di = 0;
int ln = 0;
int sp = 0;
int nm = 0;
for (i = 0; i < 0x100; i++) {
bo[i] = 0;
}
for (i = 0; str[i]; i++) {
if (str[i] >= '0' && str[i] <= '9') {
nm++;
} else if (str[i]>='a' && str[i]<='z') {
lo++;
} else if (str[i]>='A' && str[i]<='Z') {
up++;
} else {
ot++;
}
if (str[i]=='\\') {
ot++;
}
if (str[i]==' ') {
sp++;
}
bo[(ut8)str[i]] = 1;
ln++;
}
for (i = 0; i<0x100; i++) {
if (bo[i]) {
di++;
}
}
if (ln > 2 && str[0] != '_') {
if (ln < 10) {
return false;
}
if (ot >= (nm + up + lo)) {
return false;
}
if (lo < 3) {
return false;
}
}
}
switch (core->bin->strfilter) {
case 'U': // only uppercase strings
for (i = 0; str[i]; i++) {
char ch = str[i];
if (ch == ' ') {
continue;
}
if (ch < '@'|| ch > 'Z') {
return false;
}
if (ch < 0 || !IS_PRINTABLE (ch)) {
return false;
}
}
if (str[0] && str[1]) {
for (i = 2; i<6 && str[i]; i++) {
if (str[i] == str[0]) {
return false;
}
if (str[i] == str[1]) {
return false;
}
}
}
if (str[0] == str[2]) {
return false; // rm false positives
}
break;
case 'a': // only alphanumeric - plain ascii
for (i = 0; str[i]; i++) {
char ch = str[i];
if (ch < 1 || !IS_PRINTABLE (ch)) {
return false;
}
}
break;
case 'e': // emails
if (str && *str) {
if (!strstr (str + 1, "@")) {
return false;
}
if (!strstr (str + 1, ".")) {
return false;
}
} else {
return false;
}
break;
case 'f': // format-string
if (str && *str) {
if (!strstr (str+1, "%"))
return false;
} else return false;
break;
case 'u': // URLs
if (!strstr (str, "://")) {
return false;
}
break;
case 'i': //IPV4
{
int segment = 0;
int segmentsum = 0;
bool prevd = false;
for (i = 0; str[i]; i++) {
char ch = str[i];
if (ch >= '0' && ch <= '9') {
segmentsum = segmentsum*10 + (ch - '0');
if (segment == 3) {
return true;
}
prevd = true;
} else if (ch == '.') {
if (prevd == true && segmentsum < 256){
segment++;
segmentsum = 0;
} else {
segmentsum = 0;
segment = 0;
}
prevd = false;
} else {
segmentsum = 0;
prevd = false;
segment = 0;
}
}
return false;
}
case 'p': // path
if (str[0] != '/') {
return false;
}
break;
case '8': // utf8
for (i = 0; str[i]; i++) {
char ch = str[i];
if (ch < 0) {
return true;
}
}
return false;
}
return true;
}
static void _print_strings(RCore *r, RList *list, int mode, int va) {
int minstr = r_config_get_i (r->config, "bin.minstr");
int maxstr = r_config_get_i (r->config, "bin.maxstr");
RBin *bin = r->bin;
RListIter *iter;
RBinString *string;
RBinSection *section;
char *q;
bin->minstrlen = minstr;
bin->maxstrlen = maxstr;
if (IS_MODE_JSON (mode)) {
r_cons_printf ("[");
}
if (IS_MODE_RAD (mode)) {
r_cons_printf ("fs strings");
}
if (IS_MODE_SET (mode) && r_config_get_i (r->config, "bin.strings")) {
r_flag_space_set (r->flags, "strings");
r_cons_break_push (NULL, NULL);
}
r_list_foreach (list, iter, string) {
const char *section_name, *type_string;
ut64 paddr, vaddr, addr;
if (!string_filter (r, string->string)) {
continue;
}
paddr = string->paddr;
vaddr = r_bin_get_vaddr (bin, paddr, string->vaddr);
addr = va ? vaddr : paddr;
if (string->length < minstr) {
continue;
}
if (maxstr && string->length > maxstr) {
continue;
}
section = r_bin_get_section_at (r_bin_cur_object (bin), paddr, 0);
section_name = section ? section->name : "unknown";
type_string = r_bin_string_type (string->type);
if (IS_MODE_SET (mode)) {
char *f_name, *str;
if (r_cons_is_breaked ()) {
break;
}
r_meta_add (r->anal, R_META_TYPE_STRING, addr, addr + string->size, string->string);
f_name = strdup (string->string);
r_name_filter (f_name, -1);
if (r->bin->prefix) {
str = r_str_newf ("%s.str.%s", r->bin->prefix, f_name);
} else {
str = r_str_newf ("str.%s", f_name);
}
r_flag_set (r->flags, str, addr, string->size);
free (str);
free (f_name);
} else if (IS_MODE_SIMPLE (mode)) {
r_cons_printf ("0x%"PFMT64x" %d %d %s\n", addr, string->size, string->length, string->string);
} else if (IS_MODE_SIMPLEST (mode)) {
r_cons_println (string->string);
} else if (IS_MODE_JSON (mode)) {
q = r_base64_encode_dyn (string->string, -1);
r_cons_printf ("%s{\"vaddr\":%"PFMT64d
",\"paddr\":%"PFMT64d",\"ordinal\":%d"
",\"size\":%d,\"length\":%d,\"section\":\"%s\","
"\"type\":\"%s\",\"string\":\"%s\"}",
iter->p ? ",": "",
vaddr, paddr, string->ordinal, string->size,
string->length, section_name, type_string, q);
free (q);
} else if (IS_MODE_RAD (mode)) {
char *f_name, *str;
f_name = strdup (string->string);
r_name_filter (f_name, R_FLAG_NAME_SIZE);
if (r->bin->prefix) {
str = r_str_newf ("%s.str.%s", r->bin->prefix, f_name);
r_cons_printf ("f %s.str.%s %"PFMT64d" @ 0x%08"PFMT64x"\n"
"Cs %"PFMT64d" @ 0x%08"PFMT64x"\n",
r->bin->prefix, f_name, string->size, addr,
string->size, addr);
} else {
str = r_str_newf ("str.%s", f_name);
r_cons_printf ("f str.%s %"PFMT64d" @ 0x%08"PFMT64x"\n"
"Cs %"PFMT64d" @ 0x%08"PFMT64x"\n",
f_name, string->size, addr,
string->size, addr);
}
free (str);
free (f_name);
} else {
r_cons_printf ("vaddr=0x%08"PFMT64x" paddr=0x%08"
PFMT64x" ordinal=%03u sz=%u len=%u "
"section=%s type=%s string=%s\n",
vaddr, paddr, string->ordinal, string->size,
string->length, section_name, type_string,
string->string);
}
}
if (IS_MODE_JSON (mode)) {
r_cons_printf ("]");
}
if (IS_MODE_SET (mode)) {
r_cons_break_pop ();
}
}
static bool bin_raw_strings(RCore *r, int mode, int va) {
RBinFile *bf = r_bin_cur (r->bin);
if (!bf) {
const char *file = r->io->desc->uri;
r_sys_cmdf ("rabin2 -qzzz '%s'", file);
// eprintf ("Likely you used -nn \n");
// eprintf ("try: .!rabin2 -B <baddr> -zzr filename\n");
return false;
}
if (bf && strstr (bf->file, "malloc://")) {
//sync bf->buf to search string on it
r_io_read_at (r->io, 0, bf->buf->buf, bf->size);
}
if (!r->file) {
eprintf ("Core file not open\n");
return false;
}
RList *l = r_bin_raw_strings (bf, 0);
_print_strings (r, l, mode, va);
return true;
}
static bool bin_strings(RCore *r, int mode, int va) {
RList *list;
RBinFile *binfile = r_core_bin_cur (r);
RBinPlugin *plugin = r_bin_file_cur_plugin (binfile);
int rawstr = r_config_get_i (r->config, "bin.rawstr");
if (!binfile) {
return false;
}
if (!r_config_get_i (r->config, "bin.strings")) {
return 0;
}
if (!plugin) {
return 0;
}
if (plugin->info && plugin->name) {
if (strcmp (plugin->name, "any") == 0 && !rawstr) {
return false;
}
}
if (!(list = r_bin_get_strings (r->bin))) {
return false;
}
_print_strings (r, list, mode, va);
return true;
}
static const char* get_compile_time(Sdb *binFileSdb) {
Sdb *info_ns = sdb_ns (binFileSdb, "info", false);
const char *timeDateStamp_string = sdb_const_get (info_ns,
"image_file_header.TimeDateStamp_string", 0);
return timeDateStamp_string;
}
static int is_executable(RBinObject *obj) {
RListIter *it;
RBinSection* sec;
if (obj) {
if (obj->info && obj->info->arch) {
return true;
}
r_list_foreach (obj->sections, it, sec) {
if (R_BIN_SCN_EXECUTABLE & sec->srwx) {
return true;
}
}
}
return false;
}
#define DBSPATH R2_PREFIX "/share/radare2/" R2_VERSION "/fcnsign"
static void sdb_concat_by_path(Sdb *s, const char *path) {
Sdb *db = sdb_new (0, path, 0);
sdb_merge (s, db);
sdb_close (db);
sdb_free (db);
}
R_API void r_core_anal_type_init(RCore *core) {
Sdb *types = NULL;
const char *anal_arch = NULL, *os = NULL;
int bits = 0;
char *dbpath;
if (!core || !core->anal) {
return;
}
bits = core->assembler->bits;
types = core->anal->sdb_types;
// make sure they are empty this is initializing
sdb_reset (types);
anal_arch = r_config_get (core->config, "anal.arch");
os = r_config_get (core->config, "asm.os");
if (r_file_exists (DBSPATH"/types.sdb")) {
sdb_concat_by_path (types, DBSPATH"/types.sdb");
}
dbpath = sdb_fmt (-1, DBSPATH"/types-%s.sdb", anal_arch);
if (r_file_exists (dbpath)) {
sdb_concat_by_path (types, dbpath);
}
dbpath = sdb_fmt (-1, DBSPATH"/types-%s.sdb", os);
if (r_file_exists (dbpath)) {
sdb_concat_by_path (types, dbpath);
}
dbpath = sdb_fmt (-1, DBSPATH"/types-%d.sdb", bits);
if (r_file_exists (dbpath)) {
sdb_concat_by_path (types, dbpath);
}
dbpath = sdb_fmt (-1, DBSPATH"/types-%s-%d.sdb", os, bits);
if (r_file_exists (dbpath)) {
sdb_concat_by_path (types, dbpath);
}
dbpath = sdb_fmt (-1, DBSPATH"/types-%s-%d.sdb", anal_arch, bits);
if (r_file_exists (dbpath)) {
sdb_concat_by_path (types, dbpath);
}
dbpath = sdb_fmt (-1, DBSPATH"/types-%s-%s.sdb", anal_arch, os);
if (r_file_exists (dbpath)) {
sdb_concat_by_path (types, dbpath);
}
dbpath = sdb_fmt (-1, DBSPATH"/types-%s-%s-%d.sdb", anal_arch, os, bits);
if (r_file_exists (dbpath)) {
sdb_concat_by_path (types, dbpath);
}
}
static int save_ptr(void *p, const char *k, const char *v) {
Sdb *sdbs[2];
sdbs[0] = ((Sdb**) p)[0];
sdbs[1] = ((Sdb**) p)[1];
if (!strncmp (v, "cc", strlen ("cc") + 1)) {
const char *x = sdb_const_get (sdbs[1], sdb_fmt (-1, "cc.%s.name", k), 0);
char *tmp = sdb_fmt (-1, "0x%08"PFMT64x, (ut64)x);
sdb_set (sdbs[0], tmp, x, 0);
}
return 1;
}
R_API void r_core_anal_cc_init(RCore *core) {
Sdb *sdbs[2];
sdbs[0] = sdb_new0 ();
sdbs[1] = core->anal->sdb_cc;
//save pointers and values stored inside them
//to recover from freeing heeps
const char *defaultcc = sdb_const_get (sdbs[1], "default.cc", 0);
sdb_set (sdbs[0], sdb_fmt (-1, "0x%08"PFMT64x, defaultcc), defaultcc, 0);
sdb_foreach (core->anal->sdb_cc, save_ptr, sdbs);
sdb_reset ( core->anal->sdb_cc);
const char *anal_arch = r_config_get (core->config, "anal.arch");
int bits = core->anal->bits;
if (bits == 16 && !strcmp (anal_arch, "arm")) {
bits = 32;
}
char *dbpath = sdb_fmt (-1, DBSPATH"/cc-%s-%d.sdb", anal_arch, bits);
if (r_file_exists (dbpath)) {
sdb_concat_by_path (core->anal->sdb_cc, dbpath);
}
//restore all freed CC or replace with new default cc
RListIter *it;
RAnalFunction *fcn;
r_list_foreach (core->anal->fcns, it, fcn) {
char *ptr = sdb_fmt (-1, "0x%08"PFMT64x, (ut64)fcn->cc);
const char *cc = sdb_const_get (sdbs[0], ptr, 0);
if (cc) {
fcn->cc = r_anal_cc_to_constant (core->anal, (char *)cc);
}
if (!fcn->cc) {
fcn->cc = r_anal_cc_default (core->anal);
}
}
sdb_close (sdbs[0]);
sdb_free (sdbs[0]);
}
#undef DBSPATH
static int bin_info(RCore *r, int mode) {
int i, j, v;
char str[R_FLAG_NAME_SIZE];
char size_str[32];
char baddr_str[32];
RBinInfo *info = r_bin_get_info (r->bin);
RBinFile *binfile = r_core_bin_cur (r);
RBinObject *obj = r_bin_cur_object (r->bin);
const char *compiled = NULL;
bool havecode;
if (!binfile || !info || !obj) {
if (mode & R_CORE_BIN_JSON) {
r_cons_printf ("{}");
}
return false;
}
havecode = is_executable (obj) | (obj->entries != NULL);
compiled = get_compile_time (binfile->sdb);
snprintf (size_str, sizeof (size_str), "%"PFMT64u, r_bin_get_size (r->bin));
snprintf (baddr_str, sizeof (baddr_str), "%"PFMT64u, info->baddr);
if (IS_MODE_SET (mode)) {
r_config_set (r->config, "file.type", info->rclass);
r_config_set (r->config, "cfg.bigendian",
info->big_endian ? "true" : "false");
if (info->rclass && !strcmp (info->rclass, "fs")) {
r_config_set (r->config, "asm.arch", info->arch);
r_core_cmdf (r, "m /root %s 0", info->arch);
} else {
if (info->lang) {
r_config_set (r->config, "bin.lang", info->lang);
}
r_config_set (r->config, "asm.os", info->os);
r_config_set (r->config, "asm.arch", info->arch);
r_config_set (r->config, "anal.arch", info->arch);
snprintf (str, R_FLAG_NAME_SIZE, "%i", info->bits);
r_config_set (r->config, "asm.bits", str);
r_config_set (r->config, "asm.dwarf",
(R_BIN_DBG_STRIPPED & info->dbg_info) ? "false" : "true");
v = r_anal_archinfo (r->anal, R_ANAL_ARCHINFO_ALIGN);
if (v != -1) r_config_set_i (r->config, "asm.pcalign", v);
}
} else if (IS_MODE_SIMPLE (mode)) {
r_cons_printf ("arch %s\n", info->arch);
r_cons_printf ("bits %d\n", info->bits);
r_cons_printf ("os %s\n", info->os);
r_cons_printf ("endian %s\n", info->big_endian? "big": "little");
v = r_anal_archinfo (r->anal, R_ANAL_ARCHINFO_MIN_OP_SIZE);
if (v != -1) {
r_cons_printf ("minopsz %d\n", v);
}
v = r_anal_archinfo (r->anal, R_ANAL_ARCHINFO_MAX_OP_SIZE);
if (v != -1) {
r_cons_printf ("maxopsz %d\n", v);
}
v = r_anal_archinfo (r->anal, R_ANAL_ARCHINFO_ALIGN);
if (v != -1) {
r_cons_printf ("pcalign %d\n", v);
}
} else if (IS_MODE_RAD (mode)) {
if (info->type && !strcmp (info->type, "fs")) {
r_cons_printf ("e file.type=fs\n");
r_cons_printf ("m /root %s 0\n", info->arch);
} else {
r_cons_printf ("e cfg.bigendian=%s\n"
"e asm.bits=%i\n"
"e asm.dwarf=%s\n",
r_str_bool (info->big_endian),
info->bits,
r_str_bool (R_BIN_DBG_STRIPPED &info->dbg_info));
if (info->lang && *info->lang) {
r_cons_printf ("e bin.lang=%s\n", info->lang);
}
if (info->rclass && *info->rclass) {
r_cons_printf ("e file.type=%s\n",
info->rclass);
}
if (info->os) {
r_cons_printf ("e asm.os=%s\n", info->os);
}
if (info->arch) {
r_cons_printf ("e asm.arch=%s\n", info->arch);
}
v = r_anal_archinfo (r->anal, R_ANAL_ARCHINFO_ALIGN);
if (v != -1) r_cons_printf ("e asm.pcalign=%d\n", v);
}
} else {
// XXX: if type is 'fs' show something different?
char *tmp_buf;
if (IS_MODE_JSON (mode)) {
r_cons_printf ("{");
}
pair_bool ("havecode", havecode, mode, false);
pair_bool ("pic", info->has_pi, mode, false);
pair_bool ("canary", info->has_canary, mode, false);
pair_bool ("nx", info->has_nx, mode, false);
pair_bool ("crypto", info->has_crypto, mode, false);
pair_bool ("va", info->has_va, mode, false);
pair_str ("intrp", info->intrp, mode, false);
pair_str ("bintype", info->rclass, mode, false);
pair_str ("class", info->bclass, mode, false);
pair_str ("lang", info->lang, mode, false);
pair_str ("arch", info->arch, mode, false);
pair_int ("bits", info->bits, mode, false);
pair_str ("machine", info->machine, mode, false);
pair_str ("os", info->os, mode, false);
v = r_anal_archinfo (r->anal, R_ANAL_ARCHINFO_MIN_OP_SIZE);
if (v != -1) {
pair_int ("minopsz", v, mode, false);
}
v = r_anal_archinfo (r->anal, R_ANAL_ARCHINFO_MAX_OP_SIZE);
if (v != -1) {
pair_int ("maxopsz", v, mode, false);
}
v = r_anal_archinfo (r->anal, R_ANAL_ARCHINFO_ALIGN);
if (v != -1) {
pair_int ("pcalign", v, mode, false);
}
pair_str ("subsys", info->subsystem, mode, false);
pair_str ("endian", info->big_endian ? "big" : "little", mode, false);
pair_bool ("stripped", R_BIN_DBG_STRIPPED & info->dbg_info, mode, false);
pair_bool ("static", r_bin_is_static (r->bin), mode, false);
pair_bool ("linenum", R_BIN_DBG_LINENUMS & info->dbg_info, mode, false);
pair_bool ("lsyms", R_BIN_DBG_SYMS & info->dbg_info, mode, false);
pair_bool ("relocs", R_BIN_DBG_RELOCS & info->dbg_info, mode, false);
pair_str ("rpath", info->rpath, mode, false);
pair_str ("binsz", size_str, mode, false);
pair_str ("compiled", compiled, mode, false);
tmp_buf = r_str_escape (info->debug_file_name);
pair_str ("dbg_file", tmp_buf, mode, false);
free (tmp_buf);
if (info->claimed_checksum) {
/* checksum specified in header */
pair_str ("hdr.csum", info->claimed_checksum, mode, false);
}
if (info->actual_checksum) {
/* computed checksum */
pair_str ("cmp.csum", info->actual_checksum, mode, false);
}
for (i = 0; info->sum[i].type; i++) {
RBinHash *h = &info->sum[i];
ut64 hash = r_hash_name_to_bits (h->type);
RHash *rh = r_hash_new (true, hash);
int len = r_hash_calculate (rh, hash, (const ut8*)
binfile->buf->buf+h->from, h->to);
if (len < 1) {
eprintf ("Invaild wtf\n");
}
r_hash_free (rh);
r_cons_printf ("%s\t%d-%dc\t", h->type, h->from, h->to+h->from);
for (j = 0; j < h->len; j++) {
r_cons_printf ("%02x", h->buf[j]);
}
r_cons_newline ();
}
pair_str ("guid", info->guid, mode, true);
if (IS_MODE_JSON (mode)) r_cons_printf ("}");
}
r_core_anal_type_init (r);
r_core_anal_cc_init (r);
return true;
}
static int bin_dwarf(RCore *core, int mode) {
RBinDwarfRow *row;
RListIter *iter;
RList *list = NULL;
RBinFile *binfile = r_core_bin_cur (core);
RBinPlugin * plugin = r_bin_file_cur_plugin (binfile);
if (!binfile) {
return false;
}
if (plugin && plugin->lines) {
list = plugin->lines (binfile);
} else if (core->bin) {
// TODO: complete and speed-up support for dwarf
if (r_config_get_i (core->config, "bin.dbginfo")) {
RBinDwarfDebugAbbrev *da = NULL;
da = r_bin_dwarf_parse_abbrev (core->bin, mode);
r_bin_dwarf_parse_info (da, core->bin, mode);
r_bin_dwarf_parse_aranges (core->bin, mode);
list = r_bin_dwarf_parse_line (core->bin, mode);
r_bin_dwarf_free_debug_abbrev (da);
free (da);
}
}
if (!list) {
return false;
}
r_cons_break_push (NULL, NULL);
/* cache file:line contents */
const char *lastFile = NULL;
int *lastFileLines = NULL;
char *lastFileContents = NULL;
int lastFileLinesCount = 0;
/* ugly dupe for speedup */
const char *lastFile2 = NULL;
int *lastFileLines2 = NULL;
char *lastFileContents2 = NULL;
int lastFileLinesCount2 = 0;
const char *lf = NULL;
int *lfl = NULL;
char *lfc = NULL;
int lflc = 0;
//TODO we should need to store all this in sdb, or do a filecontentscache in libr/util
//XXX this whole thing has leaks
r_list_foreach (list, iter, row) {
if (r_cons_is_breaked ()) {
break;
}
if (mode) {
// TODO: use 'Cl' instead of CC
const char *path = row->file;
if (!lastFile || strcmp (path, lastFile)) {
if (lastFile && lastFile2 && !strcmp (path, lastFile2)) {
lf = lastFile;
lfl = lastFileLines;
lfc = lastFileContents;
lflc = lastFileLinesCount;
lastFile = lastFile2;
lastFileLines = lastFileLines2;
lastFileContents = lastFileContents2;
lastFileLinesCount = lastFileLinesCount2;
lastFile2 = lf;
lastFileLines2 = lfl;
lastFileContents2 = lfc;
lastFileLinesCount2 = lflc;
} else {
lastFile2 = lastFile;
lastFileLines2 = lastFileLines;
lastFileContents2 = lastFileContents;
lastFileLinesCount2 = lastFileLinesCount;
lastFile = path;
lastFileContents = r_file_slurp (path, NULL);
if (lastFileContents) {
lastFileLines = r_str_split_lines (lastFileContents, &lastFileLinesCount);
}
}
}
char *line = NULL;
//r_file_slurp_line (path, row->line - 1, 0);
if (lastFileLines && lastFileContents) {
int nl = row->line - 1;
if (nl >= 0 && nl < lastFileLinesCount) {
line = strdup (lastFileContents + lastFileLines[nl]);
}
} else {
line = NULL;
}
if (line) {
r_str_filter (line, strlen (line));
line = r_str_replace (line, "\"", "\\\"", 1);
line = r_str_replace (line, "\\\\", "\\", 1);
}
bool chopPath = !r_config_get_i (core->config, "dir.dwarf.abspath");
char *file = strdup (row->file);
if (chopPath) {
const char *slash = r_str_lchr (file, '/');
if (slash) {
memmove (file, slash + 1, strlen (slash));
}
}
// TODO: implement internal : if ((mode & R_CORE_BIN_SET))
if ((mode & R_CORE_BIN_SET)) {
// TODO: use CL here.. but its not necessary.. so better not do anything imho
// r_core_cmdf (core, "CL %s:%d 0x%08"PFMT64x, file, (int)row->line, row->address);
#if 0
char *cmt = r_str_newf ("%s:%d %s", file, (int)row->line, line? line: "");
r_meta_set_string (core->anal, R_META_TYPE_COMMENT, row->address, cmt);
free (cmt);
#endif
} else {
r_cons_printf ("CL %s:%d 0x%08" PFMT64x "\n",
file, (int)row->line,
row->address);
r_cons_printf ("\"CC %s:%d %s\"@0x%" PFMT64x
"\n",
file, row->line,
line ? line : "", row->address);
}
free (file);
free (line);
} else {
r_cons_printf ("0x%08" PFMT64x "\t%s\t%d\n",
row->address, row->file, row->line);
}
}
r_cons_break_pop ();
R_FREE (lastFileContents);
R_FREE (lastFileContents2);
r_list_free (list);
free (lastFileLines);
return true;
}
static int bin_pdb(RCore *core, int mode) {
R_PDB pdb = {0};
ut64 baddr = r_bin_get_baddr (core->bin);
pdb.cb_printf = r_cons_printf;
if (!init_pdb_parser (&pdb, core->bin->file)) {
return false;
}
if (!pdb.pdb_parse (&pdb)) {
eprintf ("pdb was not parsed\n");
pdb.finish_pdb_parse (&pdb);
return false;
}
if (mode == R_CORE_BIN_JSON) {
r_cons_printf("[");
}
switch (mode) {
case R_CORE_BIN_SET:
mode = 's';
r_core_cmd0 (core, ".iP*");
return true;
case R_CORE_BIN_JSON:
mode = 'j';
break;
case '*':
case 1:
mode = 'r';
break;
default:
mode = 'd'; // default
break;
}
pdb.print_types (&pdb, mode);
if (mode == 'j') {
r_cons_printf (",");
}
pdb.print_gvars (&pdb, baddr, mode);
if (mode == 'j') {
r_cons_printf ("]");
}
pdb.finish_pdb_parse (&pdb);
return true;
}
static int bin_main(RCore *r, int mode, int va) {
RBinAddr *binmain = r_bin_get_sym (r->bin, R_BIN_SYM_MAIN);
ut64 addr;
if (!binmain) {
return false;
}
addr = va ? r_bin_a2b (r->bin, binmain->vaddr) : binmain->paddr;
if (IS_MODE_SET (mode)) {
r_flag_space_set (r->flags, "symbols");
r_flag_set (r->flags, "main", addr, r->blocksize);
} else if (IS_MODE_SIMPLE (mode)) {
r_cons_printf ("%"PFMT64d, addr);
} else if (IS_MODE_RAD (mode)) {
r_cons_printf ("fs symbols\n");
r_cons_printf ("f main @ 0x%08"PFMT64x"\n", addr);
} else if (IS_MODE_JSON (mode)) {
r_cons_printf ("{\"vaddr\":%" PFMT64d
",\"paddr\":%" PFMT64d "}", addr, binmain->paddr);
} else {
r_cons_printf ("[Main]\n");
r_cons_printf ("vaddr=0x%08"PFMT64x" paddr=0x%08"PFMT64x"\n",
addr, binmain->paddr);
}
return true;
}
static int bin_entry(RCore *r, int mode, ut64 laddr, int va) {
char str[R_FLAG_NAME_SIZE];
RList *entries = r_bin_get_entries (r->bin);
RListIter *iter;
RBinAddr *entry = NULL;
int i = 0;
ut64 baddr = r_bin_get_baddr (r->bin);
if (IS_MODE_RAD (mode)) {
r_cons_printf ("fs symbols\n");
} else if (IS_MODE_JSON (mode)) {
r_cons_printf ("[");
} else if (IS_MODE_NORMAL (mode)) {
r_cons_printf ("[Entrypoints]\n");
}
r_list_foreach (entries, iter, entry) {
ut64 paddr = entry->paddr;
ut64 haddr = UT64_MAX;
if (entry->haddr) {
haddr = entry->haddr;
}
ut64 at = rva (r->bin, paddr, entry->vaddr, va);
const char *type = r_bin_entry_type_string (entry->type);
if (!type) {
type = "unknown";
}
if (IS_MODE_SET (mode)) {
r_flag_space_set (r->flags, "symbols");
snprintf (str, R_FLAG_NAME_SIZE, "entry%i", i);
r_flag_set (r->flags, str, at, 1);
} else if (IS_MODE_SIMPLE (mode)) {
r_cons_printf ("0x%08"PFMT64x"\n", at);
} else if (IS_MODE_JSON (mode)) {
r_cons_printf ("%s{\"vaddr\":%" PFMT64d ","
"\"paddr\":%" PFMT64d ","
"\"baddr\":%" PFMT64d ","
"\"laddr\":%" PFMT64d ","
"\"haddr\":%" PFMT64d ","
"\"type\":\"%s\"}",
iter->p ? "," : "", at, paddr, baddr, laddr, haddr, type);
} else if (IS_MODE_RAD (mode)) {
r_cons_printf ("f entry%i 1 @ 0x%08"PFMT64x"\n", i, at);
r_cons_printf ("f entry%i_haddr 1 @ 0x%08"PFMT64x"\n", i, haddr);
r_cons_printf ("s entry%i\n", i);
} else {
r_cons_printf (
"vaddr=0x%08"PFMT64x
" paddr=0x%08"PFMT64x
" baddr=0x%08"PFMT64x
" laddr=0x%08"PFMT64x,
at, paddr, baddr, laddr);
if (haddr == UT64_MAX) {
r_cons_printf (
" haddr=%"PFMT64d
" type=%s\n",
haddr, type);
} else {
r_cons_printf (
" haddr=0x%08"PFMT64x
" type=%s\n",
haddr, type);
}
}
i++;
}
if (IS_MODE_SET (mode)) {
if (entry) {
ut64 at = rva (r->bin, entry->paddr, entry->vaddr, va);
r_core_seek (r, at, 0);
}
} else if (IS_MODE_JSON (mode)) {
r_cons_printf ("]");
r_cons_newline ();
} else if (IS_MODE_NORMAL (mode)) {
r_cons_printf ("\n%i entrypoints\n", i);
}
return true;
}
static const char *bin_reloc_type_name(RBinReloc *reloc) {
#define CASE(T) case R_BIN_RELOC_ ## T: return reloc->additive ? "ADD_" #T : "SET_" #T
switch (reloc->type) {
CASE(8);
CASE(16);
CASE(32);
CASE(64);
}
return "UNKNOWN";
#undef CASE
}
static ut8 bin_reloc_size(RBinReloc *reloc) {
#define CASE(T) case R_BIN_RELOC_ ## T: return T / 8
switch (reloc->type) {
CASE(8);
CASE(16);
CASE(32);
CASE(64);
}
return 0;
#undef CASE
}
static char *resolveModuleOrdinal(Sdb *sdb, const char *module, int ordinal) {
Sdb *db = sdb;
char *foo = sdb_get (db, sdb_fmt (0, "%d", ordinal), 0);
return (foo && *foo) ? foo : NULL;
}
static char *get_reloc_name(RBinReloc *reloc, ut64 addr) {
char *reloc_name = NULL;
if (reloc->import && reloc->import->name) {
reloc_name = sdb_fmt (-1, "reloc.%s_%d", reloc->import->name,
(int)(addr & 0xff));
if (!reloc_name) {
return NULL;
}
r_str_replace_char (reloc_name, '$', '_');
} else if (reloc->symbol && reloc->symbol->name) {
reloc_name = sdb_fmt (-1, "reloc.%s_%d", reloc->symbol->name, (int)(addr & 0xff));
if (!reloc_name) {
return NULL;
}
r_str_replace_char (reloc_name, '$', '_');
} else if (reloc->is_ifunc) {
// addend is the function pointer for the resolving ifunc
reloc_name = sdb_fmt (-1, "reloc.ifunc_%"PFMT64x, reloc->addend);
} else {
// TODO(eddyb) implement constant relocs.
}
return reloc_name;
}
static void set_bin_relocs(RCore *r, RBinReloc *reloc, ut64 addr, Sdb **db, char **sdb_module) {
int bin_demangle = r_config_get_i (r->config, "bin.demangle");
const char *lang = r_config_get (r->config, "bin.lang");
char *reloc_name, *demname = NULL;
bool is_pe = true;
int is_sandbox = r_sandbox_enable (0);
if (reloc->import && reloc->import->name[0]) {
char str[R_FLAG_NAME_SIZE];
RFlagItem *fi;
if (is_pe && !is_sandbox && strstr (reloc->import->name, "Ordinal")) {
const char *TOKEN = ".dll_Ordinal_";
char *module = strdup (reloc->import->name);
char *import = strstr (module, TOKEN);
r_str_case (module, false);
if (import) {
char *filename = NULL;
int ordinal;
*import = 0;
import += strlen (TOKEN);
ordinal = atoi (import);
if (!*sdb_module || strcmp (module, *sdb_module)) {
sdb_free (*db);
*db = NULL;
free (*sdb_module);
*sdb_module = strdup (module);
/* always lowercase */
filename = sdb_fmt (1, "%s.sdb", module);
r_str_case (filename, false);
if (r_file_exists (filename)) {
*db = sdb_new (NULL, filename, 0);
} else {
#if __WINDOWS__
filename = sdb_fmt (1, "share/radare2/"R2_VERSION"/format/dll/%s.sdb", module);
#else
filename = sdb_fmt (1, R2_PREFIX"/share/radare2/" R2_VERSION"/format/dll/%s.sdb", module);
#endif
if (r_file_exists (filename)) {
*db = sdb_new (NULL, filename, 0);
}
}
}
if (*db) {
// ordinal-1 because we enumerate starting at 0
char *symname = resolveModuleOrdinal (*db, module, ordinal - 1);
if (symname) {
if (r->bin->prefix) {
reloc->import->name = r_str_newf
("%s.%s.%s", r->bin->prefix, module, symname);
} else {
reloc->import->name = r_str_newf
("%s.%s", module, symname);
}
}
}
}
free (module);
r_anal_hint_set_size (r->anal, reloc->vaddr, 4);
r_meta_add (r->anal, R_META_TYPE_DATA, reloc->vaddr, reloc->vaddr+4, NULL);
}
reloc_name = reloc->import->name;
if (r->bin->prefix) {
snprintf (str, R_FLAG_NAME_SIZE, "%s.reloc.%s_%d", r->bin->prefix, reloc_name, (int)(addr&0xff));
} else {
snprintf (str, R_FLAG_NAME_SIZE, "reloc.%s_%d", reloc_name, (int)(addr&0xff));
}
if (bin_demangle) {
demname = r_bin_demangle (r->bin->cur, lang, str, addr);
}
r_name_filter (str, 0);
fi = r_flag_set (r->flags, str, addr, bin_reloc_size (reloc));
if (demname) {
char *realname;
if (r->bin->prefix) {
realname = sdb_fmt (0, "%s.reloc.%s", r->bin->prefix, demname);
} else {
realname = sdb_fmt (0, "reloc.%s", demname);
}
r_flag_item_set_realname (fi, realname);
}
} else {
char *reloc_name = get_reloc_name (reloc, addr);
r_flag_set (r->flags, reloc_name, addr, bin_reloc_size (reloc));
}
}
static int bin_relocs(RCore *r, int mode, int va) {
int bin_demangle = r_config_get_i (r->config, "bin.demangle");
RList *relocs;
RListIter *iter;
RBinReloc *reloc = NULL;
Sdb *db = NULL;
char *sdb_module = NULL;
int i = 0;
va = VA_TRUE; // XXX relocs always vaddr?
//this has been created for reloc object files
relocs = r_bin_patch_relocs (r->bin);
if (!relocs) {
relocs = r_bin_get_relocs (r->bin);
if (!relocs) {
return false;
}
}
if (IS_MODE_RAD (mode)) {
r_cons_println ("fs relocs");
} else if (IS_MODE_NORMAL (mode)) {
r_cons_println ("[Relocations]");
} else if (IS_MODE_JSON (mode)) {
r_cons_print ("[");
} else if (IS_MODE_SET (mode)) {
r_flag_space_set (r->flags, "relocs");
}
RBinFile * binfile = r->bin->cur;
RBinObject *binobj = binfile ? binfile->o: NULL;
RBinInfo *info = binobj ? binobj->info: NULL;
int cdsz = info? (info->bits == 64? 8: info->bits == 32? 4: info->bits == 16 ? 4: 0): 0;
r_list_foreach (relocs, iter, reloc) {
ut64 addr = rva (r->bin, reloc->paddr, reloc->vaddr, va);
if (IS_MODE_SET (mode)) {
set_bin_relocs (r, reloc, addr, &db, &sdb_module);
if (cdsz) {
r_meta_add (r->anal, R_META_TYPE_DATA, reloc->vaddr, reloc->vaddr + cdsz, NULL);
}
} else if (IS_MODE_SIMPLE (mode)) {
r_cons_printf ("0x%08"PFMT64x" %s\n", addr, reloc->import ? reloc->import->name : "");
} else if (IS_MODE_RAD (mode)) {
char *name = reloc->import
? strdup (reloc->import->name)
: (reloc->symbol ? strdup (reloc->symbol->name) : NULL);
if (name && bin_demangle) {
char *mn = r_bin_demangle (r->bin->cur, NULL, name, addr);
if (mn) {
free (name);
name = mn;
}
}
if (name) {
r_cons_printf ("f %s%s%s @ 0x%08"PFMT64x"\n",
r->bin->prefix ? r->bin->prefix : "reloc.",
r->bin->prefix ? "." : "", name, addr);
if (cdsz) {
r_cons_printf ("f Cd %d @ 0x%08"PFMT64x"\n", cdsz, addr);
}
free (name);
}
} else if (IS_MODE_JSON (mode)) {
const char *comma = iter->p? ",":"";
const char *reloc_name = reloc->import
? sdb_fmt (0, "\"%s\"", reloc->import->name)
: reloc->symbol ? sdb_fmt (0, "\"%s\"", reloc->symbol->name) : "null";
r_cons_printf ("%s{\"name\":%s,"
"\"type\":\"%s\","
"\"vaddr\":%"PFMT64d","
"\"paddr\":%"PFMT64d","
"\"is_ifunc\":%s}",
comma, reloc_name,
bin_reloc_type_name (reloc),
reloc->vaddr, reloc->paddr,
r_str_bool (reloc->is_ifunc));
} else if (IS_MODE_NORMAL (mode)) {
char *name = reloc->import
? strdup (reloc->import->name)
: reloc->symbol
? strdup (reloc->symbol->name)
: strdup ("null");
if (bin_demangle) {
char *mn = r_bin_demangle (r->bin->cur, NULL, name, addr);
if (mn && *mn) {
free (name);
name = mn;
}
}
r_cons_printf ("vaddr=0x%08"PFMT64x" paddr=0x%08"PFMT64x" type=%s",
addr, reloc->paddr, bin_reloc_type_name (reloc));
if (reloc->import && reloc->import->name[0]) {
r_cons_printf (" %s", name);
} else if (reloc->symbol && name && name[0]) {
r_cons_printf (" %s", name);
}
free (name);
if (reloc->addend) {
if (reloc->import && reloc->addend > 0) {
r_cons_printf (" +");
}
if (reloc->addend < 0) {
r_cons_printf (" - 0x%08"PFMT64x, -reloc->addend);
} else {
r_cons_printf (" 0x%08"PFMT64x, reloc->addend);
}
}
if (reloc->is_ifunc) {
r_cons_print (" (ifunc)");
}
r_cons_newline ();
}
i++;
}
if (IS_MODE_JSON (mode)) {
r_cons_print ("]");
}
if (IS_MODE_NORMAL (mode)) {
r_cons_printf ("\n%i relocations\n", i);
}
return true;
}
#define MYDB 1
/* this is a hacky workaround that needs proper refactoring in Rbin to use Sdb */
#if MYDB
static Sdb *mydb = NULL;
static RList *osymbols = NULL;
static RBinSymbol *get_symbol(RBin *bin, RList *symbols, const char *name, ut64 addr) {
RBinSymbol *symbol, *res = NULL;
RListIter *iter;
if (mydb && symbols != osymbols) {
sdb_free (mydb);
mydb = NULL;
osymbols = symbols;
}
if (mydb) {
if (name) {
res = (RBinSymbol*)(void*)(size_t)
sdb_num_get (mydb, sdb_fmt (0, "%x", sdb_hash (name)), NULL);
} else {
res = (RBinSymbol*)(void*)(size_t)
sdb_num_get (mydb, sdb_fmt (0, "0x"PFMT64x, addr), NULL);
}
} else {
mydb = sdb_new0 ();
r_list_foreach (symbols, iter, symbol) {
/* ${name}=${ptrToSymbol} */
if (!sdb_num_add (mydb, sdb_fmt (0, "%x", sdb_hash (symbol->name)), (ut64)(size_t)symbol, 0)) {
// eprintf ("DUP (%s)\n", symbol->name);
}
/* 0x${vaddr}=${ptrToSymbol} */
if (!sdb_num_add (mydb, sdb_fmt (0, "0x"PFMT64x, symbol->vaddr), (ut64)(size_t)symbol, 0)) {
// eprintf ("DUP (%s)\n", symbol->name);
}
if (name) {
if (!res && !strcmp (symbol->name, name)) {
res = symbol;
}
} else {
if (symbol->vaddr == addr) {
res = symbol;
}
}
}
}
return res;
}
#else
static RList *osymbols = NULL;
static RBinSymbol *get_symbol(RBin *bin, RList *symbols, const char *name, ut64 addr) {
RBinSymbol *symbol;
RListIter *iter;
r_list_foreach (symbols, iter, symbol) {
if (name) {
if (!strcmp (symbol->name, name))
return symbol;
} else {
if (symbol->vaddr == addr) {
return symbol;
}
}
}
return NULL;
}
#endif
/* XXX: This is a hack to get PLT references in rabin2 -i */
/* imp. is a prefix that can be rewritten by the symbol table */
static ut64 impaddr(RBin *bin, int va, const char *name) {
char impname[512];
RList *symbols;
RBinSymbol *s;
if (!name || !*name) {
return false;
}
if (!(symbols = r_bin_get_symbols (bin))) {
return false;
}
// TODO: avoid using snprintf here
snprintf (impname, sizeof (impname), "imp.%s", name);
s = get_symbol (bin, symbols, impname, 0LL);
if (s) {
if (va) {
return r_bin_get_vaddr (bin, s->paddr, s->vaddr);
}
return s->paddr;
}
return 0LL;
}
static int bin_imports(RCore *r, int mode, int va, const char *name) {
int bin_demangle = r_config_get_i (r->config, "bin.demangle");
RBinImport *import;
RListIter *iter;
RList *imports;
char *str;
int i = 0;
imports = r_bin_get_imports (r->bin);
if (IS_MODE_JSON (mode)) {
r_cons_print ("[");
} else if (IS_MODE_RAD (mode)) {
r_cons_println ("fs imports");
} else if (IS_MODE_NORMAL (mode)) {
r_cons_println ("[Imports]");
}
r_list_foreach (imports, iter, import) {
char *symname, *escname;
ut64 addr;
if (name && strcmp (import->name, name)) {
continue;
}
symname = strdup (import->name);
addr = impaddr (r->bin, va, symname);
if (bin_demangle) {
char *dname = r_bin_demangle (r->bin->cur, NULL, symname, addr);
if (dname) {
free (symname);
symname = r_str_newf ("sym.imp.%s", dname);
free (dname);
}
}
if (r->bin->prefix) {
char *prname;
prname = r_str_newf ("%s.%s", r->bin->prefix, symname);
free (symname);
symname = prname;
}
escname = r_str_escape (symname);
if (IS_MODE_SET (mode)) {
// TODO(eddyb) symbols that are imports.
} else if (IS_MODE_SIMPLE (mode)) {
r_cons_println (escname);
} else if (IS_MODE_JSON (mode)) {
str = r_str_utf16_encode (symname, -1);
str = r_str_replace (str, "\"", "\\\"", 1);
r_cons_printf ("%s{\"ordinal\":%d,"
"\"bind\":\"%s\","
"\"type\":\"%s\",",
iter->p ? "," : "",
import->ordinal,
import->bind,
import->type);
if (import->classname && import->classname[0]) {
r_cons_printf ("\"classname\":\"%s\","
"\"descriptor\":\"%s\",",
import->classname,
import->descriptor);
}
r_cons_printf ("\"name\":\"%s\",\"plt\":%"PFMT64d"}",
str, addr);
free (str);
} else if (IS_MODE_RAD (mode)) {
// TODO(eddyb) symbols that are imports.
} else {
const char *bind = r_str_get (import->bind);
const char *type = r_str_get (import->type);
r_cons_printf ("ordinal=%03d plt=0x%08"PFMT64x" bind=%s type=%s",
import->ordinal, addr, bind, type);
if (import->classname && import->classname[0]) {
r_cons_printf (" classname=%s", import->classname);
}
r_cons_printf (" name=%s", escname);
if (import->descriptor && import->descriptor[0]) {
r_cons_printf (" descriptor=%s", import->descriptor);
}
r_cons_newline ();
}
free (symname);
free (escname);
i++;
}
if (IS_MODE_JSON (mode)) {
r_cons_print ("]");
} else if (IS_MODE_NORMAL (mode)) {
r_cons_printf ("\n%i imports\n", i);
}
#if MYDB
osymbols = NULL;
sdb_free (mydb);
mydb = NULL;
#endif
return true;
}
static const char *getPrefixFor(const char *s) {
if (s) {
if (!strcmp (s, "NOTYPE")) {
return "loc";
}
if (!strcmp (s, "OBJECT")) {
return "obj";
}
}
return "sym";
}
typedef struct {
const char *pfx; // prefix for flags
char *name; // raw symbol name
char *nameflag; // flag name for symbol
char *demname; // demangled raw symbol name
char *demflag; // flag name for demangled symbol
char *classname; // classname
char *classflag; // flag for classname
char *methname; // methods [class]::[method]
char *methflag; // methods flag sym.[class].[method]
} SymName;
static void snInit(RCore *r, SymName *sn, RBinSymbol *sym, const char *lang) {
#define MAXFLAG_LEN 128
int bin_demangle = lang != NULL;
const char *pfx;
if (!r || !sym || !sym->name) return;
pfx = getPrefixFor (sym->type);
sn->name = strdup (sym->name);
sn->nameflag = r_str_newf ("%s.%s", pfx, sym->name);
r_name_filter (sn->nameflag, MAXFLAG_LEN);
if (sym->classname && sym->classname[0]) {
sn->classname = strdup (sym->classname);
sn->classflag = r_str_newf ("sym.%s.%s", sn->classname, sn->name);
r_name_filter (sn->classflag, MAXFLAG_LEN);
sn->methname = r_str_newf ("%s::%s", sn->classname, sym->name);
sn->methflag = r_str_newf ("sym.%s.%s", sn->classname, sn->name);
r_name_filter (sn->methflag, strlen (sn->methflag));
} else {
sn->classname = NULL;
sn->classflag = NULL;
sn->methname = NULL;
sn->methflag = NULL;
}
sn->demname = NULL;
sn->demflag = NULL;
if (bin_demangle && sym->paddr) {
sn->demname = r_bin_demangle (r->bin->cur, lang, sn->name, sym->vaddr);
if (sn->demname) {
sn->demflag = r_str_newf ("%s.%s", pfx, sn->demname);
r_name_filter (sn->demflag, -1);
}
}
}
static void snFini(SymName *sn) {
R_FREE (sn->name);
R_FREE (sn->nameflag);
R_FREE (sn->demname);
R_FREE (sn->demflag);
R_FREE (sn->classname);
R_FREE (sn->classflag);
R_FREE (sn->methname);
R_FREE (sn->methflag);
}
static bool isAnExport(RBinSymbol *s) {
/* workaround for some bin plugs */
if (!strncmp (s->name, "imp.", 4)) {
return false;
}
return (s->bind && !strcmp (s->bind, "GLOBAL"));
}
static int bin_symbols_internal(RCore *r, int mode, ut64 laddr, int va, ut64 at, const char *name, bool exponly) {
RBinInfo *info = r_bin_get_info (r->bin);
RList *entries = r_bin_get_entries (r->bin);
RBinSymbol *symbol;
RBinAddr *entry;
RListIter *iter;
RList *symbols;
const char *lang;
int i = 0, is_arm, lastfs = 's',
bin_demangle = r_config_get_i (r->config, "bin.demangle");
if (!info) {
return 0;
}
is_arm = info && info->arch && !strncmp (info->arch, "arm", 3);
lang = bin_demangle ? r_config_get (r->config, "bin.lang") : NULL;
symbols = r_bin_get_symbols (r->bin);
r_space_set (&r->anal->meta_spaces, "bin");
if (IS_MODE_JSON (mode)) {
r_cons_printf ("[");
} else if (IS_MODE_SET (mode)) {
r_flag_space_set (r->flags, "symbols");
} else if (!at && exponly) {
if (IS_MODE_RAD (mode)) {
r_cons_printf ("fs exports\n");
} else if (IS_MODE_NORMAL (mode)) {
r_cons_printf ("[Exports]\n");
}
} else if (!at && !exponly) {
if (IS_MODE_RAD (mode)) {
r_cons_printf ("fs symbols\n");
} else if (IS_MODE_NORMAL (mode)) {
r_cons_printf ("[Symbols]\n");
}
}
r_list_foreach (symbols, iter, symbol) {
ut64 addr = rva (r->bin, symbol->paddr, symbol->vaddr, va);
SymName sn;
if (exponly && !isAnExport (symbol)) {
continue;
}
if (name && strcmp (symbol->name, name)) {
continue;
}
if (at && (!symbol->size || !is_in_range (at, addr, symbol->size))) {
continue;
}
snInit (r, &sn, symbol, lang);
if (IS_MODE_SET (mode)) {
if (is_arm && info->bits < 33) { // 16 or 32
int force_bits = 0;
if (symbol->paddr & 1 || symbol->bits == 16) {
force_bits = 16;
} else if (info->bits == 16 && symbol->bits == 32) {
force_bits = 32;
} else if (!(symbol->paddr & 1) && symbol->bits == 32) {
force_bits = 32;
}
if (force_bits) {
r_anal_hint_set_bits (r->anal, addr, force_bits);
}
}
if (!strncmp (symbol->name, "imp.", 4)) {
if (lastfs != 'i') {
r_flag_space_set (r->flags, "imports");
}
lastfs = 'i';
} else {
if (lastfs != 's') {
r_flag_space_set (r->flags, "symbols");
}
lastfs = 's';
}
/* If that's a Classed symbol (method or so) */
if (sn.classname) {
RFlagItem *fi = NULL;
char *comment = NULL;
fi = r_flag_get (r->flags, sn.methflag);
if (r->bin->prefix) {
char *prname;
prname = r_str_newf ("%s.%s", r->bin->prefix, sn.methflag);
r_name_filter (sn.methflag, -1);
free (sn.methflag);
sn.methflag = prname;
}
if (fi) {
r_flag_item_set_realname (fi, sn.methname);
if ((fi->offset - r->flags->base) == addr) {
comment = fi->comment ? strdup (fi->comment) : NULL;
r_flag_unset (r->flags, fi);
fi = NULL;
}
} else {
fi = r_flag_set (r->flags, sn.methflag, addr, symbol->size);
comment = fi->comment ? strdup (fi->comment) : NULL;
if (comment) {
r_flag_item_set_comment (fi, comment);
R_FREE (comment);
}
}
} else {
const char *fn, *n;
RFlagItem *fi;
n = sn.demname ? sn.demname : sn.name;
fn = sn.demflag ? sn.demflag : sn.nameflag;
char *fnp = (r->bin->prefix) ?
r_str_newf ("%s.%s", r->bin->prefix, fn):
strdup (fn);
fi = r_flag_set (r->flags, fnp, addr, symbol->size);
if (fi) {
r_flag_item_set_realname (fi, n);
} else {
if (fn) {
eprintf ("[Warning] Can't find flag (%s)\n", fn);
}
}
free (fnp);
}
if (sn.demname) {
r_meta_add (r->anal, R_META_TYPE_COMMENT,
addr, symbol->size, sn.demname);
}
} else if (IS_MODE_JSON (mode)) {
char *str = r_str_utf16_encode (symbol->name, -1);
str = r_str_replace (str, "\"", "\\\"", 1);
r_cons_printf ("%s{\"name\":\"%s\","
"\"demname\":\"%s\","
"\"flagname\":\"%s\","
"\"size\":%d,"
"\"type\":\"%s\","
"\"vaddr\":%"PFMT64d","
"\"paddr\":%"PFMT64d"}",
iter->p?",":"", str,
sn.demname? sn.demname: "",
sn.nameflag,
(int)symbol->size,
symbol->type,
(ut64)addr, (ut64)symbol->paddr);
free (str);
} else if (IS_MODE_SIMPLE (mode)) {
const char *name = sn.demname? sn.demname: symbol->name;
r_cons_printf ("0x%08"PFMT64x" %d %s\n",
addr, (int)symbol->size, name);
} else if (IS_MODE_RAD (mode)) {
RBinFile *binfile;
RBinPlugin *plugin;
char *name = strdup (sn.demname? sn.demname: symbol->name);
r_name_filter (name, -1);
if (!strncmp (name, "imp.", 4)) {
if (lastfs != 'i')
r_cons_printf ("fs imports\n");
lastfs = 'i';
} else {
if (lastfs != 's') {
r_cons_printf ("fs %s\n",
exponly? "exports": "symbols");
}
lastfs = 's';
}
if (r->bin->prefix) {
r_cons_printf ("f %s.sym.%s %u 0x%08"PFMT64x"\n",
r->bin->prefix, name, symbol->size, addr);
} else {
r_cons_printf ("f sym.%s %u 0x%08"PFMT64x"\n",
name, symbol->size, addr);
}
binfile = r_core_bin_cur (r);
plugin = r_bin_file_cur_plugin (binfile);
if (plugin && plugin->name) {
if (!strncmp (plugin->name, "pe", 2)) {
char *p, *module = strdup (symbol->name);
p = strstr (module, ".dll_");
if (p) {
const char *symname = p + 5;
*p = 0;
if (r->bin->prefix) {
r_cons_printf ("k bin/pe/%s/%d=%s.%s\n",
module, symbol->ordinal, r->bin->prefix, symname);
} else {
r_cons_printf ("k bin/pe/%s/%d=%s\n",
module, symbol->ordinal, symname);
}
}
free (module);
}
}
} else {
const char *bind = symbol->bind;
const char *type = symbol->type;
const char *name = sn.demname? sn.demname: symbol->name;
const char *fwd = symbol->forwarder;
if (!bind) bind = "";
if (!type) type = "";
if (!fwd) fwd = "";
r_cons_printf ("vaddr=0x%08"PFMT64x" paddr=0x%08"PFMT64x" ord=%03u "
"fwd=%s sz=%u bind=%s type=%s name=%s\n",
addr, symbol->paddr, symbol->ordinal, fwd,
symbol->size, bind, type, name);
}
snFini (&sn);
i++;
}
//handle thumb and arm for entry point since they are not present in symbols
if (is_arm) {
r_list_foreach (entries, iter, entry) {
if (IS_MODE_SET (mode)) {
if (info->bits < 33) { // 16 or 32
int force_bits = 0;
ut64 addr = rva (r->bin, entry->paddr, entry->vaddr, va);
if (entry->paddr & 1 || entry->bits == 16) {
force_bits = 16;
} else if (info->bits == 16 && entry->bits == 32) {
force_bits = 32;
} else if (!(entry->paddr & 1)) {
force_bits = 32;
}
if (force_bits) {
r_anal_hint_set_bits (r->anal, addr, force_bits);
}
}
}
}
}
if (IS_MODE_JSON (mode)) r_cons_printf ("]");
if (IS_MODE_NORMAL (mode) && !at) {
r_cons_printf ("\n%i %s\n", i, exponly ? "exports" : "symbols");
}
r_space_set (&r->anal->meta_spaces, NULL);
return true;
}
static int bin_exports(RCore *r, int mode, ut64 laddr, int va, ut64 at, const char *name) {
return bin_symbols_internal (r, mode, laddr, va, at, name, true);
}
static int bin_symbols(RCore *r, int mode, ut64 laddr, int va, ut64 at, const char *name) {
return bin_symbols_internal (r, mode, laddr, va, at, name, false);
}
static char *build_hash_string(int mode, const char *chksum, ut8 *data, ut32 datalen) {
char *chkstr = NULL, *aux, *ret = NULL;
const char *ptr = chksum;
char tmp[128];
int i;
do {
for (i = 0; *ptr && *ptr != ',' && i < sizeof (tmp) -1; i++) {
tmp[i] = *ptr++;
}
tmp[i] = '\0';
chkstr = r_hash_to_string (NULL, tmp, data, datalen);
if (!chkstr) {
if (*ptr && *ptr == ',') {
ptr++;
}
continue;
}
if (IS_MODE_SIMPLE (mode)) {
aux = r_str_newf ("%s ", chkstr);
} else if (IS_MODE_JSON (mode)) {
aux = r_str_newf ("\"%s\":\"%s\",", tmp, chkstr);
} else {
aux = r_str_newf ("%s=%s ", tmp, chkstr);
}
ret = r_str_concat (ret, aux);
free (chkstr);
free (aux);
if (*ptr && *ptr == ',') ptr++;
} while (*ptr);
return ret;
}
static int bin_sections(RCore *r, int mode, ut64 laddr, int va, ut64 at, const char *name, const char *chksum) {
char str[R_FLAG_NAME_SIZE];
RBinSection *section;
RBinInfo *info = NULL;
RList *sections;
RListIter *iter;
int i = 0;
int fd = -1;
sections = r_bin_get_sections (r->bin);
if (IS_MODE_JSON (mode)) r_cons_printf ("[");
else if (IS_MODE_RAD (mode) && !at) r_cons_printf ("fs sections\n");
else if (IS_MODE_NORMAL (mode) && !at) r_cons_printf ("[Sections]\n");
else if (IS_MODE_SET (mode)) {
fd = r_core_file_cur_fd (r);
r_flag_space_set (r->flags, "sections");
}
r_list_foreach (sections, iter, section) {
char perms[] = "-----";
int va_sect = va;
ut64 addr;
if (va && !(section->srwx & R_BIN_SCN_READABLE)) {
va_sect = VA_NOREBASE;
}
addr = rva (r->bin, section->paddr, section->vaddr, va_sect);
if (name && strcmp (section->name, name)) {
continue;
}
r_name_filter (section->name, sizeof (section->name));
if (at && (!section->size || !is_in_range (at, addr, section->size))) {
continue;
}
if (section->srwx & R_BIN_SCN_MAP) perms[0] = 'm';
if (section->srwx & R_BIN_SCN_SHAREABLE) perms[1] = 's';
if (section->srwx & R_BIN_SCN_READABLE) perms[2] = 'r';
if (section->srwx & R_BIN_SCN_WRITABLE) perms[3] = 'w';
if (section->srwx & R_BIN_SCN_EXECUTABLE) perms[4] = 'x';
if (IS_MODE_SET (mode)) {
#if LOAD_BSS_MALLOC
if (!strcmp (section->name, ".bss")) {
// check if there's already a file opened there
int loaded = 0;
RListIter *iter;
RIOMap *m;
r_list_foreach (r->io->maps, iter, m) {
if (m->from == addr) {
loaded = 1;
}
}
if (!loaded) {
r_core_cmdf (r, "on malloc://%d 0x%"PFMT64x" # bss\n",
section->vsize, addr);
}
}
#endif
r_name_filter (section->name, 128);
if (section->format) {
r_core_cmdf (r, "%s @ 0x%"PFMT64x, section->format, section->vaddr);
}
if (r->bin->prefix) {
snprintf (str, sizeof(str)-1, "%s.section.%s",
r->bin->prefix, section->name);
} else {
snprintf (str, sizeof(str)-1, "section.%s", section->name);
}
r_flag_set (r->flags, str, addr, section->size);
if (r->bin->prefix) {
snprintf (str, sizeof(str) - 1, "%s.section_end.%s",
r->bin->prefix, section->name);
} else {
snprintf (str, sizeof(str) - 1, "section_end.%s", section->name);
}
r_flag_set (r->flags, str, addr + section->size, 0);
if (section->arch || section->bits) {
const char *arch = section->arch;
int bits = section->bits;
if (info) {
if (!arch) {
arch = info->arch;
}
if (!bits) {
bits = info->bits;
}
}
//r_io_section_set_archbits (r->io, addr, arch, bits);
}
if (r->bin->prefix) {
snprintf (str, sizeof (str)-1, "[%i] va=0x%08"PFMT64x" pa=0x%08"
PFMT64x" sz=%" PFMT64d" vsz=%"PFMT64d" rwx=%s %s.%s",
i, addr, section->paddr, section->size, section->vsize,
perms, r->bin->prefix, section->name);
} else {
snprintf (str, sizeof (str)-1, "[%i] va=0x%08"PFMT64x" pa=0x%08"
PFMT64x" sz=%" PFMT64d" vsz=%"PFMT64d" rwx=%s %s",
i, addr, section->paddr, section->size, section->vsize,
perms, section->name);
}
r_meta_add (r->anal, R_META_TYPE_COMMENT, addr, addr, str);
if (section->add) {
r_io_section_add (r->io, section->paddr, addr,
section->size, section->vsize,
section->srwx, section->name,
0, fd);
}
} else if (IS_MODE_SIMPLE (mode)) {
char *hashstr = NULL;
if (chksum) {
ut8 *data = malloc (section->size);
if (!data) {
return false;
}
ut32 datalen = section->size;
r_io_pread (r->io, section->paddr, data, datalen);
hashstr = build_hash_string (mode, chksum,
data, datalen);
free (data);
}
r_cons_printf ("0x%"PFMT64x" 0x%"PFMT64x" %s %s%s%s\n",
addr, addr + section->size,
perms,
hashstr ? hashstr : "", hashstr ? " " : "",
section->name
);
free (hashstr);
} else if (IS_MODE_JSON (mode)) {
char *hashstr = NULL;
if (chksum) {
ut8 *data = malloc (section->size);
if (!data) {
return false;
}
ut32 datalen = section->size;
r_io_pread (r->io, section->paddr, data, datalen);
hashstr = build_hash_string (mode, chksum,
data, datalen);
free (data);
}
r_cons_printf ("%s{\"name\":\"%s\","
"\"size\":%"PFMT64d","
"\"vsize\":%"PFMT64d","
"\"flags\":\"%s\","
"%s"
"\"paddr\":%"PFMT64d","
"\"vaddr\":%"PFMT64d"}",
iter->p?",":"",
section->name,
section->size,
section->vsize,
perms,
hashstr ? hashstr : "",
section->paddr,
addr);
free (hashstr);
} else if (IS_MODE_RAD (mode)) {
if (!strcmp (section->name, ".bss")) {
r_cons_printf ("on malloc://%d 0x%"PFMT64x" # bss\n",
section->vsize, addr);
}
if (r->bin->prefix) {
r_cons_printf ("S 0x%08"PFMT64x" 0x%08"PFMT64x" 0x%08"PFMT64x" 0x%08"PFMT64x" %s.%s %d\n",
section->paddr, addr, section->size, section->vsize,
r->bin->prefix, section->name, (int)section->srwx);
} else {
r_cons_printf ("S 0x%08"PFMT64x" 0x%08"PFMT64x" 0x%08"PFMT64x" 0x%08"PFMT64x" %s %d\n",
section->paddr, addr, section->size, section->vsize,
section->name, (int)section->srwx);
}
if (section->arch || section->bits) {
const char *arch = section->arch;
int bits = section->bits;
if (info) {
if (!arch) arch = info->arch;
if (!bits) bits = info->bits;
}
r_cons_printf ("Sa %s %d @ 0x%08"
PFMT64x"\n", arch, bits, addr);
}
if (r->bin->prefix) {
r_cons_printf ("f %s.section.%s %"PFMT64d" 0x%08"PFMT64x"\n",
r->bin->prefix, section->name, section->size, addr);
r_cons_printf ("f %s.section_end.%s 1 0x%08"PFMT64x"\n",
r->bin->prefix, section->name, addr + section->size);
r_cons_printf ("CC [%02i] va=0x%08"PFMT64x" pa=0x%08"PFMT64x" sz=%"PFMT64d" vsz=%"PFMT64d" "
"rwx=%s %s.%s @ 0x%08"PFMT64x"\n",
i, addr, section->paddr, section->size, section->vsize,
perms, r->bin->prefix, section->name, addr);
} else {
r_cons_printf ("f section.%s %"PFMT64d" 0x%08"PFMT64x"\n",
section->name, section->size, addr);
r_cons_printf ("f section_end.%s 1 0x%08"PFMT64x"\n",
section->name, addr + section->size);
r_cons_printf ("CC [%02i] va=0x%08"PFMT64x" pa=0x%08"PFMT64x" sz=%"PFMT64d" vsz=%"PFMT64d" "
"rwx=%s %s @ 0x%08"PFMT64x"\n",
i, addr, section->paddr, section->size, section->vsize,
perms, section->name, addr);
}
} else {
char *hashstr = NULL, str[128];
if (chksum) {
ut8 *data = malloc (section->size);
if (!data) return false;
ut32 datalen = section->size;
// VA READ IS BROKEN?
r_io_pread (r->io, section->paddr, data, datalen);
hashstr = build_hash_string (mode, chksum,
data, datalen);
free (data);
}
if (section->arch || section->bits) {
const char *arch = section->arch;
int bits = section->bits;
if (!arch && info) {
arch = info->arch;
if (!arch) {
arch = r_config_get (r->config, "asm.arch");
}
}
if (!bits) {
bits = info->bits;
}
snprintf (str, sizeof (str), "arch=%s bits=%d ",
r_str_get2 (arch), bits);
} else {
str[0] = 0;
}
if (r->bin->prefix) {
r_cons_printf ("idx=%02i vaddr=0x%08"PFMT64x" paddr=0x%08"PFMT64x" sz=%"PFMT64d" vsz=%"PFMT64d" "
"perm=%s %s%sname=%s.%s\n",
i, addr, section->paddr, section->size, section->vsize,
perms, str, hashstr ?hashstr : "", r->bin->prefix, section->name);
} else {
r_cons_printf ("idx=%02i vaddr=0x%08"PFMT64x" paddr=0x%08"PFMT64x" sz=%"PFMT64d" vsz=%"PFMT64d" "
"perm=%s %s%sname=%s\n",
i, addr, section->paddr, section->size, section->vsize,
perms, str, hashstr ?hashstr : "", section->name);
}
free (hashstr);
}
i++;
}
if (IS_MODE_JSON (mode)) {
r_cons_println ("]");
} else if (IS_MODE_NORMAL (mode) && !at) {
r_cons_printf ("\n%i sections\n", i);
}
return true;
}
static int bin_fields(RCore *r, int mode, int va) {
RList *fields;
RListIter *iter;
RBinField *field;
int i = 0;
RBin *bin = r->bin;
RBinFile *binfile = r_core_bin_cur (r);
ut64 size = binfile ? binfile->size : UT64_MAX;
ut64 baddr = r_bin_get_baddr (r->bin);
if (!(fields = r_bin_get_fields (bin))) {
return false;
}
if (IS_MODE_JSON (mode)) {
r_cons_print ("[");
} else if (IS_MODE_RAD (mode)) {
r_cons_println ("fs header");
} else if (IS_MODE_NORMAL (mode)) {
r_cons_println ("[Header fields]");
}
//why this? there is an overlap in bin_sections with ehdr
//because there can't be two sections with the same name
#if 0
else if (IS_MODE_SET (mode)) {
// XXX: Need more flags??
// this will be set even if the binary does not have an ehdr
int fd = r_core_file_cur_fd(r);
r_io_section_add (r->io, 0, baddr, size, size, 7, "ehdr", 0, fd);
}
#endif
r_list_foreach (fields, iter, field) {
ut64 addr = rva (bin, field->paddr, field->vaddr, va);
if (IS_MODE_RAD (mode)) {
r_name_filter (field->name, -1);
r_cons_printf ("f header.%s @ 0x%08"PFMT64x"\n", field->name, addr);
r_cons_printf ("[%02i] vaddr=0x%08"PFMT64x" paddr=0x%08"PFMT64x" name=%s\n",
i, addr, field->paddr, field->name);
} else if (IS_MODE_JSON (mode)) {
r_cons_printf ("%s{\"name\":\"%s\","
"\"paddr\":%"PFMT64d"}",
iter->p?",":"",
field->name, addr);
} else if (IS_MODE_NORMAL (mode)) {
r_cons_printf ("idx=%02i vaddr=0x%08"PFMT64x" paddr=0x%08"PFMT64x" name=%s\n",
i, addr, field->paddr, field->name);
}
i++;
}
if (IS_MODE_JSON (mode)) {
r_cons_printf ("]");
} else if (IS_MODE_RAD (mode)) {
/* add program header section */
r_cons_printf ("S 0 0x%"PFMT64x" 0x%"PFMT64x" 0x%"PFMT64x" ehdr rwx\n",
baddr, size, size);
} else if (IS_MODE_NORMAL (mode)) {
r_cons_printf ("\n%i fields\n", i);
}
return true;
}
static bool flag_exists(RFlag *f, char* name) {
RListIter *iter;
RFlagItem *flag;
char *sym_name = NULL;
r_list_foreach (f->flags, iter, flag) {
sym_name = r_str_newf ("sym.%s", name);
if (!strncmp (flag->name, sym_name,
R_MIN (strlen (flag->name), strlen (sym_name)))) {
free (sym_name);
return true;
}
free (sym_name);
}
return false;
}
static int bin_classes(RCore *r, int mode) {
RListIter *iter, *iter2;
RBinSymbol *sym;
RBinClass *c;
char *name;
RList *cs = r_bin_get_classes (r->bin);
if (!cs) {
return false;
}
// XXX: support for classes is broken and needs more love
if (IS_MODE_JSON (mode)) {
r_cons_print ("[");
} else if (IS_MODE_SET (mode)) {
if (!r_config_get_i (r->config, "bin.classes")) {
return false;
}
r_flag_space_set (r->flags, "classes");
} else if (IS_MODE_RAD (mode)) {
r_cons_println ("fs classes");
}
bool mergeflags = r_config_get_i (r->config, "bin.mergeflags");
r_list_foreach (cs, iter, c) {
if (!c || !c->name || !c->name[0]) {
continue;
}
name = strdup (c->name);
r_name_filter (name, 0);
if (IS_MODE_SET (mode)) {
const char *classname = sdb_fmt (0, "class.%s", name);
r_flag_set (r->flags, classname, c->addr, 1);
r_list_foreach (c->methods, iter2, sym) {
if (!mergeflags && !flag_exists (r->flags, sym->name)) {
char *method = sdb_fmt (1, "method.%s.%s", c->name, sym->name);
r_name_filter (method, -1);
r_flag_set (r->flags, method, sym->vaddr, 1);
}
}
} else if (IS_MODE_SIMPLE (mode)) {
r_cons_printf ("0x%08"PFMT64x" %s%s%s\n",
c->addr, c->name, c->super ? " " : "",
c->super ? c->super : "");
} else if (IS_MODE_RAD (mode)) {
r_cons_printf ("f class.%s = 0x%"PFMT64x"\n",
name, c->addr);
if (c->super) {
r_cons_printf ("f super.%s.%s = %d\n",
c->name, c->super, c->index);
}
r_list_foreach (c->methods, iter2, sym) {
r_cons_printf ("f method.%s.%s = 0x%"PFMT64x"\n",
c->name, sym->name, sym->vaddr);
}
} else if (IS_MODE_JSON (mode)) {
if (c->super) {
r_cons_printf ("%s{\"classname\":\"%s\",\"addr\":%"PFMT64d",\"index\":%"PFMT64d",\"super\":\"%s\",\"methods\":[",
iter->p ? "," : "", c->name, c->addr,
c->index, c->super);
} else {
r_cons_printf ("%s{\"classname\":\"%s\",\"addr\":%"PFMT64d",\"index\":%"PFMT64d",\"methods\":[",
iter->p ? "," : "", c->name, c->addr,
c->index);
}
r_list_foreach (c->methods, iter2, sym) {
r_cons_printf ("%s{\"name\":\"%s\",\"static\":%s,\"addr\":%"PFMT64d"}",
iter2->p? ",": "", sym->name, (sym->bind && strcmp (sym->bind, "METH"))? "true": "false", sym->vaddr);
}
r_cons_printf ("]}");
} else {
int m = 0;
r_cons_printf ("0x%08"PFMT64x" class %d %s",
c->addr, c->index, c->name);
if (c->super) {
r_cons_printf (" super: %s\n", c->super);
} else {
r_cons_newline ();
}
r_list_foreach (c->methods, iter2, sym) {
r_cons_printf ("0x%08"PFMT64x" method %d %s\n",
sym->vaddr, m, sym->name);
m++;
}
}
free (name);
}
if (IS_MODE_JSON (mode)) {
r_cons_print ("]");
}
return true;
}
static int bin_size(RCore *r, int mode) {
ut64 size = r_bin_get_size (r->bin);
if (IS_MODE_SIMPLE (mode) || IS_MODE_JSON (mode)) {
r_cons_printf ("%"PFMT64u"\n", size);
} else if (IS_MODE_RAD (mode)) {
r_cons_printf ("f bin_size @ %"PFMT64u"\n", size);
} else if (IS_MODE_SET (mode)) {
r_core_cmdf (r, "f bin_size @ %"PFMT64u"\n", size);
} else {
r_cons_printf ("%"PFMT64u"\n", size);
}
return true;
}
static int bin_libs(RCore *r, int mode) {
RList *libs;
RListIter *iter;
char* lib;
int i = 0;
if (!(libs = r_bin_get_libs (r->bin))) {
return false;
}
if (IS_MODE_JSON (mode)) {
r_cons_print ("[");
} else if (IS_MODE_NORMAL (mode)) {
r_cons_println ("[Linked libraries]");
}
r_list_foreach (libs, iter, lib) {
if (IS_MODE_SET (mode)) {
// Nothing to set.
// TODO: load libraries with iomaps?
} else if (IS_MODE_RAD (mode)) {
r_cons_printf ("CCa entry0 %s\n", lib);
} else if (IS_MODE_JSON (mode)) {
r_cons_printf ("%s\"%s\"", iter->p ? "," : "", lib);
} else {
// simple and normal print mode
r_cons_println (lib);
}
i++;
}
if (IS_MODE_JSON (mode)) {
r_cons_print ("]");
} else if (IS_MODE_NORMAL (mode)) {
if (i == 1) {
r_cons_printf ("\n%i library\n", i);
} else {
r_cons_printf ("\n%i libraries\n", i);
}
}
return true;
}
static void bin_mem_print(RList *mems, int perms, int depth, int mode) {
RBinMem *mem;
RListIter *iter;
if (!mems) {
return;
}
r_list_foreach (mems, iter, mem) {
if (IS_MODE_JSON (mode)) {
r_cons_printf ("{\"name\":\"%s\",\"size\":%d,\"address\":%d,"
"\"flags\":\"%s\"}", mem->name, mem->size,
mem->addr, r_str_rwx_i (mem->perms & perms));
} else if (IS_MODE_SIMPLE (mode)) {
r_cons_printf ("0x%08"PFMT64x"\n", mem->addr);
} else {
r_cons_printf ("0x%08"PFMT64x" +0x%04x %s %*s%-*s\n",
mem->addr, mem->size, r_str_rwx_i (mem->perms & perms),
depth, "", 20-depth, mem->name);
}
if (mem->mirrors) {
if (IS_MODE_JSON (mode)) {
r_cons_printf (",");
}
bin_mem_print (mem->mirrors, mem->perms & perms, depth + 1, mode);
}
if (IS_MODE_JSON(mode)) {
if (iter->n) {
r_cons_printf (",");
}
}
}
}
static int bin_mem(RCore *r, int mode) {
RList *mem = NULL;
if (!r) return false;
if (!IS_MODE_JSON(mode)) {
if (!(IS_MODE_RAD (mode) || IS_MODE_SET (mode))) {
r_cons_println ("[Memory]\n");
}
}
if (!(mem = r_bin_get_mem (r->bin))) {
return false;
}
if (IS_MODE_JSON (mode)) {
r_cons_print ("[");
bin_mem_print (mem, 7, 0, R_CORE_BIN_JSON);
r_cons_println ("]");
return true;
} else if (!(IS_MODE_RAD (mode) || IS_MODE_SET (mode))) {
bin_mem_print (mem, 7, 0, mode);
}
return true;
}
static void bin_pe_versioninfo(RCore *r) {
Sdb *sdb = NULL;
int num_version = 0;
int num_stringtable = 0;
int num_string = 0;
const char *format_version = "bin/cur/info/vs_version_info/VS_VERSIONINFO%d";
const char *format_stringtable = "%s/string_file_info/stringtable%d";
const char *format_string = "%s/string%d";
r_cons_printf ("=== VS_VERSIONINFO ===\n\n");
do {
char path_version[256] = {0};
snprintf (path_version, sizeof (path_version), format_version, num_version);
if (!(sdb = sdb_ns_path (r->sdb, path_version, 0)))
break;
r_cons_printf ("# VS_FIXEDFILEINFO\n\n");
char path_fixedfileinfo[256] = {0};
snprintf (path_fixedfileinfo, sizeof (path_fixedfileinfo), "%s/fixed_file_info", path_version);
if (!(sdb = sdb_ns_path (r->sdb, path_fixedfileinfo, 0)))
break;
r_cons_printf (" Signature: 0x%"PFMT64x"\n", sdb_num_get (sdb, "Signature", 0));
r_cons_printf (" StrucVersion: 0x%"PFMT64x"\n", sdb_num_get (sdb, "StrucVersion", 0));
r_cons_printf (" FileVersion: %"PFMT64d".%"PFMT64d".%"PFMT64d".%"PFMT64d"\n",
sdb_num_get (sdb, "FileVersionMS", 0) >> 16,
sdb_num_get (sdb, "FileVersionMS", 0) & 0xFFFF,
sdb_num_get (sdb, "FileVersionLS", 0) >> 16,
sdb_num_get (sdb, "FileVersionLS", 0) & 0xFFFF);
r_cons_printf (" ProductVersion: %"PFMT64d".%"PFMT64d".%"PFMT64d".%"PFMT64d"\n",
sdb_num_get (sdb, "ProductVersionMS", 0) >> 16,
sdb_num_get (sdb, "ProductVersionMS", 0) & 0xFFFF,
sdb_num_get (sdb, "ProductVersionLS", 0) >> 16,
sdb_num_get (sdb, "ProductVersionLS", 0) & 0xFFFF);
r_cons_printf (" FileFlagsMask: 0x%"PFMT64x"\n", sdb_num_get (sdb, "FileFlagsMask", 0));
r_cons_printf (" FileFlags: 0x%"PFMT64x"\n", sdb_num_get (sdb, "FileFlags", 0));
r_cons_printf (" FileOS: 0x%"PFMT64x"\n", sdb_num_get (sdb, "FileOS", 0));
r_cons_printf (" FileType: 0x%"PFMT64x"\n", sdb_num_get (sdb, "FileType", 0));
r_cons_printf (" FileSubType: 0x%"PFMT64x"\n", sdb_num_get (sdb, "FileSubType", 0));
#if 0
r_cons_printf (" FileDate: %d.%d.%d.%d\n",
sdb_num_get (sdb, "FileDateMS", 0) >> 16,
sdb_num_get (sdb, "FileDateMS", 0) & 0xFFFF,
sdb_num_get (sdb, "FileDateLS", 0) >> 16,
sdb_num_get (sdb, "FileDateLS", 0) & 0xFFFF);
#endif
r_cons_newline ();
r_cons_println ("# StringTable\n");
for (num_stringtable = 0; sdb; ++num_stringtable) {
char path_stringtable[256] = {0};
snprintf (path_stringtable, sizeof (path_stringtable), format_stringtable, path_version, num_stringtable);
sdb = sdb_ns_path (r->sdb, path_stringtable, 0);
for (num_string = 0; sdb; ++num_string) {
char path_string[256] = {0};
snprintf (path_string, sizeof (path_string), format_string, path_stringtable, num_string);
sdb = sdb_ns_path (r->sdb, path_string, 0);
if (sdb) {
int lenkey = 0;
int lenval = 0;
ut8 *key_utf16 = sdb_decode (sdb_const_get (sdb, "key", 0), &lenkey);
ut8 *val_utf16 = sdb_decode (sdb_const_get (sdb, "value", 0), &lenval);
ut8 *key_utf8 = calloc (lenkey * 2, 1);
ut8 *val_utf8 = calloc (lenval * 2, 1);
if (r_str_utf16_to_utf8 (key_utf8, lenkey * 2, key_utf16, lenkey, true) < 0
|| r_str_utf16_to_utf8 (val_utf8, lenval * 2, val_utf16, lenval, true) < 0) {
eprintf ("Warning: Cannot decode utf16 to utf8\n");
} else {
r_cons_printf (" %s: %s\n", (char*)key_utf8, (char*)val_utf8);
}
free (key_utf8);
free (val_utf8);
free (key_utf16);
free (val_utf16);
}
}
}
++num_version;
} while (sdb);
}
static void bin_elf_versioninfo(RCore *r) {
const char *format = "bin/cur/info/versioninfo/%s%d";
char path[256] = {0};
int num_versym = 0;
int num_verneed = 0;
int num_entry = 0;
Sdb *sdb = NULL;
do {
snprintf (path, sizeof (path), format, "versym", num_versym++);
if (!(sdb = sdb_ns_path (r->sdb, path, 0))) {
break;
}
ut64 addr = sdb_num_get (sdb, "addr", 0);
ut64 offset = sdb_num_get (sdb, "offset", 0);
ut64 link = sdb_num_get (sdb, "link", 0);
ut64 num_entries = sdb_num_get (sdb, "num_entries", 0);
const char *section_name = sdb_const_get (sdb, "section_name", 0);
const char *link_section_name = sdb_const_get (sdb, "link_section_name", 0);
r_cons_printf ("Version symbols section '%s' contains %"PFMT64u" entries:\n", section_name, num_entries);
r_cons_printf (" Addr: 0x%08"PFMT64x" Offset: 0x%08"PFMT64x" Link: %x (%s)\n",
(ut64)addr, (ut64)offset, (ut32)link, link_section_name);
do {
int num_val = 0;
char path_entry[256] = {0};
snprintf (path_entry, sizeof (path_entry), "%s/entry%d", path, num_entry++);
if (!(sdb = sdb_ns_path (r->sdb, path_entry, 0)))
break;
r_cons_printf (" 0x%08"PFMT64x": ", sdb_num_get (sdb, "idx", 0));
const char *value = NULL;
do {
char key[32] = {0};
snprintf (key, sizeof (key), "value%d", num_val++);
if ((value = sdb_const_get (sdb, key, 0)))
r_cons_printf ("%s ", value);
} while (value);
r_cons_newline ();
} while (sdb);
r_cons_println ("\n");
} while (sdb);
do {
int num_version = 0;
char path_version[256] = {0};
snprintf (path, sizeof (path), format, "verneed", num_verneed++);
if (!(sdb = sdb_ns_path (r->sdb, path, 0)))
break;
r_cons_printf ("Version need section '%s' contains %d entries:\n",
sdb_const_get (sdb, "section_name", 0), (int)sdb_num_get (sdb, "num_entries", 0));
r_cons_printf (" Addr: 0x%08"PFMT64x, sdb_num_get (sdb, "addr", 0));
r_cons_printf (" Offset: 0x%08"PFMT64x" Link to section: %"PFMT64d" (%s)\n",
sdb_num_get (sdb, "offset", 0), sdb_num_get (sdb, "link", 0),
sdb_const_get (sdb, "link_section_name", 0));
do {
snprintf (path_version, sizeof (path_version), "%s/version%d", path, num_version++);
const char *filename = NULL;
char path_vernaux[256] = {0};
int num_vernaux = 0;
if (!(sdb = sdb_ns_path (r->sdb, path_version, 0)))
break;
r_cons_printf (" 0x%08"PFMT64x": Version: %d",
sdb_num_get (sdb, "idx", 0), (int)sdb_num_get (sdb, "vn_version", 0));
if ((filename = sdb_const_get (sdb, "file_name", 0)))
r_cons_printf (" File: %s", filename);
r_cons_printf (" Cnt: %d\n", (int)sdb_num_get (sdb, "cnt", 0));
do {
snprintf (path_vernaux, sizeof (path_vernaux), "%s/vernaux%d",
path_version, num_vernaux++);
if (!(sdb = sdb_ns_path (r->sdb, path_vernaux, 0)))
break;
r_cons_printf (" 0x%08"PFMT64x": Name: %s",
sdb_num_get (sdb, "idx", 0), sdb_const_get (sdb, "name", 0));
r_cons_printf (" Flags: %s Version: %d\n",
sdb_const_get (sdb, "flags", 0), (int)sdb_num_get (sdb, "version", 0));
} while (sdb);
} while (sdb);
} while (sdb);
}
static void bin_mach0_versioninfo(RCore *r) {
/* TODO */
}
static int bin_versioninfo(RCore *r, int mode) {
const RBinInfo *info = r_bin_get_info (r->bin);
if (!info || !info->rclass) {
return false;
}
if (!strncmp ("pe", info->rclass, 2)) {
bin_pe_versioninfo (r);
} else if (!strncmp ("elf", info->rclass, 3)) {
bin_elf_versioninfo (r);
} else if (!strncmp ("mach0", info->rclass, 5)) {
bin_mach0_versioninfo (r);
} else {
r_cons_println ("Unknown format");
return false;
}
return true;
}
static int bin_signature(RCore *r, int mode) {
RBinFile *cur = r_bin_cur (r->bin);
RBinPlugin *plg = r_bin_file_cur_plugin (cur);
if (plg && plg->signature) {
const char *signature = plg->signature (cur);
r_cons_println (signature);
return true;
}
return false;
}
R_API void r_core_bin_export_info_rad(RCore *core) {
Sdb *db = NULL;
char *flagname, *offset = NULL;
RBinFile *bf = r_core_bin_cur (core);
if (!bf) {
return;
}
db = sdb_ns (bf->sdb, "info", 0);;
if (!db) {
return;
}
if (db) {
SdbListIter *iter;
SdbKv *kv;
r_cons_printf ("fs format\n");
// iterate over all keys
SdbList *ls = sdb_foreach_list (db, true);
ls_foreach (ls, iter, kv) {
char *k = kv->key;
char *v = kv->value;
char *dup = strdup (k);
if ((flagname = strstr (dup, ".offset"))) {
*flagname = 0;
flagname = dup;
r_cons_printf ("f %s @ %s\n", flagname, v);
free (offset);
offset = strdup (v);
}
if ((flagname = strstr (dup, ".cparse"))) {
r_cons_printf ("\"td %s\"\n", v);
}
if ((flagname = strstr (dup, ".format"))) {
*flagname = 0;
if (!offset) {
offset = strdup ("0");
}
flagname = dup;
r_cons_printf ("pf.%s %s\n", flagname, v);
int fmtsize = r_print_format_struct_size (v, core->print, 0);
char *offset_key = r_str_newf ("%s.offset", flagname);
const char *off = sdb_const_get (db, offset_key, 0);
free (offset_key);
if (off) {
r_cons_printf ("Cf %d %s @ %s\n", fmtsize, v, off);
}
}
free (dup);
}
free (offset);
ls_free (ls);
}
}
static int bin_header(RCore *r, int mode) {
RBinFile *cur = r_bin_cur (r->bin);
RBinPlugin *plg = r_bin_file_cur_plugin (cur);
if (plg && plg->header) {
plg->header (cur);
return true;
}
return false;
}
R_API int r_core_bin_info(RCore *core, int action, int mode, int va, RCoreBinFilter *filter, const char *chksum) {
int ret = true;
const char *name = NULL;
ut64 at = 0, loadaddr = r_bin_get_laddr (core->bin);
if (filter && filter->offset) {
at = filter->offset;
}
if (filter && filter->name) {
name = filter->name;
}
// use our internal values for va
va = va ? VA_TRUE : VA_FALSE;
if ((action & R_CORE_BIN_ACC_STRINGS)) ret &= bin_strings (core, mode, va);
if ((action & R_CORE_BIN_ACC_RAW_STRINGS)) ret &= bin_raw_strings (core, mode, va);
if ((action & R_CORE_BIN_ACC_INFO)) ret &= bin_info (core, mode);
if ((action & R_CORE_BIN_ACC_MAIN)) ret &= bin_main (core, mode, va);
if ((action & R_CORE_BIN_ACC_DWARF)) ret &= bin_dwarf (core, mode);
if ((action & R_CORE_BIN_ACC_PDB)) ret &= bin_pdb (core, mode);
if ((action & R_CORE_BIN_ACC_ENTRIES)) ret &= bin_entry (core, mode, loadaddr, va);
if ((action & R_CORE_BIN_ACC_SECTIONS)) ret &= bin_sections (core, mode, loadaddr, va, at, name, chksum);
if ((action & R_CORE_BIN_ACC_RELOCS)) ret &= bin_relocs (core, mode, va);
if ((action & R_CORE_BIN_ACC_IMPORTS)) ret &= bin_imports (core, mode, va, name);
if ((action & R_CORE_BIN_ACC_EXPORTS)) ret &= bin_exports (core, mode, loadaddr, va, at, name);
if ((action & R_CORE_BIN_ACC_SYMBOLS)) ret &= bin_symbols (core, mode, loadaddr, va, at, name);
if ((action & R_CORE_BIN_ACC_FIELDS)) ret &= bin_fields (core, mode, va);
if ((action & R_CORE_BIN_ACC_LIBS)) ret &= bin_libs (core, mode);
if ((action & R_CORE_BIN_ACC_CLASSES)) ret &= bin_classes (core, mode);
if ((action & R_CORE_BIN_ACC_SIZE)) ret &= bin_size (core, mode);
if ((action & R_CORE_BIN_ACC_MEM)) ret &= bin_mem (core, mode);
if ((action & R_CORE_BIN_ACC_VERSIONINFO)) ret &= bin_versioninfo (core, mode);
if ((action & R_CORE_BIN_ACC_SIGNATURE)) ret &= bin_signature (core, mode);
if ((action & R_CORE_BIN_ACC_HEADER)) ret &= bin_header (core, mode);
return ret;
}
R_API int r_core_bin_set_arch_bits(RCore *r, const char *name, const char * arch, ut16 bits) {
RCoreFile *cf = r_core_file_cur (r);
RBinFile *binfile;
if (!name) {
name = (cf && cf->desc) ? cf->desc->name : NULL;
}
if (!name) {
return false;
}
/* Check if the arch name is a valid name */
if (!r_asm_is_valid (r->assembler, arch)) {
return false;
}
/* Find a file with the requested name/arch/bits */
binfile = r_bin_file_find_by_arch_bits (r->bin, arch, bits, name);
if (!binfile) {
return false;
}
if (!r_bin_use_arch (r->bin, arch, bits, name)) {
return false;
}
r_core_bin_set_cur (r, binfile);
return r_core_bin_set_env (r, binfile);
}
R_API int r_core_bin_update_arch_bits(RCore *r) {
RBinFile *binfile = NULL;
const char *name = NULL, *arch = NULL;
ut16 bits = 0;
if (!r) {
return 0;
}
if (r->assembler) {
bits = r->assembler->bits;
if (r->assembler->cur) {
arch = r->assembler->cur->arch;
}
}
binfile = r_core_bin_cur (r);
name = binfile ? binfile->file : NULL;
if (r && r->bin && r->bin->binxtrs) {
r_anal_hint_clear (r->anal);
}
return r_core_bin_set_arch_bits (r, name, arch, bits);
}
R_API int r_core_bin_raise(RCore *core, ut32 binfile_idx, ut32 binobj_idx) {
RBin *bin = core->bin;
RBinFile *binfile = NULL;
if (binfile_idx == UT32_MAX && binobj_idx == UT32_MAX) {
return false;
}
if (!r_bin_select_by_ids (bin, binfile_idx, binobj_idx)) {
return false;
}
binfile = r_core_bin_cur (core);
if (binfile) {
r_io_raise (core->io, binfile->fd);
}
// it should be 0 to use r_io_use_fd in r_core_block_read
core->switch_file_view = 0;
return binfile && r_core_bin_set_env (core, binfile) && r_core_block_read (core);
}
R_API bool r_core_bin_delete(RCore *core, ut32 binfile_idx, ut32 binobj_idx) {
if (binfile_idx == UT32_MAX && binobj_idx == UT32_MAX) {
return false;
}
if (!r_bin_object_delete (core->bin, binfile_idx, binobj_idx)) {
return false;
}
RBinFile *binfile = r_core_bin_cur (core);
if (binfile) {
r_io_raise (core->io, binfile->fd);
}
core->switch_file_view = 0;
return binfile && r_core_bin_set_env (core, binfile) && r_core_block_read (core);
}
static int r_core_bin_file_print(RCore *core, RBinFile *binfile, int mode) {
RListIter *iter;
RBinObject *obj;
const char *name = binfile ? binfile->file : NULL;
(void)r_bin_get_info (core->bin); // XXX is this necssary for proper iniitialization
ut32 id = binfile ? binfile->id : 0;
ut32 fd = binfile ? binfile->fd : 0;
ut32 bin_sz = binfile ? binfile->size : 0;
// TODO: handle mode to print in json and r2 commands
if (!binfile) {
return false;
}
switch (mode) {
case 'j':
r_cons_printf ("{\"name\":\"%s\",\"fd\":%d,\"id\":%d,\"size\":%d,\"objs\":[",
name, fd, id, bin_sz);
r_list_foreach (binfile->objs, iter, obj) {
RBinInfo *info = obj->info;
ut8 bits = info ? info->bits : 0;
const char *arch = info ? info->arch : "unknown";
r_cons_printf ("{\"objid\":%d,\"arch\":\"%s\",\"bits\":%d,\"binoffset\":%"
PFMT64d",\"objsize\":%"PFMT64d"}",
obj->id, arch, bits, obj->boffset, obj->obj_size);
if (iter->n) {
r_cons_print (",");
}
}
r_cons_print ("]}");
break;
default:
r_cons_printf ("binfile fd=%d name=%s id=%d\n", fd, name, id);
r_list_foreach (binfile->objs, iter, obj) {
RBinInfo *info = obj->info;
ut8 bits = info ? info->bits : 0;
const char *arch = info ? info->arch : "unknown";
if (!arch) {
arch = r_config_get (core->config, "asm.arch");
}
r_cons_printf ("id=%d arch=%s bits=%d boffset=0x%04"PFMT64x" size=0x%04"PFMT64x"\n",
obj->id, arch, bits, obj->boffset, obj->obj_size );
}
break;
}
return true;
}
R_API int r_core_bin_list(RCore *core, int mode) {
// list all binfiles and there objects and there archs
int count = 0;
RListIter *iter;
RBinFile *binfile = NULL; //, *cur_bf = r_core_bin_cur (core) ;
RBin *bin = core->bin;
const RList *binfiles = bin ? bin->binfiles: NULL;
if (!binfiles) {
return false;
}
if (mode == 'j') {
r_cons_print ("[");
}
r_list_foreach (binfiles, iter, binfile) {
r_core_bin_file_print (core, binfile, mode);
if (iter->n && mode == 'j') {
r_cons_print (",");
}
}
if (mode == 'j') {
r_cons_println ("]");
}
//r_core_file_set_by_file (core, cur_cf);
//r_core_bin_bind (core, cur_bf);
return count;
}