Exemple #1
0
//-----------------------------------------------------------------------------
// Determine the combination of GPU device and block within the GPU based upon
// a unique thread index. If the index is larger than the available blocks,
// then it returns -1.
pair_int Helper::selectDeviceAndBlock(int index)
{
    int numDevices = Device::numDevices();
    if (!numDevices || index >= maxThreadsPerGPU*numDevices)
    {
        return pair_int(-1, -1);
    }

    // Alternate between devices, then by block
    return pair_int(index % numDevices, index / numDevices);
}
Exemple #2
0
static int bin_info(RCore *r, int mode) {
	int i, j;
	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);
	const char *compiled = NULL;

	if (!binfile || !info) {
		if (mode & R_CORE_BIN_JSON) r_cons_printf ("{}");
		return false;
	}

	compiled = get_compile_time (binfile->sdb);
	snprintf (size_str, sizeof (size_str),
		"%"PFMT64d,  r_bin_get_size (r->bin));
	snprintf (baddr_str, sizeof (baddr_str),
		"%"PFMT64d,  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");
		}
	} 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");
	} 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);
			}
		}
	} else {
		// XXX: if type is 'fs' show something different?
		if (IS_MODE_JSON (mode)) r_cons_printf ("{");
		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 ("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);
		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);
		pair_str ("guid", info->guid, mode, false);
		pair_str ("dbg_file", info->debug_file_name, mode, true);

		for (i = 0; info->sum[i].type; i++) {
			int len;

			RBinHash *h = &info->sum[i];
			ut64 hash = r_hash_name_to_bits (h->type);
			RHash *rh = r_hash_new (true, hash);
			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 ();
		}
		if (IS_MODE_JSON (mode)) r_cons_printf ("}");
	}
	return true;
}