Esempio n. 1
0
	void Dump(const int verbose) const
	{
		MESSAGE("Cuda memory dump:  allocated:%d bytes=%.1f Mb, accumulated:%.0f bytes=%.1f Mb, calls=%d",size(),size()/1024./1024.,m_accumulated,m_accumulated/1024.0/1024.0,m_calls);

		if (!verbose) return;
		for (t_map::const_iterator itt=m_mem.begin();itt!=m_mem.end();++itt){
			const size_t base=reinterpret_cast<size_t>(itt->first);
			string m = "p=" + tostring(base) + ":" + tostring(base+itt->second.first-1) + " s=" + tostring(itt->second.first) + "=" + HumanReadable(itt->second.first) + " msg=" + itt->second.second;
			MESSAGE(m.c_str());

			t_map::const_iterator itt2=itt;
			++itt2;
			if (itt2!=m_mem.end()){
				const size_t base2=reinterpret_cast<size_t>(itt2->first);
				ASSERT_GX(base2>=base+itt->second.first);
				const size_t v=base2-(base+itt->second.first);
				if (v>0) {
					m = "v=" + tostring(v) + " =" + HumanReadable(v);
					MESSAGE(m.c_str());
				}
			}
		}
	}
Esempio n. 2
0
	size_t size() const
	{
		size_t sz=0;
		for(t_map::const_iterator itt=m_mem.begin();itt!=m_mem.end();++itt) sz += itt->second.first;
		return sz;
	}
Esempio n. 3
0
int main(int argc, char* argv[])
{
	time_t t = time(NULL);
	if (argc < 2)
	{
		std::cerr << "Usage: " << argv[0] << " <file> <tracker> [--v1]" << std::endl;
		return 1;
	}
	std::string tracker = argc >= 3 ? argv[2] : "udp://localhost:2710";
	bool use_merkle = argc >= 4 ? strcmp(argv[3], "--v1") : true; // set to false for a non-merkle torrent
	insert(argv[1]);
	// use 1 mbyte pieces by default
	int cb_piece = 1 << 20;
	if (!use_merkle)
	{
		// find optimal piece size for a non-merkle torrent
		long long cb_total = 0;
		for (t_map::const_iterator i = g_map.begin(); i != g_map.end(); i++)
			cb_total += i->second.size;
		cb_piece = 256 << 10;
		while (cb_total / cb_piece > 4 << 10)
			cb_piece <<= 1;
	}
	Cbvalue files;
	std::string pieces;
	Cvirtual_binary d;
	byte* w = d.write_start(cb_piece);
	for (t_map::const_iterator i = g_map.begin(); i != g_map.end(); i++)
	{
		int f = open(i->second.name.c_str(), O_BINARY | O_RDONLY);
		if (!f)
			continue;
		long long cb_f = 0;
		std::string merkle_hash;
		int cb_d;
		if (use_merkle)
		{
			// calculate merkle root hash as explained in XBT Make Merkle Tree.cpp
			typedef std::map<int, std::string> t_map;

			t_map map;
			char d[1025];
			while (cb_d = read(f, d + 1, 1024))
			{
				if (cb_d < 0)
					break;
				*d = 0;
				std::string h = Csha1(const_memory_range(d, cb_d + 1)).read();
				*d = 1;
				int i;
				for (i = 0; map.find(i) != map.end(); i++)
				{
					memcpy(d + 1, map.find(i)->second.c_str(), 20);
					memcpy(d + 21, h.c_str(), 20);
					h = Csha1(const_memory_range(d, 41)).read();
					map.erase(i);
				}
				map[i] = h;
				cb_f += cb_d;
			}
			*d = 1;
			while (map.size() > 1)
			{
				memcpy(d + 21, map.begin()->second.c_str(), 20);
				map.erase(map.begin());
				memcpy(d + 1, map.begin()->second.c_str(), 20);
				map.erase(map.begin());
				map[0] = Csha1(const_memory_range(d, 41)).read();
			}
			if (!map.empty())
				merkle_hash = map.begin()->second;
		}
		else
		{
			// calculate piece hashes
			while (cb_d = read(f, w, d.data_end() - w))
			{
				if (cb_d < 0)
					break;
				w += cb_d;
				if (w == d.data_end())
				{
					pieces += Csha1(const_memory_range(d, w - d)).read();
					w = d.data_edit();
				}
				cb_f += cb_d;
			}
		}
		close(f);
		// add file to files key
		files.l(merkle_hash.empty()
			? Cbvalue().d(bts_length, cb_f).d(bts_path, Cbvalue().l(base_name(i->second.name)))
			: Cbvalue().d(bts_merkle_hash, merkle_hash).d(bts_length, cb_f).d(bts_path, Cbvalue().l(base_name(i->second.name))));
	}
	if (w != d)
		pieces += Csha1(const_memory_range(d, w - d)).read();
	Cbvalue info;
	info.d(bts_piece_length, cb_piece);
	if (!pieces.empty())
		info.d(bts_pieces, pieces);
	if (g_map.size() == 1)
	{
		// single-file torrent
		if (use_merkle)
			info.d(bts_merkle_hash, files.l().front().d(bts_merkle_hash));
		info.d(bts_length, files.l().front().d(bts_length));
		info.d(bts_name, files.l().front().d(bts_path).l().front());
	}
	else
	{
		// multi-file torrent
		info.d(bts_files, files);
		info.d(bts_name, g_name);
	}
	Cbvalue torrent;
	torrent.d(bts_announce, tracker);
	torrent.d(bts_info, info);
	Cvirtual_binary s = torrent.read();
	if (use_merkle)
		s = gzip(s);
	s.save(g_name + ".torrent");
	std::cout << time(NULL) - t << " s" << std::endl;
	return 0;
}