/* * gridfile, err = gridfs:find_file(query) */ static int gridfs_find_file(lua_State *L) { GridFS *gridfs = userdata_to_gridfs(L, 1); int resultcount = 1; if (!lua_isnoneornil(L, 2)) { try { int type = lua_type(L, 2); if (type == LUA_TTABLE) { BSONObj obj; lua_to_bson(L, 2, obj); GridFile gridfile = gridfs->findFile(obj); resultcount = gridfile_create(L, gridfile); } else { GridFile gridfile = gridfs->findFile(luaL_checkstring(L, 2)); resultcount = gridfile_create(L, gridfile); } } catch (std::exception &e) { lua_pushnil(L); lua_pushfstring(L, LUAMONGO_ERR_CALLING, LUAMONGO_GRIDFS, "find_file", e.what()); resultcount = 2; } } return resultcount; }
int main(int argc, char **argv) { ArgumentParser argp(argc, argv, "ho:fd:c:"); if (argp.has_arg("h")) { print_usage(argv[0]); exit(0); } const std::vector<const char *> &items = argp.items(); std::string output_dir = "tmp/"; std::string database = "fflog"; std::string collection; std::string query_coll; bool filename_indexed = ! argp.has_arg("f"); std::vector<std::pair<long long, long long> > times; if (argp.has_arg("o")) { output_dir = argp.arg("o"); if (output_dir[output_dir.length() - 1] != '/') { output_dir += "/"; } } if (argp.has_arg("d")) { database = argp.arg("d"); } if (argp.has_arg("c")) { collection = argp.arg("c"); } else { print_usage(argv[0]); printf("No collection given\n"); exit(-1); } query_coll = database + "." + collection; if (items.empty()) { times.push_back(std::make_pair(0L, std::numeric_limits<long long>::max())); } else { for (unsigned int i = 0; i < items.size(); ++i) { std::string item = items[i]; std::string::size_type dotpos = item.find(".."); if (dotpos == std::string::npos) { // singular timestamp long int ts = argp.parse_item_int(i); times.push_back(std::make_pair(ts, ts)); } else { // range std::string first_ts, second_ts; first_ts = item.substr(0, dotpos); second_ts = item.substr(dotpos + 2); times.push_back(std::make_pair(StringConversions::to_long(first_ts), StringConversions::to_long(second_ts))); } } } unsigned int image_n = 0; DBClientConnection *mongodb_client = new DBClientConnection(/* auto reconnect */ true); std::string errmsg; mongodb_client->connect("localhost", errmsg); GridFS *gridfs = new GridFS(*mongodb_client, "fflog"); for (unsigned int i = 0; i < times.size(); ++i) { Query q; if (times[i].first == times[i].second) { printf("Querying for timestamp %lli\n", times[i].first); q = QUERY("timestamp" << times[i].first).sort("timestamp", 1); } else { printf("Querying for range %lli..%lli\n", times[i].first, times[i].second); q = QUERY("timestamp" << mongo::GTE << times[i].first << mongo::LTE << times[i].second) .sort("timestamp", 1); } #if __cplusplus >= 201103L std::unique_ptr<mongo::DBClientCursor> cursor = mongodb_client->query(query_coll, q); #else std::auto_ptr<mongo::DBClientCursor> cursor = mongodb_client->query(query_coll, q); #endif while (cursor->more()) { BSONObj doc = cursor->next(); BSONObj imgdoc = doc.getObjectField("image"); if (imgdoc["colorspace"].String() == "RGB") { std::string filename = imgdoc.getFieldDotted("data.filename").String(); long filesize = imgdoc.getFieldDotted("data.length").numberLong(); std::string image_id = imgdoc["image_id"].String(); std::string out_filename; char *fntmp; if (filename_indexed) { if (asprintf(&fntmp, "%s%s-%08d.png", output_dir.c_str(), image_id.c_str(), image_n++) != -1) { out_filename = fntmp; free(fntmp); } } else { if (asprintf(&fntmp, "%s%s.png", output_dir.c_str(), filename.c_str()) != -1) { out_filename = fntmp; free(fntmp); } ++image_n; } printf("Restoring RGB image %s (%s)\n", filename.c_str(), out_filename.c_str()); GridFile file = gridfs->findFile(filename); if (! file.exists()) { printf("File %s does not exist\n", filename.c_str()); continue; } unsigned int width = imgdoc["width"].Int(); unsigned int height = imgdoc["height"].Int(); if (colorspace_buffer_size(RGB, width, height) != (size_t)filesize) { printf("Buffer size mismatch (DB %li vs. exp. %zu)\n", filesize, colorspace_buffer_size(RGB, width, height)); continue; } unsigned char *buffer = malloc_buffer(RGB, width, height); unsigned char *tmp = buffer; for (int c = 0; c < file.getNumChunks(); ++c) { mongo::GridFSChunk chunk = file.getChunk(c); int len = 0; const char *chunk_data = chunk.data(len); memcpy(tmp, chunk_data, len); tmp += len; } PNGWriter writer(out_filename.c_str(), width, height); writer.set_buffer(RGB, buffer); writer.write(); free(buffer); } } } delete gridfs; delete mongodb_client; }