// Copyright (c) 2009 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef NET_TOOLS_FLIP_SERVER_LOADTIME_MEASUREMENT_H__ #define NET_TOOLS_FLIP_SERVER_LOADTIME_MEASUREMENT_H__ #include #include #include #include #include #include #include #include // Class to handle loadtime measure related urls, which all start with testing // The in memory server has a singleton object of this class. It includes a // html file containing javascript to go through a list of urls and upload the // loadtime. The users can modify urls.txt to define the urls they want to // measure and start with downloading the html file from browser. class LoadtimeMeasurement { public: LoadtimeMeasurement(const std::string& urls_file, const std::string& pageload_html_file) : num_urls_(0), pageload_html_file_(pageload_html_file) { std::string urls_string; read_file_to_string(urls_file.c_str(), &urls_string); split_string(urls_string, '\n', &urls_); num_urls_ = urls_.size(); } // This is the entry function for all the loadtime measure related urls // It handles the request to html file, get_total_iteration to get number // of urls in the urls file, get each url, report the loadtime for // each url, and the test is completed. void ProcessRequest(const std::string& uri, std::string& output) { // remove "/testing/" from uri to get the action std::string action = uri.substr(9); if (pageload_html_file_.find(action) != std::string::npos) { read_file_to_string(pageload_html_file_.c_str(), &output); return; } if (action.find("get_total_iteration") == 0) { char buffer[16]; snprintf(buffer, 16, "%d", num_urls_); output.append(buffer, strlen(buffer)); return; } if (action.find("geturl") == 0) { size_t b = action.find_first_of('='); if (b != std::string::npos) { int num = atoi(action.substr(b + 1).c_str()); if (num < num_urls_) { output.append(urls_[num]); } } return; } if (action.find("test_complete") == 0) { for (std::map::const_iterator it = loadtimes_.begin(); it != loadtimes_.end(); ++it) { LOG(INFO) << it->first << " " << it->second; } loadtimes_.clear(); output.append("OK"); return; } if (action.find("record_page_load") == 0) { std::vector query; split_string(action, '?', &query); std::vector params; split_string(query[1], '&', ¶ms); std::vector url; std::vector loadtime; split_string(params[1], '=', &url); split_string(params[2], '=', &loadtime); loadtimes_[url[1]] = atoi(loadtime[1].c_str()); output.append("OK"); return; } } private: void read_file_to_string(const char* filename, std::string* output) { output->clear(); int fd = open(filename, 0, "r"); if (fd == -1) return; char buffer[4096]; ssize_t read_status = read(fd, buffer, sizeof(buffer)); while (read_status > 0) { output->append(buffer, static_cast(read_status)); do { read_status = read(fd, buffer, sizeof(buffer)); } while (read_status <= 0 && errno == EINTR); } close(fd); } void split_string(std::string& str, char sepa, std::vector* sub_strs) { size_t b = 0; size_t e = str.find_first_of(sepa, b); while (e != std::string::npos && e > b) { sub_strs->push_back(str.substr(b, e - b)); b = e + 1; e = str.find_first_of(sepa, b); } if (b < str.size()) { sub_strs->push_back(str.substr(b)); } } int num_urls_; std::vector urls_; std::map loadtimes_; const std::string pageload_html_file_; }; #endif // NET_TOOLS_FLIP_SERVER_LOADTIME_MEASUREMENT_H__