int main(int argc, char *argv[])
{
    auto config_file = Yb::StrUtils::xgetenv("CONFIG_FILE");
    if (!config_file.size())
        config_file = "/etc/card_proxy_keykeeper2/card_proxy_keykeeper2.cfg.xml";
    Yb::ILogger::Ptr logger;
    try {
        theApp::instance().init(
                IConfig::Ptr(new XmlConfig(config_file)),
                false);
        logger.reset(theApp::instance().new_logger("main").release());
    }
    catch (const std::exception &ex) {
        std::cerr << "exception: " << ex.what() << "\n";
        return 1;
    }
    try {
        std::string bind_host = theApp::instance().cfg()
            .get_value("HttpListener/Host");
        int bind_port = theApp::instance().cfg()
            .get_value_as_int("HttpListener/Port");
        std::string listen_at = "http://" + bind_host + ":"
                + Yb::to_string(bind_port) + "/";
        logger->error("listen at: " + listen_at);
        key_keeper = new KeyKeeper(theApp::instance().cfg(), *logger);
        const std::string prefix = "/" + theApp::instance().cfg()
            .get_value("HttpListener/Prefix");
        Yb::String secret = theApp::instance().cfg().get_value("KK2Secret");

        XmlHttpWrapper handlers_array[] = {
            WRAP("/", ping),
            SECURE_WRAP(prefix, secret, read),
            SECURE_WRAP(prefix, secret, get),
            SECURE_WRAP(prefix, secret, write),
            SECURE_WRAP(prefix, secret, set),
            SECURE_WRAP(prefix, secret, unset),
            SECURE_WRAP(prefix, secret, cleanup),
        };
        int n_handlers = sizeof(handlers_array)/sizeof(handlers_array[0]);
        typedef HttpServer<XmlHttpWrapper> MyHttpServer;
        MyHttpServer::HandlerMap handlers;
        for (int i = 0; i < n_handlers; ++i) {
            std::string prefix = handlers_array[i].prefix();
            handlers[prefix + handlers_array[i].name()] = handlers_array[i];
        }
        std::string error_content_type = "application/xml";
        std::string error_body = "<result><status>internal_error</status></result>";
        MyHttpServer server(
                bind_host, bind_port, 30, handlers, &theApp::instance(),
                error_content_type, error_body);
        server.serve();
    }
    catch (const std::exception &ex) {
        logger->error(std::string("exception: ") + ex.what());
        return 1;
    }
    return 0;
}
int
main()
{
    try {
        logger = theApp::instance().new_logger("main");
    }
    catch (const std::exception &ex) {
        std::cerr << "exception: " << ex.what() << "\n";
        return 1;
    }
    try {
        //int port = 19090; // TODO: read from config
        typedef std::string (*Handler)(const Yb::StringDict &);
        typedef HttpServer<Handler> ScheduleHttpServer;
        ScheduleHttpServer::HandlerMap handlers;
        handlers["/main"] = main_handler;
       /* handlers["/adm/login"] = adm_login;
        handlers["/adm/session_info"] = adm_session_info;
        handlers["/adm/logout"] = adm_logout;
        handlers["/adm/add_activity"] = adm_add_activity;
        handlers["/adm/list_activities"] = adm_list_activities;
        handlers["/adm/schedule"] = adm_get_schedule_items;
        */
        ScheduleHttpServer server(
                theApp::instance().get_settings().get_port(),
                handlers, &theApp::instance(),
                _T("text/xml"), _T("<status>NOT</status>"));
        server.serve();
    }
    catch (const std::exception &ex) {
        logger->error(string("exception: ") + ex.what());
        return 1;
    }
    return 0;
}
Exemple #3
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inline int run_server_app(const std::string &config_name,
        HttpHandler *handlers_array, int n_handlers)
{
    randomize();
    Yb::ILogger::Ptr logger;
    try {
        theApp::instance().init(IConfig::Ptr(new XmlConfig(config_name)));
        logger.reset(theApp::instance().new_logger("main").release());
    }
    catch (const std::exception &ex) {
        std::cerr << "exception: " << ex.what() << "\n";
        return 1;
    }
    try {
        std::string bind_host = theApp::instance().cfg()
            .get_value("HttpListener/Host");
        int bind_port = theApp::instance().cfg()
            .get_value_as_int("HttpListener/Port");
        std::string listen_at = "http://" + bind_host + ":"
                + Yb::to_string(bind_port) + "/";
        logger->error("listen at: " + listen_at);
        typedef HttpServer<HttpHandler> MyHttpServer;
        typename MyHttpServer::HandlerMap handlers;
        for (int i = 0; i < n_handlers; ++i) {
            std::string prefix = handlers_array[i].prefix();
            handlers[prefix + handlers_array[i].name()] = handlers_array[i];
        }
        std::string error_content_type = "text/xml";
        std::string error_body = "{\"status\": \"internal_error\"}";
        MyHttpServer server(
                bind_host, bind_port, 30, handlers, &theApp::instance(),
                error_content_type, error_body);
        server.serve();
    }
    catch (const std::exception &ex) {
        logger->error(std::string("exception: ") + ex.what());
        return 1;
    }
    return 0;
}
string
main_handler(const Yb::StringDict &content)
{
    try {
        ContentChecker contentChecker;
        if (!contentChecker.contentIsValid(content))
            throw std::runtime_error(contentChecker.err());
    
        BaseCommand *command = createCommand(contentChecker.requestType(), contentChecker.parsedParams());
        std::string response = command->execute();
        delete command;
        return response;
    }
    catch(const exception &err) {
        logger->error(err.what());
        cout << err.what() << endl;
        return "<status>EXCEPTION</status>";
    }
}
Exemple #5
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void
HttpServer::process(SOCKET cl_s, Yb::ILogger *log_ptr, const HttpHandlerMap *handlers)
{
    TcpSocket cl_sock(cl_s);
    Yb::ILogger::Ptr logger = log_ptr->new_logger("worker");
    // read and process request
    try {
        // read request header
        string buf = cl_sock.readline();
        logger->debug(buf);
        int cont_len = -1;
        string cont_type = "";
        while (1) { // skip to request's body
            string s = cl_sock.readline();
            if (s == "\r\n" || s == "\n")
                break;
            logger->debug(s);
            if (starts_with(str_to_upper(s), "CONTENT-LENGTH: ")) {
                try {
                    Strings parts;
                    split_str_by_chars(s, " ", parts, 2);
                    cont_len = boost::lexical_cast<unsigned>(
                        trim_trailing_space(parts[1]));
                }
                catch (const std::exception &ex) {
                    logger->warning(
                        string("couldn't parse CONTENT-LENGTH: ") + ex.what());
                }
            }
            if (starts_with(str_to_upper(s), "CONTENT-TYPE: ")) {
                try {
                    Strings parts;
                    split_str_by_chars(s, ":", parts, 2);
                    cont_type = trim_trailing_space(parts[1]);
                }
                catch (const std::exception &ex) {
                    logger->warning(
                        string("couldn't parse CONTENT-TYPE: ") + ex.what());
                }
            }
        }
        // parse request
        StringMap rez = parse_http(buf);
        rez["&content-type"] = cont_type;
        if (rez["&method"].compare("GET") && rez["&method"].compare("POST")) {
            logger->error("unsupported method \"" + rez["&method"] + "\"");
            send_response(cl_sock, *logger, 400, "Bad request", BAD_RESP);
        }
        else {
            if (!rez["&method"].compare("POST") && cont_len > 0) {
                string post_data = cl_sock.read(cont_len);
                logger->debug("Post data: " + post_data);
                if (!cont_type.compare("application/x-www-form-urlencoded")) {
                    StringMap params = parse_params(post_data);
                    for (StringMap::iterator i = params.begin(); i != params.end(); ++i)
                        rez[i->first] = i->second;
                } else
                    rez["&post-data"] = post_data;
            }
            HttpHandlerMap::const_iterator it = handlers->find(rez["&uri"]);
            if (it == handlers->end()) {
                logger->error("URI " + rez["&uri"] + " not found!");
                send_response(cl_sock, *logger, 404, "Not found", BAD_RESP);
            }
            else {
                // handle the request
                HttpHandler func_ptr = it->second;
                send_response(cl_sock, *logger, 200, "OK", func_ptr(rez));
            }
        }
    }
    catch (const SocketEx &ex) {
        logger->error(string("socket error: ") + ex.what());
        //if connection is closed by peer - this is killing the whole process:
        //send_response(cl_sock, *logger, 400, "Short read", BAD_RESP);
        cl_sock.close(true);
    }
    catch (const ParserEx &ex) {
        logger->error(string("parser error: ") + ex.what());
        send_response(cl_sock, *logger, 400, "Bad request", BAD_RESP);
    }
    catch (const std::exception &ex) {
        logger->error(string("exception: ") + ex.what());
        send_response(cl_sock, *logger, 500, "Internal server error", BAD_RESP);
    }
}