Esempio n. 1
0
 template <typename T> static inline size_t
 insertInBimap (boost::bimap<size_t, T>& bimap, T value)
 {
     if (bimap.right.count (value) != 0)
     {
         return bimap.right.at (value);
     }
     else
     {
         size_t s = bimap.size ();
         bimap.insert (typename boost::bimap<size_t, T>::value_type (s, value));
         return s;
     }
 }
Esempio n. 2
0
void UserMappingGridmap::Store(
    std::string dn,
    std::string users,
    std::string user_seperator,
    boost::bimap< std::string, std::string > &new_username,
    std::multimap< std::string, std::string > &new_groupname) {
  // if there are several usernames, use only the first one
  escaped_list_separator<char> els2("", user_seperator.c_str(), "");
  tokenizer< escaped_list_separator<char> > tok_user(users, els2);
  tokenizer< escaped_list_separator<char> >::iterator first_username
      = tok_user.begin();
  std::string user = std::string(*first_username);

//      cout << "gridmap: dn: '" << dn << "'" << std::endl;
//      cout << "gridmap: user: "******"OU=", 0);
  while (ou_pos != string::npos) {
    size_t end_pos = dn.find(",", ou_pos+1);
    std::string ou = dn.substr(ou_pos+3, end_pos-ou_pos-3);

//        cout << "gridmap: group: " << ou << std::endl;

    // add one usergroup (OU=...)
    new_groupname.insert(std::pair<std::string, std::string>(dn, ou));

    // search in the remaining string
    ou_pos = dn.find("OU=", ou_pos+1);
  }
}
Esempio n. 3
0
 void operator ()(Shuttler& shuttle, const char* name,
     const boost::bimap<K, V, AP1, AP2, AP3>& value) const {
   shuttle.StartSequence(name, static_cast<int>(value.size()));
   for(auto& i : value.left) {
     shuttle.Send(std::make_pair(i.first, i.second));
   }
   shuttle.EndSequence();
 }
Esempio n. 4
0
 void operator ()(Shuttler& shuttle, const char* name,
     boost::bimap<K, V, AP1, AP2, AP3>& value) const {
   using Pair = std::pair<
     typename boost::bimap<K, V, AP1, AP2, AP3>::left_key_type,
     typename boost::bimap<K, V, AP1, AP2, AP3>::right_key_type>;
   value.clear();
   int count;
   shuttle.StartSequence(name, count);
   for(auto i = 0; i < count; ++i) {
     Pair entry;
     shuttle.Shuttle(entry);
     value.left.insert(std::move(entry));
   }
   shuttle.EndSequence();
 }
Esempio n. 5
0
    /*
    *  接收key,建立连接
    */
    void recv_key(SOCKET aisocket)
    {
      char lirecv[32];
      int liret;

      liret = g_recv(aisocket, lirecv, 32);
      if (liret <= 0)
      {
        closesocket(aisocket);
        return;
      }

      if (size_t(liret) < sizeof(uint32_t))
      {
        closesocket(aisocket);
        return;
      }

      uint32_t lkey = *((uint32_t*)(lirecv));
      auto itor = m_socket_key.right.find(lkey);
      if (itor != m_socket_key.right.end())
      {
     if( (const_cast<key_stat*>(&itor->first))->get_stat() )
     { 
      closesocket(aisocket);
      return;
     }
     else
     {
       m_socket_key.right.erase( itor );
     }
      }
    m_socket_key.insert(boost::bimap<SOCKET, key_stat>::value_type(aisocket, lkey));
   
      
      /** 回复 */
      if (g_send(aisocket, lirecv, liret) <= 0)
      {
        closesocket(aisocket);
        return;
      }

    

      middleware::tools::threadpool::asyn_thread( boost::bind( &accept_key_socket::recv, this, aisocket, lkey) );
    }