Asynchronously establishes a socket connection by trying each endpoint in a sequence.
template< typename Protocol, typename SocketService, typename Iterator, typename ConnectCondition, typename ComposedConnectHandler> void-or-deduced async_connect( basic_socket< Protocol, SocketService > & s, Iterator begin, ConnectCondition connect_condition, ComposedConnectHandler && handler);
This function attempts to connect a socket to one of a sequence of endpoints.
It does this by repeated calls to the socket's async_connect
member function, once for each endpoint in the sequence, until a connection
is successfully established.
The socket to be connected. If the socket is already open, it will be closed.
An iterator pointing to the start of a sequence of endpoints.
A function object that is called prior to each connection attempt. The signature of the function object must be:
Iterator connect_condition( const asio::error_code& ec, Iterator next);
The ec
parameter
contains the result from the most recent connect operation. Before
the first connection attempt, ec
is always set to indicate success. The next
parameter is an iterator pointing to the next endpoint to be tried.
The function object should return the next iterator, but is permitted
to return a different iterator so that endpoints may be skipped.
The implementation guarantees that the function object will never
be called with the end iterator.
The handler to be called when the connect operation completes. Copies will be made of the handler as required. The function signature of the handler must be:
void handler( // Result of operation. if the sequence is empty, set to // asio::error::not_found. Otherwise, contains the // error from the last connection attempt. const asio::error_code& error, // On success, an iterator denoting the successfully // connected endpoint. Otherwise, the end iterator. Iterator iterator );
Regardless of whether the asynchronous operation completes immediately
or not, the handler will not be invoked from within this function.
Invocation of the handler will be performed in a manner equivalent
to using asio::io_service::post()
.
This overload assumes that a default constructed object of type Iterator
represents the end of the sequence.
This is a valid assumption for iterator types such as asio::ip::tcp::resolver::iterator
.
The following connect condition function object can be used to output information about the individual connection attempts:
struct my_connect_condition { template <typename Iterator> Iterator operator()( const asio::error_code& ec, Iterator next) { if (ec) std::cout << "Error: " << ec.message() << std::endl; std::cout << "Trying: " << next->endpoint() << std::endl; return next; } };
It would be used with the asio::connect
function as follows:
tcp::resolver r(io_service); tcp::resolver::query q("host", "service"); tcp::socket s(io_service); // ... r.async_resolve(q, resolve_handler); // ... void resolve_handler( const asio::error_code& ec, tcp::resolver::iterator i) { if (!ec) { asio::async_connect(s, i, my_connect_condition(), connect_handler); } } // ... void connect_handler( const asio::error_code& ec, tcp::resolver::iterator i) { if (ec) { // An error occurred. } else { std::cout << "Connected to: " << i->endpoint() << std::endl; } }