// // resolver_service.hpp // ~~~~~~~~~~~~~~~~~~~~ // // Copyright (c) 2003-2006 Christopher M. Kohlhoff (chris at kohlhoff dot com) // // Distributed under the Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // #ifndef ASIO_DETAIL_RESOLVER_SERVICE_HPP #define ASIO_DETAIL_RESOLVER_SERVICE_HPP #if defined(_MSC_VER) && (_MSC_VER >= 1200) # pragma once #endif // defined(_MSC_VER) && (_MSC_VER >= 1200) #include "asio/detail/push_options.hpp" #include "asio/detail/push_options.hpp" #include #include #include #include #include "asio/detail/pop_options.hpp" #include "asio/error.hpp" #include "asio/io_service.hpp" #include "asio/detail/bind_handler.hpp" #include "asio/detail/mutex.hpp" #include "asio/detail/noncopyable.hpp" #include "asio/detail/socket_ops.hpp" #include "asio/detail/socket_types.hpp" #include "asio/detail/thread.hpp" namespace asio { namespace detail { template class resolver_service : public asio::io_service::service { private: // Helper class to perform exception-safe cleanup of addrinfo objects. class auto_addrinfo : private asio::detail::noncopyable { public: explicit auto_addrinfo(asio::detail::addrinfo_type* ai) : ai_(ai) { } ~auto_addrinfo() { if (ai_) socket_ops::freeaddrinfo(ai_); } operator asio::detail::addrinfo_type*() { return ai_; } private: asio::detail::addrinfo_type* ai_; }; public: // The implementation type of the resolver. The shared pointer is used as a // cancellation token to indicate to the background thread that the operation // has been cancelled. typedef boost::shared_ptr implementation_type; struct noop_deleter { void operator()(void*) {} }; // The endpoint type. typedef typename Protocol::endpoint endpoint_type; // The query type. typedef typename Protocol::resolver_query query_type; // The iterator type. typedef typename Protocol::resolver_iterator iterator_type; // Constructor. resolver_service(asio::io_service& io_service) : asio::io_service::service(io_service), mutex_(), work_io_service_(new asio::io_service), work_(new asio::io_service::work(*work_io_service_)), work_thread_(0) { } // Destructor. ~resolver_service() { shutdown_service(); } // Destroy all user-defined handler objects owned by the service. void shutdown_service() { work_.reset(); if (work_io_service_) { work_io_service_->interrupt(); if (work_thread_) { work_thread_->join(); work_thread_.reset(); } work_io_service_.reset(); } } // Construct a new resolver implementation. void construct(implementation_type& impl) { impl.reset(static_cast(0), noop_deleter()); } // Destroy a resolver implementation. void destroy(implementation_type&) { } // Cancel pending asynchronous operations. void cancel(implementation_type& impl) { impl.reset(static_cast(0), noop_deleter()); } // Resolve a query to a list of entries. template iterator_type resolve(implementation_type&, const query_type& query, Error_Handler error_handler) { asio::detail::addrinfo_type* address_info = 0; std::string host_name = query.host_name(); std::string service_name = query.service_name(); asio::detail::addrinfo_type hints = query.hints(); int result = socket_ops::getaddrinfo( host_name.length() ? host_name.c_str() : 0, service_name.c_str(), &hints, &address_info); auto_addrinfo auto_address_info(address_info); error_handler(asio::error(result)); if (result != 0) return iterator_type(); return iterator_type::create(address_info, host_name, service_name); } template class resolve_query_handler { public: resolve_query_handler(implementation_type impl, const query_type& query, asio::io_service& io_service, Handler handler) : impl_(impl), query_(query), io_service_(io_service), work_(io_service), handler_(handler) { } void operator()() { // Check if the operation has been cancelled. if (impl_.expired()) { iterator_type iterator; io_service_.post(asio::detail::bind_handler(handler_, asio::error(asio::error::operation_aborted), iterator)); return; } // Perform the blocking host resolution operation. asio::detail::addrinfo_type* address_info = 0; std::string host_name = query_.host_name(); std::string service_name = query_.service_name(); asio::detail::addrinfo_type hints = query_.hints(); int result = socket_ops::getaddrinfo( host_name.length() ? host_name.c_str() : 0, service_name.c_str(), &hints, &address_info); auto_addrinfo auto_address_info(address_info); // Invoke the handler and pass the result. asio::error e(result); iterator_type iterator; if (result == 0) iterator = iterator_type::create(address_info, host_name, service_name); io_service_.post(asio::detail::bind_handler( handler_, e, iterator)); } private: boost::weak_ptr impl_; query_type query_; asio::io_service& io_service_; asio::io_service::work work_; Handler handler_; }; // Asynchronously resolve a query to a list of entries. template void async_resolve(implementation_type& impl, const query_type& query, Handler handler) { if (work_io_service_) { start_work_thread(); work_io_service_->post( resolve_query_handler( impl, query, io_service(), handler)); } } // Resolve an endpoint to a list of entries. template iterator_type resolve(implementation_type&, const endpoint_type& endpoint, Error_Handler error_handler) { // First try resolving with the service name. If that fails try resolving // but allow the service to be returned as a number. char host_name[NI_MAXHOST]; char service_name[NI_MAXSERV]; int flags = endpoint.protocol().type() == SOCK_DGRAM ? NI_DGRAM : 0; int result = socket_ops::getnameinfo(endpoint.data(), endpoint.size(), host_name, NI_MAXHOST, service_name, NI_MAXSERV, flags); if (result) { flags |= NI_NUMERICSERV; result = socket_ops::getnameinfo(endpoint.data(), endpoint.size(), host_name, NI_MAXHOST, service_name, NI_MAXSERV, flags); } error_handler(asio::error(result)); if (result != 0) return iterator_type(); return iterator_type::create(endpoint, host_name, service_name); } template class resolve_endpoint_handler { public: resolve_endpoint_handler(implementation_type impl, const endpoint_type& endpoint, asio::io_service& io_service, Handler handler) : impl_(impl), endpoint_(endpoint), io_service_(io_service), work_(io_service), handler_(handler) { } void operator()() { // Check if the operation has been cancelled. if (impl_.expired()) { iterator_type iterator; io_service_.post(asio::detail::bind_handler(handler_, asio::error(asio::error::operation_aborted), iterator)); return; } // First try resolving with the service name. If that fails try resolving // but allow the service to be returned as a number. char host_name[NI_MAXHOST]; char service_name[NI_MAXSERV]; int flags = endpoint_.protocol().type() == SOCK_DGRAM ? NI_DGRAM : 0; int result = socket_ops::getnameinfo(endpoint_.data(), endpoint_.size(), host_name, NI_MAXHOST, service_name, NI_MAXSERV, flags); if (result) { flags |= NI_NUMERICSERV; result = socket_ops::getnameinfo(endpoint_.data(), endpoint_.size(), host_name, NI_MAXHOST, service_name, NI_MAXSERV, flags); } // Invoke the handler and pass the result. asio::error e(result); iterator_type iterator; if (result == 0) iterator = iterator_type::create(endpoint_, host_name, service_name); io_service_.post(asio::detail::bind_handler( handler_, e, iterator)); } private: boost::weak_ptr impl_; endpoint_type endpoint_; asio::io_service& io_service_; asio::io_service::work work_; Handler handler_; }; // Asynchronously resolve an endpoint to a list of entries. template void async_resolve(implementation_type& impl, const endpoint_type& endpoint, Handler handler) { if (work_io_service_) { start_work_thread(); work_io_service_->post( resolve_endpoint_handler( impl, endpoint, io_service(), handler)); } } private: // Helper class to run the work io_service in a thread. class work_io_service_runner { public: work_io_service_runner(asio::io_service& io_service) : io_service_(io_service) {} void operator()() { io_service_.run(); } private: asio::io_service& io_service_; }; // Start the work thread if it's not already running. void start_work_thread() { asio::detail::mutex::scoped_lock lock(mutex_); if (work_thread_ == 0) { work_thread_.reset(new asio::detail::thread( work_io_service_runner(*work_io_service_))); } } // Mutex to protect access to internal data. asio::detail::mutex mutex_; // Private io_service used for performing asynchronous host resolution. boost::scoped_ptr work_io_service_; // Work for the private io_service to perform. boost::scoped_ptr work_; // Thread used for running the work io_service's run loop. boost::scoped_ptr work_thread_; }; } // namespace detail } // namespace asio #include "asio/detail/pop_options.hpp" #endif // ASIO_DETAIL_RESOLVER_SERVICE_HPP