// // ping.cpp // ~~~~~~~~ // // Copyright (c) 2003-2023 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) // #include #include #include #include #include #include "icmp_header.hpp" #include "ipv4_header.hpp" using asio::ip::icmp; using asio::steady_timer; namespace chrono = asio::chrono; class pinger { public: pinger(asio::io_context& io_context, const char* destination) : resolver_(io_context), socket_(io_context, icmp::v4()), timer_(io_context), sequence_number_(0), num_replies_(0) { destination_ = *resolver_.resolve(icmp::v4(), destination, "").begin(); start_send(); start_receive(); } private: void start_send() { std::string body("\"Hello!\" from Asio ping."); // Create an ICMP header for an echo request. icmp_header echo_request; echo_request.type(icmp_header::echo_request); echo_request.code(0); echo_request.identifier(get_identifier()); echo_request.sequence_number(++sequence_number_); compute_checksum(echo_request, body.begin(), body.end()); // Encode the request packet. asio::streambuf request_buffer; std::ostream os(&request_buffer); os << echo_request << body; // Send the request. time_sent_ = steady_timer::clock_type::now(); socket_.send_to(request_buffer.data(), destination_); // Wait up to five seconds for a reply. num_replies_ = 0; timer_.expires_at(time_sent_ + chrono::seconds(5)); timer_.async_wait(boost::bind(&pinger::handle_timeout, this)); } void handle_timeout() { if (num_replies_ == 0) std::cout << "Request timed out" << std::endl; // Requests must be sent no less than one second apart. timer_.expires_at(time_sent_ + chrono::seconds(1)); timer_.async_wait(boost::bind(&pinger::start_send, this)); } void start_receive() { // Discard any data already in the buffer. reply_buffer_.consume(reply_buffer_.size()); // Wait for a reply. We prepare the buffer to receive up to 64KB. socket_.async_receive(reply_buffer_.prepare(65536), boost::bind(&pinger::handle_receive, this, boost::placeholders::_2)); } void handle_receive(std::size_t length) { // The actual number of bytes received is committed to the buffer so that we // can extract it using a std::istream object. reply_buffer_.commit(length); // Decode the reply packet. std::istream is(&reply_buffer_); ipv4_header ipv4_hdr; icmp_header icmp_hdr; is >> ipv4_hdr >> icmp_hdr; // We can receive all ICMP packets received by the host, so we need to // filter out only the echo replies that match the our identifier and // expected sequence number. if (is && icmp_hdr.type() == icmp_header::echo_reply && icmp_hdr.identifier() == get_identifier() && icmp_hdr.sequence_number() == sequence_number_) { // If this is the first reply, interrupt the five second timeout. if (num_replies_++ == 0) timer_.cancel(); // Print out some information about the reply packet. chrono::steady_clock::time_point now = chrono::steady_clock::now(); chrono::steady_clock::duration elapsed = now - time_sent_; std::cout << length - ipv4_hdr.header_length() << " bytes from " << ipv4_hdr.source_address() << ": icmp_seq=" << icmp_hdr.sequence_number() << ", ttl=" << ipv4_hdr.time_to_live() << ", time=" << chrono::duration_cast(elapsed).count() << std::endl; } start_receive(); } static unsigned short get_identifier() { #if defined(ASIO_WINDOWS) return static_cast(::GetCurrentProcessId()); #else return static_cast(::getpid()); #endif } icmp::resolver resolver_; icmp::endpoint destination_; icmp::socket socket_; steady_timer timer_; unsigned short sequence_number_; chrono::steady_clock::time_point time_sent_; asio::streambuf reply_buffer_; std::size_t num_replies_; }; int main(int argc, char* argv[]) { try { if (argc != 2) { std::cerr << "Usage: ping " << std::endl; #if !defined(ASIO_WINDOWS) std::cerr << "(You may need to run this program as root.)" << std::endl; #endif return 1; } asio::io_context io_context; pinger p(io_context, argv[1]); io_context.run(); } catch (std::exception& e) { std::cerr << "Exception: " << e.what() << std::endl; } }