[/ / Copyright (c) 2003-2021 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) /] [section:line_based Line-Based Operations] Many commonly-used internet protocols are line-based, which means that they have protocol elements that are delimited by the character sequence `"\r\n"`. Examples include HTTP, SMTP and FTP. To more easily permit the implementation of line-based protocols, as well as other protocols that use delimiters, Boost.Asio includes the functions `read_until()` and `async_read_until()`. The following example illustrates the use of `async_read_until()` in an HTTP server, to receive the first line of an HTTP request from a client: class http_connection { ... void start() { boost::asio::async_read_until(socket_, data_, "\r\n", boost::bind(&http_connection::handle_request_line, this, _1)); } void handle_request_line(boost::system::error_code ec) { if (!ec) { std::string method, uri, version; char sp1, sp2, cr, lf; std::istream is(&data_); is.unsetf(std::ios_base::skipws); is >> method >> sp1 >> uri >> sp2 >> version >> cr >> lf; ... } } ... boost::asio::ip::tcp::socket socket_; boost::asio::streambuf data_; }; The `streambuf` data member serves as a place to store the data that has been read from the socket before it is searched for the delimiter. It is important to remember that there may be additional data ['after] the delimiter. This surplus data should be left in the `streambuf` so that it may be inspected by a subsequent call to `read_until()` or `async_read_until()`. The delimiters may be specified as a single `char`, a `std::string` or a `boost::regex`. The `read_until()` and `async_read_until()` functions also include overloads that accept a user-defined function object called a match condition. For example, to read data into a streambuf until whitespace is encountered: typedef boost::asio::buffers_iterator< boost::asio::streambuf::const_buffers_type> iterator; std::pair match_whitespace(iterator begin, iterator end) { iterator i = begin; while (i != end) if (std::isspace(*i++)) return std::make_pair(i, true); return std::make_pair(i, false); } ... boost::asio::streambuf b; boost::asio::read_until(s, b, match_whitespace); To read data into a streambuf until a matching character is found: class match_char { public: explicit match_char(char c) : c_(c) {} template std::pair operator()( Iterator begin, Iterator end) const { Iterator i = begin; while (i != end) if (c_ == *i++) return std::make_pair(i, true); return std::make_pair(i, false); } private: char c_; }; namespace boost { namespace asio { template <> struct is_match_condition : public boost::true_type {}; } } // namespace boost::asio ... boost::asio::streambuf b; boost::asio::read_until(s, b, match_char('a')); The `is_match_condition<>` type trait automatically evaluates to true for functions, and for function objects with a nested `result_type` typedef. For other types the trait must be explicitly specialised, as shown above. [heading See Also] [link boost_asio.reference.async_read_until async_read_until()], [link boost_asio.reference.is_match_condition is_match_condition], [link boost_asio.reference.read_until read_until()], [link boost_asio.reference.streambuf streambuf], [link boost_asio.examples.cpp03_examples.http_client HTTP client example]. [endsect]