boost_1_45_0/libs/asio/doc/overview/ssl.qbk - nest-learning-thermostat/5.0/boost - Git at Google

 [/
  / Copyright (c) 2003-2010 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:ssl SSL]

 Boost.Asio contains classes and class templates for basic SSL support. These classes
 allow encrypted communication to be layered on top of an existing stream, such
 as a TCP socket.

 Before creating an encrypted stream, an application must construct an SSL
 context object. This object is used to set SSL options such as verification
 mode, certificate files, and so on. As an illustration, client-side
 initialisation may look something like:

   ssl::context ctx(my_io_service, ssl::context::sslv23);
   ctx.set_verify_mode(ssl::context::verify_peer);
   ctx.load_verify_file("ca.pem");

 To use SSL with a TCP socket, one may write:

   ssl::stream<ip::tcp::socket> ssl_sock(my_io_service, ctx);

 To perform socket-specific operations, such as establishing an outbound
 connection or accepting an incoming one, the underlying socket must first be
 obtained using the `ssl::stream` template's [link
 boost_asio.reference.ssl__stream.lowest_layer `lowest_layer()`] member function:

   ip::tcp::socket::lowest_layer_type& sock = ssl_sock.lowest_layer();
   sock.connect(my_endpoint);

 In some use cases the underlying stream object will need to have a longer
 lifetime than the SSL stream, in which case the template parameter should be a
 reference to the stream type:

   ip::tcp::socket sock(my_io_service);
   ssl::stream<ip::tcp::socket&> ssl_sock(sock, ctx);

 SSL handshaking must be performed prior to transmitting or receiving data over
 an encrypted connection. This is accomplished using the `ssl::stream`
 template's [link boost_asio.reference.ssl__stream.handshake handshake()] or
 [link boost_asio.reference.ssl__stream.async_handshake async_handshake()] member
 functions.

 Once connected, SSL stream objects are used as synchronous or asynchronous read
 and write streams. This means the objects can be used with any of the [link
 boost_asio.reference.read read()], [link boost_asio.reference.async_read async_read()],
 [link boost_asio.reference.write write()], [link boost_asio.reference.async_write
 async_write()], [link boost_asio.reference.read_until read_until()] or [link
 boost_asio.reference.async_read_until async_read_until()] free functions.

 [heading See Also]

 [link boost_asio.reference.ssl__basic_context ssl::basic_context],
 [link boost_asio.reference.ssl__context ssl::context],
 [link boost_asio.reference.ssl__context_base ssl::context_base],
 [link boost_asio.reference.ssl__context_service ssl::context_service],
 [link boost_asio.reference.ssl__stream ssl::stream],
 [link boost_asio.reference.ssl__stream_base ssl::stream_base],
 [link boost_asio.reference.ssl__stream_service ssl::stream_service],
 [link boost_asio.examples.ssl SSL example].

 [heading Notes]

 [@http://www.openssl.org OpenSSL] is required to make use of Boost.Asio's SSL
 support. When an application needs to use OpenSSL functionality that is not
 wrapped by Boost.Asio, the underlying OpenSSL types may be obtained by calling [link
 boost_asio.reference.ssl__basic_context.impl `ssl::context::impl()`] or [link
 boost_asio.reference.ssl__stream.impl `ssl::stream::impl()`].

 [endsect]
	[/
	/ Copyright (c) 2003-2010 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:ssl SSL]

	Boost.Asio contains classes and class templates for basic SSL support. These classes
	allow encrypted communication to be layered on top of an existing stream, such
	as a TCP socket.

	Before creating an encrypted stream, an application must construct an SSL
	context object. This object is used to set SSL options such as verification
	mode, certificate files, and so on. As an illustration, client-side
	initialisation may look something like:

	ssl::context ctx(my_io_service, ssl::context::sslv23);
	ctx.set_verify_mode(ssl::context::verify_peer);
	ctx.load_verify_file("ca.pem");

	To use SSL with a TCP socket, one may write:

	ssl::stream<ip::tcp::socket> ssl_sock(my_io_service, ctx);

	To perform socket-specific operations, such as establishing an outbound
	connection or accepting an incoming one, the underlying socket must first be
	obtained using the `ssl::stream` template's [link
	boost_asio.reference.ssl__stream.lowest_layer `lowest_layer()`] member function:

	ip::tcp::socket::lowest_layer_type& sock = ssl_sock.lowest_layer();
	sock.connect(my_endpoint);

	In some use cases the underlying stream object will need to have a longer
	lifetime than the SSL stream, in which case the template parameter should be a
	reference to the stream type:

	ip::tcp::socket sock(my_io_service);
	ssl::stream<ip::tcp::socket&> ssl_sock(sock, ctx);

	SSL handshaking must be performed prior to transmitting or receiving data over
	an encrypted connection. This is accomplished using the `ssl::stream`
	template's [link boost_asio.reference.ssl__stream.handshake handshake()] or
	[link boost_asio.reference.ssl__stream.async_handshake async_handshake()] member
	functions.

	Once connected, SSL stream objects are used as synchronous or asynchronous read
	and write streams. This means the objects can be used with any of the [link
	boost_asio.reference.read read()], [link boost_asio.reference.async_read async_read()],
	[link boost_asio.reference.write write()], [link boost_asio.reference.async_write
	async_write()], [link boost_asio.reference.read_until read_until()] or [link
	boost_asio.reference.async_read_until async_read_until()] free functions.

	[heading See Also]

	[link boost_asio.reference.ssl__basic_context ssl::basic_context],
	[link boost_asio.reference.ssl__context ssl::context],
	[link boost_asio.reference.ssl__context_base ssl::context_base],
	[link boost_asio.reference.ssl__context_service ssl::context_service],
	[link boost_asio.reference.ssl__stream ssl::stream],
	[link boost_asio.reference.ssl__stream_base ssl::stream_base],
	[link boost_asio.reference.ssl__stream_service ssl::stream_service],
	[link boost_asio.examples.ssl SSL example].

	[heading Notes]

	[@http://www.openssl.org OpenSSL] is required to make use of Boost.Asio's SSL
	support. When an application needs to use OpenSSL functionality that is not
	wrapped by Boost.Asio, the underlying OpenSSL types may be obtained by calling [link
	boost_asio.reference.ssl__basic_context.impl `ssl::context::impl()`] or [link
	boost_asio.reference.ssl__stream.impl `ssl::stream::impl()`].

	[endsect]