mirror of https://github.com/python/cpython
398 lines
16 KiB
ReStructuredText
398 lines
16 KiB
ReStructuredText
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:mod:`ssl` --- SSL wrapper for socket objects
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====================================================================
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.. module:: ssl
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:synopsis: SSL wrapper for socket objects
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.. moduleauthor:: Bill Janssen <bill.janssen@gmail.com>
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.. versionadded:: 2.6
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.. sectionauthor:: Bill Janssen <bill.janssen@gmail.com>
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This module provides access to Transport Layer Security (often known
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as "Secure Sockets Layer") encryption and peer authentication
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facilities for network sockets, both client-side and server-side.
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This module uses the OpenSSL library. It is available on all modern
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Unix systems, Windows, Mac OS X, and probably additional
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platforms, as long as OpenSSL is installed on that platform.
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.. note::
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Some behavior may be platform dependent, since calls are made to the operating
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system socket APIs.
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This section documents the objects and functions in the ``ssl`` module;
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for more general information about TLS, SSL, and certificates, the
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reader is referred to the documents in the :ref:`ssl-references` section.
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This module defines a class, :class:`ssl.sslsocket`, which is
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derived from the :class:`socket.socket` type, and supports additional
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:meth:`read` and :meth:`write` methods, along with a method, :meth:`getpeercert`,
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to retrieve the certificate of the other side of the connection.
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This module defines the following functions, exceptions, and constants:
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.. function:: cert_time_to_seconds(timestring)
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Returns a floating-point value containing a normal seconds-after-the-epoch time
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value, given the time-string representing the "notBefore" or "notAfter" date
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from a certificate.
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Here's an example::
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>>> import ssl
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>>> ssl.cert_time_to_seconds("May 9 00:00:00 2007 GMT")
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1178694000.0
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>>> import time
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>>> time.ctime(ssl.cert_time_to_seconds("May 9 00:00:00 2007 GMT"))
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'Wed May 9 00:00:00 2007'
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>>>
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.. exception:: sslerror
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Raised to signal an error from the underlying SSL implementation. This
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signifies some problem in the higher-level
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encryption and authentication layer that's superimposed on the underlying
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network connection.
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.. data:: CERT_NONE
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Value to pass to the ``cert_reqs`` parameter to :func:`sslobject`
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when no certificates will be required or validated from the other
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side of the socket connection.
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.. data:: CERT_OPTIONAL
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Value to pass to the ``cert_reqs`` parameter to :func:`sslobject`
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when no certificates will be required from the other side of the
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socket connection, but if they are provided, will be validated.
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Note that use of this setting requires a valid certificate
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validation file also be passed as a value of the ``ca_certs``
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parameter.
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.. data:: CERT_REQUIRED
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Value to pass to the ``cert_reqs`` parameter to :func:`sslobject`
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when certificates will be required from the other side of the
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socket connection. Note that use of this setting requires a valid certificate
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validation file also be passed as a value of the ``ca_certs``
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parameter.
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.. data:: PROTOCOL_SSLv2
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Selects SSL version 2 as the channel encryption protocol.
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.. data:: PROTOCOL_SSLv23
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Selects SSL version 2 or 3 as the channel encryption protocol. This is a setting to use for maximum compatibility
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with the other end of an SSL connection, but it may cause the specific ciphers chosen for the encryption to be
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of fairly low quality.
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.. data:: PROTOCOL_SSLv3
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Selects SSL version 3 as the channel encryption protocol.
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.. data:: PROTOCOL_TLSv1
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Selects SSL version 2 as the channel encryption protocol. This is
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the most modern version, and probably the best choice for maximum
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protection, if both sides can speak it.
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.. _ssl-certificates:
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Certificates
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------------
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Certificates in general are part of a public-key / private-key system. In this system, each *principal*,
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(which may be a machine, or a person, or an organization) is assigned a unique two-part encryption key.
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One part of the key is public, and is called the *public key*; the other part is kept secret, and is called
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the *private key*. The two parts are related, in that if you encrypt a message with one of the parts, you can
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decrypt it with the other part, and **only** with the other part.
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A certificate contains information about two principals. It contains
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the name of a *subject*, and the subject's public key. It also
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contains a statement by a second principal, the *issuer*, that the
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subject is who he claims to be, and that this is indeed the subject's
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public key. The issuer's statement is signed with the issuer's
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private key, which only the issuer knows. However, anyone can verify
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the issuer's statement by finding the issuer's public key, decrypting
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the statement with it, and comparing it to the other information in
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the certificate. The certificate also contains information about the
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time period over which it is valid. This is expressed as two fields,
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called "notBefore" and "notAfter".
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In the Python use of certificates, a client or server
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can use a certificate to prove who they are. The other
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side of a network connection can also be required to produce a certificate,
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and that certificate can be validated to the satisfaction
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of the client or server that requires such validation.
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The connection can be set to fail automatically if such
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validation is not achieved.
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Python uses files to contain certificates. They should be formatted
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as "PEM" (see :rfc:`1422`), which is a base-64 encoded form wrapped
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with a header line and a footer line::
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-----BEGIN CERTIFICATE-----
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... (certificate in base64 PEM encoding) ...
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-----END CERTIFICATE-----
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The Python files which contain certificates can contain a sequence
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of certificates, sometimes called a *certificate chain*. This chain
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should start with the specific certificate for the principal who "is"
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the client or server, and then the certificate for the issuer of that
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certificate, and then the certificate for the issuer of *that* certificate,
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and so on up the chain till you get to a certificate which is *self-signed*,
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that is, a certificate which has the same subject and issuer,
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sometimes called a *root certificate*. The certificates should just
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be concatenated together in the certificate file. For example, suppose
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we had a three certificate chain, from our server certificate to the
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certificate of the certification authority that signed our server certificate,
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to the root certificate of the agency which issued the certification authority's
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certificate::
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-----BEGIN CERTIFICATE-----
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... (certificate for your server)...
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-----END CERTIFICATE-----
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-----BEGIN CERTIFICATE-----
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... (the certificate for the CA)...
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-----END CERTIFICATE-----
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-----BEGIN CERTIFICATE-----
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... (the root certificate for the CA's issuer)...
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-----END CERTIFICATE-----
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If you are going to require validation of the other side of the connection's
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certificate, you need to provide a "CA certs" file, filled with the certificate
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chains for each issuer you are willing to trust. Again, this file just
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contains these chains concatenated together. For validation, Python will
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use the first chain it finds in the file which matches.
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Some "standard" root certificates are available at
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http://www.thawte.com/roots/ (for Thawte roots) and
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http://www.verisign.com/support/roots.html (for Verisign roots).
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See also :rfc:`4158` for more discussion of the way in which
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certification chains can be built.
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sslsocket Objects
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-----------------
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.. class:: sslsocket(sock [, keyfile=None, certfile=None, server_side=False, cert_reqs=CERT_NONE, ssl_version=PROTOCOL_SSLv23, ca_certs=None])
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Takes an instance ``sock`` of :class:`socket.socket`, and returns an instance of a subtype
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of :class:`socket.socket` which wraps the underlying socket in an SSL context.
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For client-side sockets, the context construction is lazy; if the underlying socket isn't
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connected yet, the context construction will be performed after :meth:`connect` is called
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on the socket.
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The ``keyfile`` and ``certfile`` parameters specify optional files which contain a certificate
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to be used to identify the local side of the connection. See the above discussion of :ref:`ssl-certificates`
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for more information on how the certificate is stored in the ``certfile``.
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Often the private key is stored
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in the same file as the certificate; in this case, only the ``certfile`` parameter need be
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passed. If the private key is stored in a separate file, both parameters must be used.
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If the private key is stored in the ``certfile``, it should come before the first certificate
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in the certificate chain::
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-----BEGIN RSA PRIVATE KEY-----
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... (private key in base64 encoding) ...
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-----END RSA PRIVATE KEY-----
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-----BEGIN CERTIFICATE-----
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... (certificate in base64 PEM encoding) ...
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-----END CERTIFICATE-----
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The parameter ``server_side`` is a boolean which identifies whether server-side or client-side
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behavior is desired from this socket.
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The parameter ``cert_reqs`` specifies whether a certificate is
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required from the other side of the connection, and whether it will
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be validated if provided. It must be one of the three values
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:const:`CERT_NONE` (certificates ignored), :const:`CERT_OPTIONAL` (not required,
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but validated if provided), or :const:`CERT_REQUIRED` (required and
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validated). If the value of this parameter is not :const:`CERT_NONE`, then
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the ``ca_certs`` parameter must point to a file of CA certificates.
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The parameter ``ssl_version`` specifies which version of the SSL protocol to use. Typically,
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the server specifies this, and a client connecting to it must use the same protocol. An
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SSL server using :const:`PROTOCOL_SSLv23` can understand a client connecting via SSL2, SSL3, or TLS1,
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but a client using :const:`PROTOCOL_SSLv23` can only connect to an SSL2 server.
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The ``ca_certs`` file contains a set of concatenated "certification authority" certificates,
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which are used to validate certificates passed from the other end of the connection.
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See the above discussion of :ref:`ssl-certificates` for more information about how to arrange
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the certificates in this file.
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.. method:: sslsocket.read([nbytes])
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Reads up to ``nbytes`` bytes from the SSL-encrypted channel and returns them.
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.. method:: sslsocket.write(data)
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Writes the ``data`` to the other side of the connection, using the SSL channel to encrypt. Returns the number
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of bytes written.
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.. method:: sslsocket.getpeercert()
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If there is no certificate for the peer on the other end of the connection, returns ``None``.
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If a certificate was received from the peer, but not validated, returns an empty ``dict`` instance.
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If a certificate was received and validated, returns a ``dict`` instance with the fields
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``subject`` (the principal for which the certificate was issued), ``issuer`` (the signer of
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the certificate), ``notBefore`` (the time before which the certificate should not be trusted),
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and ``notAfter`` (the time after which the certificate should not be trusted) filled in.
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The "subject" and "issuer" fields are tuples containing the name-value fields
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given in the certificate's data structure for each principal::
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{'issuer': (('countryName', u'US'),
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('stateOrProvinceName', u'Delaware'),
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('localityName', u'Wilmington'),
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('organizationName', u'Python Software Foundation'),
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('organizationalUnitName', u'SSL'),
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('commonName', u'somemachine.python.org')),
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'notAfter': 'Feb 16 16:54:50 2013 GMT',
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'notBefore': 'Aug 27 16:54:50 2007 GMT',
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'subject': (('countryName', u'US'),
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('stateOrProvinceName', u'Delaware'),
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('localityName', u'Wilmington'),
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('organizationName', u'Python Software Foundation'),
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('organizationalUnitName', u'SSL'),
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('commonName', u'somemachine.python.org')),
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'version': 2}
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This certificate is said to be *self-signed*, because the subject
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and issuer are the same entity. The *version* field refers to the X509 version
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that's used for the certificate.
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.. method:: sslsocket.ssl_shutdown()
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Closes the SSL context (if any) over the socket, but leaves the socket connection
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open for further use, if both sides are willing. This is different from :meth:`socket.socket.shutdown`,
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which will close the connection, but leave the local socket available for further use.
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Examples
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--------
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Testing for SSL support
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^^^^^^^^^^^^^^^^^^^^^^^
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To test for the presence of SSL support in a Python installation, user code should use the following idiom::
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try:
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import ssl
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except ImportError:
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pass
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else:
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[ do something that requires SSL support ]
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Client-side operation
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^^^^^^^^^^^^^^^^^^^^^
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This example connects to an SSL server, prints the server's address and certificate,
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sends some bytes, and reads part of the response::
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import socket, ssl, pprint
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s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
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ssl_sock = ssl.sslsocket(s, ca_certs="/etc/ca_certs_file", cert_reqs=ssl.CERT_REQUIRED)
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ssl_sock.connect(('www.verisign.com', 443))
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print repr(ssl_sock.getpeername())
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print pprint.pformat(ssl_sock.getpeercert())
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# Set a simple HTTP request -- use httplib in actual code.
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ssl_sock.write("""GET / HTTP/1.0\r
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Host: www.verisign.com\r\n\r\n""")
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# Read a chunk of data. Will not necessarily
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# read all the data returned by the server.
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data = ssl_sock.read()
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# note that closing the sslsocket will also close the underlying socket
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ssl_sock.close()
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As of September 4, 2007, the certificate printed by this program
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looked like this::
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{'issuer': (('countryName', u'US'),
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('organizationName', u'VeriSign, Inc.'),
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('organizationalUnitName', u'VeriSign Trust Network'),
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('organizationalUnitName',
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u'Terms of use at https://www.verisign.com/rpa (c)06'),
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('commonName',
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u'VeriSign Class 3 Extended Validation SSL SGC CA')),
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'notAfter': 'May 8 23:59:59 2009 GMT',
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'notBefore': 'May 9 00:00:00 2007 GMT',
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'subject': (('serialNumber', u'2497886'),
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('1.3.6.1.4.1.311.60.2.1.3', u'US'),
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('1.3.6.1.4.1.311.60.2.1.2', u'Delaware'),
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('countryName', u'US'),
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('postalCode', u'94043'),
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('stateOrProvinceName', u'California'),
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('localityName', u'Mountain View'),
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('streetAddress', u'487 East Middlefield Road'),
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('organizationName', u'VeriSign, Inc.'),
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('organizationalUnitName', u'Production Security Services'),
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('organizationalUnitName',
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u'Terms of use at www.verisign.com/rpa (c)06'),
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('commonName', u'www.verisign.com')),
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'version': 2}
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Server-side operation
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^^^^^^^^^^^^^^^^^^^^^
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For server operation, typically you'd need to have a server certificate, and private key, each in a file.
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You'd open a socket, bind it to a port, call :meth:`listen` on it, then start waiting for clients
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to connect::
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import socket, ssl
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bindsocket = socket.socket()
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bindsocket.bind(('myaddr.mydomain.com', 10023))
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bindsocket.listen(5)
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When one did, you'd call :meth:`accept` on the socket to get the new socket from the other
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end, and use :func:`sslsocket` to create a server-side SSL context for it::
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while True:
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newsocket, fromaddr = bindsocket.accept()
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connstream = ssl.sslsocket(newsocket, server_side=True, certfile="mycertfile",
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keyfile="mykeyfile", ssl_protocol=ssl.PROTOCOL_TLSv1)
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deal_with_client(connstream)
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Then you'd read data from the ``connstream`` and do something with it till you are finished with the client (or the client is finished with you)::
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def deal_with_client(connstream):
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data = connstream.read()
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# null data means the client is finished with us
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while data:
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if not do_something(connstream, data):
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# we'll assume do_something returns False when we're finished with client
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break
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data = connstream.read()
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# finished with client
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connstream.close()
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And go back to listening for new client connections.
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.. _ssl-references:
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References
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----------
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Class :class:`socket.socket`
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Documentation of underlying :mod:`socket` class
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`Introducing SSL and Certificates using OpenSSL <http://old.pseudonym.org/ssl/wwwj-index.html>`_, by Frederick J. Hirsch
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`Privacy Enhancement for Internet Electronic Mail: Part II: Certificate-Based Key Management`, :rfc:`1422`, by Steve Kent
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`Internet X.509 Public Key Infrastructure Certificate and CRL Profile`, :rfc:`3280`, Housley et. al.
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