.. _tutorial-http: HTTP Modules ============ This tutorial demonstrates using the various HTTP modules available in Salt. These modules wrap the Python ``tornado``, ``urllib2``, and ``requests`` libraries, extending them in a manner that is more consistent with Salt workflows. The ``salt.utils.http`` Library ------------------------------- This library forms the core of the HTTP modules. Since it is designed to be used from the minion as an execution module, in addition to the master as a runner, it was abstracted into this multi-use library. This library can also be imported by 3rd-party programs wishing to take advantage of its extended functionality. Core functionality of the execution, state, and runner modules is derived from this library, so common usages between them are described here. Documentation specific to each module is described below. This library can be imported with: .. code-block:: python import salt.utils.http Configuring Libraries ~~~~~~~~~~~~~~~~~~~~~ This library can make use of either ``tornado``, which is required by Salt, ``urllib2``, which ships with Python, or ``requests``, which can be installed separately. By default, ``tornado`` will be used. In order to switch to ``urllib2``, set the following variable: .. code-block:: yaml backend: urllib2 In order to switch to ``requests``, set the following variable: .. code-block:: yaml backend: requests This can be set in the master or minion configuration file, or passed as an option directly to any ``http.query()`` functions. ``salt.utils.http.query()`` ~~~~~~~~~~~~~~~~~~~~~~~~~~~ This function forms a basic query, but with some add-ons not present in the ``tornado``, ``urllib2``, and ``requests`` libraries. Not all functionality currently available in these libraries has been added, but can be in future iterations. HTTPS Request Methods ````````````````````` A basic query can be performed by calling this function with no more than a single URL: .. code-block:: python salt.utils.http.query("http://example.com") By default the query will be performed with a ``GET`` method. The method can be overridden with the ``method`` argument: .. code-block:: python salt.utils.http.query("http://example.com/delete/url", "DELETE") When using the ``POST`` method (and others, such as ``PUT``), extra data is usually sent as well. This data can be sent directly (would be URL encoded when necessary), or in whatever format is required by the remote server (XML, JSON, plain text, etc). .. code-block:: python salt.utils.http.query( "http://example.com/post/url", method="POST", data=json.dumps(mydict) ) Data Formatting and Templating `````````````````````````````` Bear in mind that the data must be sent pre-formatted; this function will not format it for you. However, a templated file stored on the local system may be passed through, along with variables to populate it with. To pass through only the file (untemplated): .. code-block:: python salt.utils.http.query( "http://example.com/post/url", method="POST", data_file="/srv/salt/somefile.xml" ) To pass through a file that contains jinja + yaml templating (the default): .. code-block:: python salt.utils.http.query( "http://example.com/post/url", method="POST", data_file="/srv/salt/somefile.jinja", data_render=True, template_dict={"key1": "value1", "key2": "value2"}, ) To pass through a file that contains mako templating: .. code-block:: python salt.utils.http.query( "http://example.com/post/url", method="POST", data_file="/srv/salt/somefile.mako", data_render=True, data_renderer="mako", template_dict={"key1": "value1", "key2": "value2"}, ) Because this function uses Salt's own rendering system, any Salt renderer can be used. Because Salt's renderer requires ``__opts__`` to be set, an ``opts`` dictionary should be passed in. If it is not, then the default ``__opts__`` values for the node type (master or minion) will be used. Because this library is intended primarily for use by minions, the default node type is ``minion``. However, this can be changed to ``master`` if necessary. .. code-block:: python salt.utils.http.query( "http://example.com/post/url", method="POST", data_file="/srv/salt/somefile.jinja", data_render=True, template_dict={"key1": "value1", "key2": "value2"}, opts=__opts__, ) salt.utils.http.query( "http://example.com/post/url", method="POST", data_file="/srv/salt/somefile.jinja", data_render=True, template_dict={"key1": "value1", "key2": "value2"}, node="master", ) Headers ``````` Headers may also be passed through, either as a ``header_list``, a ``header_dict``, or as a ``header_file``. As with the ``data_file``, the ``header_file`` may also be templated. Take note that because HTTP headers are normally syntactically-correct YAML, they will automatically be imported as an a Python dict. .. code-block:: python salt.utils.http.query( "http://example.com/delete/url", method="POST", header_file="/srv/salt/headers.jinja", header_render=True, header_renderer="jinja", template_dict={"key1": "value1", "key2": "value2"}, ) Because much of the data that would be templated between headers and data may be the same, the ``template_dict`` is the same for both. Correcting possible variable name collisions is up to the user. Authentication `````````````` The ``query()`` function supports basic HTTP authentication. A username and password may be passed in as ``username`` and ``password``, respectively. .. code-block:: python salt.utils.http.query( "http://example.com", username="larry", password="5700g3543v4r", ) Cookies and Sessions ```````````````````` Cookies are also supported, using Python's built-in ``cookielib``. However, they are turned off by default. To turn cookies on, set ``cookies`` to True. .. code-block:: python salt.utils.http.query("http://example.com", cookies=True) By default cookies are stored in Salt's cache directory, normally ``/var/cache/salt``, as a file called ``cookies.txt``. However, this location may be changed with the ``cookie_jar`` argument: .. code-block:: python salt.utils.http.query( "http://example.com", cookies=True, cookie_jar="/path/to/cookie_jar.txt" ) By default, the format of the cookie jar is LWP (aka, lib-www-perl). This default was chosen because it is a human-readable text file. If desired, the format of the cookie jar can be set to Mozilla: .. code-block:: python salt.utils.http.query( "http://example.com", cookies=True, cookie_jar="/path/to/cookie_jar.txt", cookie_format="mozilla", ) Because Salt commands are normally one-off commands that are piped together, this library cannot normally behave as a normal browser, with session cookies that persist across multiple HTTP requests. However, the session can be persisted in a separate cookie jar. The default filename for this file, inside Salt's cache directory, is ``cookies.session.p``. This can also be changed. .. code-block:: python salt.utils.http.query( "http://example.com", persist_session=True, session_cookie_jar="/path/to/jar.p" ) The format of this file is msgpack, which is consistent with much of the rest of Salt's internal structure. Historically, the extension for this file is ``.p``. There are no current plans to make this configurable. Proxy ````` If the ``tornado`` backend is used (``tornado`` is the default), proxy information configured in ``proxy_host``, ``proxy_port``, ``proxy_username``, ``proxy_password`` and ``no_proxy`` from the ``__opts__`` dictionary will be used. Normally these are set in the minion configuration file. .. code-block:: yaml proxy_host: proxy.my-domain proxy_port: 31337 proxy_username: charon proxy_password: obolus no_proxy: ['127.0.0.1', 'localhost'] .. code-block:: python salt.utils.http.query("http://example.com", opts=__opts__, backend="tornado") Return Data ~~~~~~~~~~~ .. note:: Return data encoding If ``decode`` is set to ``True``, ``query()`` will attempt to decode the return data. ``decode_type`` defaults to ``auto``. Set it to a specific encoding, ``xml``, for example, to override autodetection. Because Salt's http library was designed to be used with REST interfaces, ``query()`` will attempt to decode the data received from the remote server when ``decode`` is set to ``True``. First it will check the ``Content-type`` header to try and find references to XML. If it does not find any, it will look for references to JSON. If it does not find any, it will fall back to plain text, which will not be decoded. JSON data is translated into a dict using Python's built-in ``json`` library. XML is translated using ``salt.utils.xml_util``, which will use Python's built-in XML libraries to attempt to convert the XML into a dict. In order to force either JSON or XML decoding, the ``decode_type`` may be set: .. code-block:: python salt.utils.http.query("http://example.com", decode_type="xml") Once translated, the return dict from ``query()`` will include a dict called ``dict``. If the data is not to be translated using one of these methods, decoding may be turned off. .. code-block:: python salt.utils.http.query("http://example.com", decode=False) If decoding is turned on, and references to JSON or XML cannot be found, then this module will default to plain text, and return the undecoded data as ``text`` (even if text is set to ``False``; see below). The ``query()`` function can return the HTTP status code, headers, and/or text as required. However, each must individually be turned on. .. code-block:: python salt.utils.http.query("http://example.com", status=True, headers=True, text=True) The return from these will be found in the return dict as ``status``, ``headers`` and ``text``, respectively. Writing Return Data to Files ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ It is possible to write either the return data or headers to files, as soon as the response is received from the server, but specifying file locations via the ``text_out`` or ``headers_out`` arguments. ``text`` and ``headers`` do not need to be returned to the user in order to do this. .. code-block:: python salt.utils.http.query( "http://example.com", text=False, headers=False, text_out="/path/to/url_download.txt", headers_out="/path/to/headers_download.txt", ) SSL Verification ~~~~~~~~~~~~~~~~ By default, this function will verify SSL certificates. However, for testing or debugging purposes, SSL verification can be turned off. .. code-block:: python salt.utils.http.query( "https://example.com", verify_ssl=False, ) CA Bundles ~~~~~~~~~~ The ``requests`` library has its own method of detecting which CA (certificate authority) bundle file to use. Usually this is implemented by the packager for the specific operating system distribution that you are using. However, ``urllib2`` requires a little more work under the hood. By default, Salt will try to auto-detect the location of this file. However, if it is not in an expected location, or a different path needs to be specified, it may be done so using the ``ca_bundle`` variable. .. code-block:: python salt.utils.http.query( "https://example.com", ca_bundle="/path/to/ca_bundle.pem", ) Updating CA Bundles ``````````````````` The ``update_ca_bundle()`` function can be used to update the bundle file at a specified location. If the target location is not specified, then it will attempt to auto-detect the location of the bundle file. If the URL to download the bundle from does not exist, a bundle will be downloaded from the cURL website. CAUTION: The ``target`` and the ``source`` should always be specified! Failure to specify the ``target`` may result in the file being written to the wrong location on the local system. Failure to specify the ``source`` may cause the upstream URL to receive excess unnecessary traffic, and may cause a file to be download which is hazardous or does not meet the needs of the user. .. code-block:: python salt.utils.http.update_ca_bundle( target="/path/to/ca-bundle.crt", source="https://example.com/path/to/ca-bundle.crt", opts=__opts__, ) The ``opts`` parameter should also always be specified. If it is, then the ``target`` and the ``source`` may be specified in the relevant configuration file (master or minion) as ``ca_bundle`` and ``ca_bundle_url``, respectively. .. code-block:: yaml ca_bundle: /path/to/ca-bundle.crt ca_bundle_url: https://example.com/path/to/ca-bundle.crt If Salt is unable to auto-detect the location of the CA bundle, it will raise an error. The ``update_ca_bundle()`` function can also be passed a string or a list of strings which represent files on the local system, which should be appended (in the specified order) to the end of the CA bundle file. This is useful in environments where private certs need to be made available, and are not otherwise reasonable to add to the bundle file. .. code-block:: python salt.utils.http.update_ca_bundle( opts=__opts__, merge_files=[ "/etc/ssl/private_cert_1.pem", "/etc/ssl/private_cert_2.pem", "/etc/ssl/private_cert_3.pem", ], ) Test Mode ~~~~~~~~~ This function may be run in test mode. This mode will perform all work up until the actual HTTP request. By default, instead of performing the request, an empty dict will be returned. Using this function with ``TRACE`` logging turned on will reveal the contents of the headers and POST data to be sent. Rather than returning an empty dict, an alternate ``test_url`` may be passed in. If this is detected, then test mode will replace the ``url`` with the ``test_url``, set ``test`` to ``True`` in the return data, and perform the rest of the requested operations as usual. This allows a custom, non-destructive URL to be used for testing when necessary. Execution Module ---------------- The ``http`` execution module is a very thin wrapper around the ``salt.utils.http`` library. The ``opts`` can be passed through as well, but if they are not specified, the minion defaults will be used as necessary. Because passing complete data structures from the command line can be tricky at best and dangerous (in terms of execution injection attacks) at worse, the ``data_file``, and ``header_file`` are likely to see more use here. All methods for the library are available in the execution module, as kwargs. .. code-block:: bash salt myminion http.query http://example.com/restapi method=POST \ username='larry' password='5700g3543v4r' headers=True text=True \ status=True decode_type=xml data_render=True \ header_file=/tmp/headers.txt data_file=/tmp/data.txt \ header_render=True cookies=True persist_session=True Runner Module ------------- Like the execution module, the ``http`` runner module is a very thin wrapper around the ``salt.utils.http`` library. The only significant difference is that because runners execute on the master instead of a minion, a target is not required, and default opts will be derived from the master config, rather than the minion config. All methods for the library are available in the runner module, as kwargs. .. code-block:: bash salt-run http.query http://example.com/restapi method=POST \ username='larry' password='5700g3543v4r' headers=True text=True \ status=True decode_type=xml data_render=True \ header_file=/tmp/headers.txt data_file=/tmp/data.txt \ header_render=True cookies=True persist_session=True State Module ------------ The state module is a wrapper around the runner module, which applies stateful logic to a query. All kwargs as listed above are specified as usual in state files, but two more kwargs are available to apply stateful logic. A required parameter is ``match``, which specifies a pattern to look for in the return text. By default, this will perform a string comparison of looking for the value of match in the return text. In Python terms this looks like: .. code-block:: python if match in html_text: return True If more complex pattern matching is required, a regular expression can be used by specifying a ``match_type``. By default this is set to ``string``, but it can be manually set to ``pcre`` instead. Please note that despite the name, this will use Python's ``re.search()`` rather than ``re.match()``. Therefore, the following states are valid: .. code-block:: yaml http://example.com/restapi: http.query: - match: 'SUCCESS' - username: 'larry' - password: '5700g3543v4r' - data_render: True - header_file: /tmp/headers.txt - data_file: /tmp/data.txt - header_render: True - cookies: True - persist_session: True http://example.com/restapi: http.query: - match_type: pcre - match: '(?i)succe[ss|ed]' - username: 'larry' - password: '5700g3543v4r' - data_render: True - header_file: /tmp/headers.txt - data_file: /tmp/data.txt - header_render: True - cookies: True - persist_session: True In addition to, or instead of a match pattern, the status code for a URL can be checked. This is done using the ``status`` argument: .. code-block:: yaml http://example.com/: http.query: - status: 200 If both are specified, both will be checked, but if only one is ``True`` and the other is ``False``, then ``False`` will be returned. In this case, the comments in the return data will contain information for troubleshooting. Because this is a monitoring state, it will return extra data to code that expects it. This data will always include ``text`` and ``status``. Optionally, ``headers`` and ``dict`` may also be requested by setting the ``headers`` and ``decode`` arguments to True, respectively.