pax_global_header00006660000000000000000000000064126454142410014515gustar00rootroot0000000000000052 comment=34a9504500e3a5f112885e8e854aeef3f30b8b0a ripe-atlas-cousteau-1.0.7/000077500000000000000000000000001264541424100154115ustar00rootroot00000000000000ripe-atlas-cousteau-1.0.7/.gitignore000066400000000000000000000004171264541424100174030ustar00rootroot00000000000000*.py[cod] # C extensions *.so # Packages *.egg *.eggs *.egg-info dist build eggs parts bin var sdist develop-eggs .installed.cfg lib lib64 # Unit test / coverage reports .coverage .tox nosetests.xml # Mr Developer .idea/ # virtualenvs python/ # vim swp files *.swp ripe-atlas-cousteau-1.0.7/.travis.yml000066400000000000000000000004371264541424100175260ustar00rootroot00000000000000language: python sudo: false cache: pip env: - TOXENV=py26 - TOXENV=py27 - TOXENV=py34 - TOXENV=pypy3 - TOXENV=py27-pyflakes - TOXENV=py27-pep8 - TOXENV=py27-coverage install: - pip install tox - pip install coveralls script: tox after_success: coveralls --verbose ripe-atlas-cousteau-1.0.7/CHANGES.rst000066400000000000000000000114551264541424100172210ustar00rootroot00000000000000Releases History ================ 1.0.7 (released 2016-01-13) --------------------------- Changes: ~~~~~~~~ - Backwards compatible change of the format we expect for measurement type to handle upcoming change in the API. Bug Fixes: ~~~~~~~~~~ - Fix bug when creating stream for probes connection channel. Updating also wrong documentation. 1.0.6 (released 2015-12-15) --------------------------- Changes: ~~~~~~~~ - Add copyright text everywhere for debian packaging. 1.0.5 (released 2015-12-14) --------------------------- Changes: ~~~~~~~~ - Add tests to the package itself. - Make user-agent changeable by the user. - Various refactorings. 1.0.4 (released 2015-11-6) -------------------------- Changes: ~~~~~~~~ - Handle both string/dictionary as input for probe_ids filter for Result and LatestResult requests. 1.0.2 (released 2015-10-26) --------------------------- Bug Fixes: ~~~~~~~~~~ - Fix bug where key parameter was added to the url even if it was empty. - Fix bug where we didn't try to unjson 4xx responses even if they could contain json structure. 1.0.1 (released 2015-10-23) --------------------------- Changes: ~~~~~~~~ - Now we conform to new API feature that allows for specifying tags when adding probes to existing measurements Bug Fixes: ~~~~~~~~~~ - Fix bug we didn't allow user to specify single tag include/exclude. 1.0 (released 2015-10-21) ------------------------- New features: ~~~~~~~~~~~~~ - Add support for include/exclude tags in changing sources requests. - Add support for latest results API call. - Implement HTTP measurement creation. - Support for python 3 (<=3.4). - Support for pypy/pypy3. - Support for wheels format. Changes: ~~~~~~~~ - Migrate all Atlas requests to use requests library and refactor a lot of code to have a cleaner version. - Create an API v2 translator to address several option name changing. A deprecation warning will be given. Bug Fixes: ~~~~~~~~~~ - Fix bug where python representation of measurements without a stop time was exploding. - Make sure start/stop timestamps in measurement create request are always in UTC. 0.10.1 (released 2015-10-06) ---------------------------- New features: ~~~~~~~~~~~~~ - Implement support for object return in the request generators for probe/measurement. Changes: ~~~~~~~~ - Probe/Measurement python representation takes meta data from v2 API as well. Now everything should point to v2 API. 0.10 (released 2015-10-01) -------------------------- New features: ~~~~~~~~~~~~~ - add object representation of meta data for a probe or a measurement. Changes: ~~~~~~~~ - Abandon v1 RIPE ATLAS API and use only v2. Bug Fixes: ~~~~~~~~~~ - Fix bug that prevented users from specifying all possible source types when they tried to add more probes to existing measurements. - Cover case where a user specified really long list of probes/measurements in the ProbeRequest/MeasurementRequest that was causing 'HTTP ERROR 414: Request-URI Too Long'. Additionally, now if API returns error raise an exception instead of stopping iteration. 0.9.2 (released 2015-09-21) --------------------------- Changes: ~~~~~~~~ - Small refactor of Stream class and manually enforce websockets in SocketIO client 0.9.1 (released 2015-09-03) --------------------------- Bug Fixes: ~~~~~~~~~~ - Fix bug related to binding result atlas stream. 0.9 (released 2015-09-01) ------------------------- New features: ~~~~~~~~~~~~~ - add support for fetching real time results using RIPE Atlas stream server. - this version and on will be available on PYPI. 0.8 (released 2015-08-31) ------------------------- New features: ~~~~~~~~~~~~~ - add support for NTP measurements. 0.7 (released 2015-06-03) ------------------------- New features: ~~~~~~~~~~~~~ - add support for fetching probes/measurements meta data using python generators. 0.6 (released 2014-06-17) ------------------------- New features: ~~~~~~~~~~~~~ - add support for querying results based on start/end time, msm_id and probe id. Changes: ~~~~~~~~ - add http agent according to package version to all requests. 0.5 (released 2014-05-22) ------------------------- Changes: ~~~~~~~~ - change package structure to comply with the new structure of atlas packages - add continuous integration support - add tests - enable travis - enable code health checks - add required files for uploading to github 0.4 (released 2014-03-31) ------------------------- New features: ~~~~~~~~~~~~~ - add support for stopping a measurement. 0.3 (released 2014-02-25) ------------------------- New features: ~~~~~~~~~~~~~ - add simple support for HTTP GET queries. 0.2 (released 2014-02-03) ------------------------- New features: ~~~~~~~~~~~~~ - add support for adding/removing probes API request. Changes: ~~~~~~~~ - use AtlasCreateRequest instead of AtlasRequest for creating a new measurement. 0.1 (released 2014-01-21) ------------------------- - Initial release. ripe-atlas-cousteau-1.0.7/LICENSE000066400000000000000000001044611264541424100164240ustar00rootroot00000000000000GNU GENERAL PUBLIC LICENSE Version 3, 29 June 2007 Copyright (C) 2007 Free Software Foundation, Inc. Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. Preamble The GNU General Public License is a free, copyleft license for software and other kinds of works. The licenses for most software and other practical works are designed to take away your freedom to share and change the works. By contrast, the GNU General Public License is intended to guarantee your freedom to share and change all versions of a program--to make sure it remains free software for all its users. 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If the program does terminal interaction, make it output a short notice like this when it starts in an interactive mode: {project} Copyright (C) {year} {fullname} This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'. This is free software, and you are welcome to redistribute it under certain conditions; type `show c' for details. The hypothetical commands `show w' and `show c' should show the appropriate parts of the General Public License. Of course, your program's commands might be different; for a GUI interface, you would use an "about box". You should also get your employer (if you work as a programmer) or school, if any, to sign a "copyright disclaimer" for the program, if necessary. For more information on this, and how to apply and follow the GNU GPL, see . The GNU General Public License does not permit incorporating your program into proprietary programs. If your program is a subroutine library, you may consider it more useful to permit linking proprietary applications with the library. If this is what you want to do, use the GNU Lesser General Public License instead of this License. But first, please read . ripe-atlas-cousteau-1.0.7/MANIFEST.in000066400000000000000000000002041264541424100171430ustar00rootroot00000000000000include LICENSE include README.rst include MANIFEST.in include CHANGES.rst recursive-include ripe *.py recursive-include tests *.py ripe-atlas-cousteau-1.0.7/README.rst000066400000000000000000000213351264541424100171040ustar00rootroot00000000000000RIPE Atlas Cousteau =================== |Build Status| |Code Health| |PYPI Version| |Python Versions| |Python Implementations| |Python Format| A python wrapper around RIPE ATLAS API. (Until version 0.9.* this wrapper supported v1 API. After version 0.10 and above v2 RIPE ATLAS API is only supported.) Installation ------------ You can install by either cloning the repo and run the following inside the repo: .. code:: bash $ python setup.py install or via pip using: .. code:: bash $ pip install ripe.atlas.cousteau Usage ----- Creating a Measurement ~~~~~~~~~~~~~~~~~~~~~~ Creating two new RIPE Atlas UDMs is as easy as: .. code:: python from datetime import datetime from ripe.atlas.cousteau import ( Ping, Traceroute, AtlasSource, AtlasCreateRequest ) ATLAS_API_KEY = "" ping = Ping(af=4, target="www.google.gr", description="testing new wrapper") traceroute = Traceroute( af=4, target="www.ripe.net", description="testing", protocol="ICMP", ) source = AtlasSource(type="area", value="WW", requested=5) atlas_request = AtlasCreateRequest( start_time=datetime.utcnow(), key=ATLAS_API_KEY, measurements=[ping, traceroute], sources=[source], is_oneoff=True ) (is_success, response) = atlas_request.create() Keep in mind that this library is trying to comply with what is stated in the `documentation pages`_. This means that if you try to create a request that is missing a field stated as required, the library won't go ahead and do the HTTP query. On the contrary, it will raise an exception with some info in it. The available measurements types are Ping, Traceroute, Dns, Sslcert, Ntp, Http. .. _documentation pages: https://atlas.ripe.net/docs/measurement-creation-api/ Changing Measurement Sources ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Similarly if you want to change (add in the following example) probes for an existing measurement you can do: .. code:: python from ripe.atlas.cousteau import AtlasChangeSource, AtlasChangeRequest ATLAS_MODIFY_API_KEY = "" source = AtlasChangeSource( value="GR", requested=3, type="country", action="add" ) atlas_request = AtlasChangeRequest( key=ATLAS_MODIFY_API_KEY, msm_id=1000001, sources=[source] ) (is_success, response) = atlas_request.create() Same applies if you want to remove probes, you just have to change "action" key to "remove" and specify probes you want to remove. Keep in mind remove action supports only a list of probes and not the rest of the source types. For more info check the appropriate `docs`_. .. _docs: https://atlas.ripe.net/docs/rest/#participation-request Stopping Measurement ~~~~~~~~~~~~~~~~~~~~ You can stop a measurement with: .. code:: python from ripe.atlas.cousteau import AtlasStopRequest ATLAS_STOP_API_KEY = "" atlas_request = AtlasStopRequest(msm_id=1000001, key=ATLAS_STOP_API_KEY) (is_success, response) = atlas_request.create() In order to be able to successfully create most of the above you need to create an `API key`_. .. _API key: https://atlas.ripe.net/docs/keys/ Make Any API Get Requests ~~~~~~~~~~~~~~~~~~~~~~~~~ If you know the url path you can make any request easily towards ATLAS API. .. code:: python url_path = "/api/v2/anchors" request = AtlasRequest(**{"url_path": url_path}) result = namedtuple('Result', 'success response') (is_success, response) = request.get() if not is_success: return False return result.response["participant_count"] Fetch Results ~~~~~~~~~~~~~ You can fetch results for any measurements using cousteau. In the following example we are getting all results for measurement ID 2016892 and for probe IDs 1,2,3,4 between 2015-05-19 and 2015-05-20. Times can be python datetime objects, Unix timestamps or string representations of dates. .. code:: python from datetime import datetime from ripe.atlas.cousteau import AtlasResultsRequest kwargs = { "msm_id": 2016892, "start": datetime(2015, 05, 19), "stop": datetime(2015, 05, 20), "probe_ids": [1,2,3,4] } is_success, results = AtlasResultsRequest(**kwargs).create() if is_success: print(results) Fetch real time results ~~~~~~~~~~~~~~~~~~~~~~~ Besides fetching results from main API it is possible to get results though `streaming API`_. .. code:: python from ripe.atlas.cousteau import AtlasStream def on_result_response(*args): """ Function that will be called every time we receive a new result. Args is a tuple, so you should use args[0] to access the real message. """ print args[0] atlas_stream = AtlasStream() atlas_stream.connect() # Measurement results channel = "result" # Bind function we want to run with every result message received atlas_stream.bind_channel(channel, on_result_response) # Subscribe to new stream for 1001 measurement results stream_parameters = {"msm": 1001} atlas_stream.start_stream(stream_type="result", **stream_parameters) # Probe's connection status results channel = "probe" atlas_stream.bind_channel(channel, on_result_response) stream_parameters = {"enrichProbes": True} atlas_stream.start_stream(stream_type="probestatus", **stream_parameters) # Timeout all subscriptions after 5 secs. Leave seconds empty for no timeout. # Make sure you have this line after you start *all* your streams atlas_stream.timeout(seconds=5) # Shut down everything atlas_stream.disconnect() The available stream parameters for every stream type are described in the `streaming results docs`_ .. _streaming API: https://atlas.ripe.net/docs/result-streaming/ .. _streaming results docs: https://atlas.ripe.net/docs/result-streaming/ Filter Probes/Measurements ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ This feature queries API for probes/measurements based on specified filters. Filters should be as specified in `filter_api`_. It hides all the complexity of traversing the API using the next url each time there are more objects. It returns a python generator that you can use to access each object. Fetches all probes from NL with asn\_v4 3333 and with tag NAT .. code:: python from ripe.atlas.cousteau import ProbeRequest filters = {"tags": "NAT", "country_code": "NL", "asn_v4": "3333"} probes = ProbeRequest(**filters) for probe in probes: print(probe["id"]) # Print total count of found probes print(probes.total_count) Fetches all specified measurements. .. code:: python from ripe.atlas.cousteau import MeasurementRequest filters = {"status": 1} measurements = MeasurementRequest(**filters) for msm in measurements: print(msm["msm_id"]) # Print total count of found measurements print(measurements.total_count) .. _filter_api: https://atlas.ripe.net/docs/rest/ Represent Probes/Measurements Meta data in python ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ This will allow you to have a python object with attributes populated from probes/measurements meta data. Every time you create a new instance it will fetch meta data from API and return an object with selected attributes. .. code:: python from ripe.atlas.cousteau import Probe, Measurement probe = Probe(id=3) print(probe.country_code) print(probe.is_anchor) print(probe.is_public) print(probe.address_v4) print(dir(probe)) # Full list of properties measurement = Measurement(id=1000002) print(measurement.protocol) print(measurement.description) print(measurement.is_oneoff) print(measurement.is_public) print(measurement.destination_address) print(measurement.destination_asn) print(measurement.type) print(measurement.interval) print(dir(measurement)) # Full list of properties Colophon ======== But why `Cousteau`_? The RIPE Atlas team decided to name all of its modules after explorers, and this is not an exception :) .. _Cousteau: http://en.wikipedia.org/wiki/Jacques_Cousteau .. |Build Status| image:: https://travis-ci.org/RIPE-NCC/ripe-atlas-cousteau.png?branch=master :target: https://travis-ci.org/RIPE-NCC/ripe-atlas-cousteau .. |Code Health| image:: https://landscape.io/github/RIPE-NCC/ripe-atlas-cousteau/master/landscape.png :target: https://landscape.io/github/RIPE-NCC/ripe-atlas-cousteau/master .. |PYPI Version| image:: https://img.shields.io/pypi/v/ripe.atlas.cousteau.svg .. |Python Versions| image:: https://img.shields.io/pypi/pyversions/ripe.atlas.cousteau.svg .. |Python Implementations| image:: https://img.shields.io/pypi/implementation/ripe.atlas.cousteau.svg .. |Python Format| image:: https://img.shields.io/pypi/format/ripe.atlas.cousteau.svg ripe-atlas-cousteau-1.0.7/ripe/000077500000000000000000000000001264541424100163505ustar00rootroot00000000000000ripe-atlas-cousteau-1.0.7/ripe/__init__.py000066400000000000000000000015031264541424100204600ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . try: __import__('pkg_resources').declare_namespace(__name__) except ImportError: from pkgutil import extend_path __path__ = extend_path(__path__, __name__) ripe-atlas-cousteau-1.0.7/ripe/atlas/000077500000000000000000000000001264541424100174545ustar00rootroot00000000000000ripe-atlas-cousteau-1.0.7/ripe/atlas/__init__.py000066400000000000000000000015031264541424100215640ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . try: __import__('pkg_resources').declare_namespace(__name__) except ImportError: from pkgutil import extend_path __path__ = extend_path(__path__, __name__) ripe-atlas-cousteau-1.0.7/ripe/atlas/cousteau/000077500000000000000000000000001264541424100213045ustar00rootroot00000000000000ripe-atlas-cousteau-1.0.7/ripe/atlas/cousteau/__init__.py000066400000000000000000000266271264541424100234320ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . try: # Python 3 from urllib.parse import urlparse except ImportError: # Python 2 from urlparse import urlparse import calendar from datetime import datetime from .measurement import Ping, Traceroute, Dns, Sslcert, Ntp, Http from .source import AtlasSource, AtlasChangeSource from .request import ( AtlasRequest, AtlasCreateRequest, AtlasChangeRequest, AtlasStopRequest, AtlasLatestRequest, AtlasResultsRequest ) from .stream import AtlasStream from .exceptions import APIResponseError, CousteauGenericError class EntityRepresentation(object): """ A crude representation of entity's meta data as we get it from the API. """ API_META_URL = "" def __init__(self, **kwargs): self.id = kwargs.get("id") self.api_key = kwargs.get("key", "") self.meta_data = kwargs.get("meta_data") self._user_agent = kwargs.get("user_agent") if self.meta_data is None and self.id is None: raise CousteauGenericError( "Id or meta_data should be passed in order to create object." ) if self.meta_data is None: if not self._fetch_meta_data(): raise APIResponseError(self.meta_data) self._populate_data() def _fetch_meta_data(self): """Makes an API call to fetch meta data for the given probe and stores the raw data.""" is_success, meta_data = AtlasRequest( url_path=self.API_META_URL.format(self.id), key=self.api_key, user_agent=self._user_agent ).get() self.meta_data = meta_data if not is_success: return False return True def _populate_data(self): """ Passing some raw meta data from API response to instance properties """ raise NotImplementedError() def __str__(self): return "Probe #{0}".format(self.id) def __repr__(self): return str(self) class Probe(EntityRepresentation): """ A crude representation of probe's meta data as we get it from the API. """ API_META_URL = "/api/v2/probes/{0}/" def _populate_data(self): """Assing some probe's raw meta data from API response to instance properties""" if self.id is None: self.id = self.meta_data.get("id") self.is_anchor = self.meta_data.get("is_anchor") self.country_code = self.meta_data.get("country_code") self.description = self.meta_data.get("description") self.is_public = self.meta_data.get("is_public") self.asn_v4 = self.meta_data.get("asn_v4") self.asn_v6 = self.meta_data.get("asn_v6") self.address_v4 = self.meta_data.get("address_v4") self.address_v6 = self.meta_data.get("address_v6") self.prefix_v4 = self.meta_data.get("prefix_v4") self.prefix_v6 = self.meta_data.get("prefix_v6") self.geometry = self.meta_data.get("geometry") self.tags = self.meta_data.get("tags") self.status = self.meta_data.get("status", {}).get("name") class Measurement(EntityRepresentation): """ A crude representation of measurement's meta data as we get it from the API. """ API_META_URL = "/api/v2/measurements/{0}/" def _populate_data(self): """Assinging some measurement's raw meta data from API response to instance properties""" if self.id is None: self.id = self.meta_data.get("id") stop_time = self.meta_data.get("stop_time") if stop_time: stop_time = datetime.fromtimestamp(stop_time) self.protocol = self.meta_data.get("af") self.destination_address = self.meta_data.get("destination_address") self.destination_asn = self.meta_data.get("destination_asn") self.destination_name = self.meta_data.get("destination_name") self.description = self.meta_data.get("description") self.is_oneoff = self.meta_data.get("is_oneoff") self.is_public = self.meta_data.get("is_public") self.interval = self.meta_data.get("interval") self.resolve_on_probe = self.meta_data.get("resolve_on_probe") self.creation_time = datetime.fromtimestamp(self.meta_data.get("creation_time")) self.start_time = datetime.fromtimestamp(self.meta_data.get("start_time")) self.stop_time = stop_time self.status_id = self.meta_data.get("status", {}).get("id") self.status = self.meta_data.get("status", {}).get("name") self.type = self.get_type() self.result_url = self.meta_data.get("result") def get_type(self): """ Getting type of measurement keeping backwards compatibility for v2 API output changes. """ mtype = None if "type" not in self.meta_data: return mtype mtype = self.meta_data["type"] if isinstance(mtype, dict): mtype = self.meta_data.get("type", {}).get("name", "").upper() elif isinstance(mtype, str): mtype = mtype return mtype class RequestGenerator(object): """ Python generator class that yields results for meta APIs like probes/measurements as single objects. It supports any filter APIs support in a dummy way, which means it will take accept whatever it passed and build url_path from this. """ url = "" id_filter = "" URL_LENGTH_LIMIT = 5000 def __init__(self, return_objects=False, user_agent=None, server=None, verify=True, **filters): self._user_agent = user_agent self.server = server self.verify = verify self.api_filters = filters self.split_urls = [] self.total_count_flag = False self.current_batch = [] self._count = [] self.return_objects = return_objects self.atlas_url = self.build_url() def build_url(self): """Build the url path based on the filter options.""" if not self.api_filters: return self.url # Reduce complex objects to simpler strings for k, v in self.api_filters.items(): if isinstance(v, datetime): # datetime > UNIX timestamp self.api_filters[k] = int(calendar.timegm(v.timetuple())) if isinstance(v, (tuple, list)): # tuples & lists > x,y,z self.api_filters[k] = ",".join([str(_) for _ in v]) if ( self.id_filter in self.api_filters and len(str(self.api_filters[self.id_filter])) > self.URL_LENGTH_LIMIT ): self.build_url_chunks() return self.split_urls.pop(0) filters = '&'.join("%s=%s" % (k, v) for (k, v) in self.api_filters.items()) return "%s?%s" % (self.url, filters) def build_url_chunks(self): """ If url is too big because of id filter is huge, break id and construct several urls to call them in order to abstract this complexity from user. """ CHUNK_SIZE = 500 id_filter = str(self.api_filters.pop(self.id_filter)).split(',') chuncks = list(self.chunks(id_filter, CHUNK_SIZE)) filters = '&'.join("%s=%s" % (k, v) for (k, v) in self.api_filters.items()) for chunk in chuncks: if filters: url = "{0}?{1}&{2}={3}".format(self.url, filters, self.id_filter, ','.join(chunk)) else: url = "{0}?{1}={2}".format(self.url, self.id_filter, ','.join(chunk)) self.split_urls.append(url) def chunks(self, l, n): """Yield successive n-sized chunks from l.""" for i in range(0, len(l), n): yield l[i:i + n] def __iter__(self): return self # Python 3 compatibility def __next__(self): return self.next() def next(self): if not self.current_batch: # If first time or current batch was all given if not self.atlas_url: # We don't have any next url any more, exit raise StopIteration() self.next_batch() if not self.current_batch: # Server request gives empty batch, exit raise StopIteration() current_object = self.current_batch.pop(0) if self.return_objects: return self.object_class(meta_data=current_object) else: return current_object def next_batch(self): """ Querying API for the next batch of objects and store next url and batch of objects. """ is_success, results = AtlasRequest( url_path=self.atlas_url, user_agent=self._user_agent, server=self.server, verify=self.verify, ).get() if not is_success: raise APIResponseError(results) self.total_count = results.get("count") self.atlas_url = self.build_next_url(results.get("next")) self.current_batch = results.get("results", []) def build_next_url(self, url): """Builds next url in a format compatible with cousteau. Path + query""" if not url: if self.split_urls: # If we had a long request give the next part self.total_count_flag = False # Reset flag for count return self.split_urls.pop(0) else: return None parsed_url = urlparse(url) return "{0}?{1}".format(parsed_url.path, parsed_url.query) # count attribute to deal with split-up urls and total count def get_total_count(self): """Getter for count attribute""" if not self._count: return 0 else: return sum(self._count) def set_total_count(self, value): """Setter for count attribute. Set should append only one count per splitted url.""" if not self.total_count_flag and value: self._count.append(int(value)) self.total_count_flag = True doc_count = "Defines how many objects returned." total_count = property(get_total_count, set_total_count, doc=doc_count) class ProbeRequest(RequestGenerator): """ Python generator for Probes meta api. e.g. for probe in ProbeRequest(**{"limit":200, "country_code": "GR"}): print(probe["id"]) """ url = "/api/v2/probes/" id_filter = "id__in" object_class = Probe class MeasurementRequest(RequestGenerator): """ Python generator for Measurement meta api. e.g. for measurement in MeasurementRequest(**{"status": 1}): print(measurement["id"]) """ url = "/api/v2/measurements/" id_filter = "id__in" object_class = Measurement __all__ = [ "Ping", "Traceroute", "Dns", "Sslcert", "Ntp", "Http", "AtlasRequest", "AtlasChangeRequest", "AtlasCreateRequest", "AtlasStopRequest", "AtlasLatestRequest", "AtlasResultsRequest", "AtlasSource", "AtlasChangeSource", "AtlasStream", ] ripe-atlas-cousteau-1.0.7/ripe/atlas/cousteau/exceptions.py000066400000000000000000000015741264541424100240460ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . class CousteauGenericError(Exception): """Custom Exception class for cousteau general erorrs.""" pass class APIResponseError(Exception): """Custom Exception class for errors in ATLAS API responses.""" pass ripe-atlas-cousteau-1.0.7/ripe/atlas/cousteau/measurement.py000066400000000000000000000161101264541424100242020ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . """ Module containing classes responsible for creating different kind of Atlas measurement objects. """ class AtlasMeasurement(object): """ Parent class for creating an Atlas measurement object containing all needed options for ATLAS API. The different kind of measurements are specified as child classes. These objects can be passed as measurement arguments later on when we call AtlasRequest. Usage: from ripe.atlas.cousteau import Ping ping = Ping(**{ "target": "www.google.gr", "af": 4, "description": "testing new wrapper" }) """ def __init__(self, **kwargs): # set to store all options that are used self.used_options = set() # required options for definitions part self.required_options = ["description", "af"] self.measurement_type = "" def _init(self, **kwargs): """ Initializing required options and set them as attributes as well as options coming from user. """ self._init_required_options(**kwargs) self.add_option(**kwargs) def _store_option(self, option): """ Store option in the used option set. This way we can keep track which options user has select to add to instance. This set is used at the build_api_struct function when we build the desired data structure from user's input. """ self.used_options.add(option) def add_option(self, **options): """ Adds an option and its value to the class as an attribute and stores it to the used options set. """ for option, value in options.items(): setattr(self, option, value) self._store_option(option) def _init_required_options(self, **kwargs): """ Initialize the required option as class members. The value will be either None or the specified value in the kwargs or __init__. The logic here is to make the required options accesible to edit after a class instance has been created. """ for field in self.required_options: setattr(self, field, kwargs.get(field)) self._store_option(field) def clean(self): """ Cleans/checks user entered data making sure required options are at least present. This might save some queries from being sent if they are totally wrong. """ # make sure the correct measurement type is set. if not self.measurement_type: log = "Please define a valid measurement type." raise MalFormattedMeasurement(log) # make sure the required fields are set. for roption in self.required_options: if getattr(self, roption, None) is None: log = "%s Measurement field: <%s> is required" % ( self.__class__.__name__, roption ) raise MalFormattedMeasurement(log) def v2_translator(self, option): """ This is a temporary function that helps move from v1 API to v2 without breaking already running script and keep backwards compatibility. Translates option name from API v1 to renamed one of v2 API. """ new_option = option new_value = getattr(self, option) renaming_pairs = { "dontfrag": "dont_fragment", "maxhops": "max_hops", "firsthop": "first_hop", "use_NSID": "set_nsid_bit", "cd": "set_cd_bit", "do": "set_do_bit", "qbuf": "include_qbuf", "recursion_desired": "set_rd_bit", "noabuf": "include_abuf" } if option in renaming_pairs.keys(): warninglog = ( "DeprecationWarning: {0} option has been deprecated and " "renamed to {1}." ).format(option, renaming_pairs[option]) print(warninglog) new_option = renaming_pairs[option] # noabuf was changed to include_abuf so we need a double-negative if option == "noabuf": new_value = not new_value return new_option, new_value def build_api_struct(self): """ Calls the clean method of the class and returns the info in a structure that Atlas API is accepting. """ self.clean() data = {"type": self.measurement_type} # add all options for option in self.used_options: option_key, option_value = self.v2_translator(option) data.update({option_key: option_value}) return data class Ping(AtlasMeasurement): """Class for creating a ping measurement""" def __init__(self, **kwargs): super(Ping, self).__init__(**kwargs) self.measurement_type = "ping" self.required_options.extend(["target"]) self._init(**kwargs) class Traceroute(AtlasMeasurement): """Class for creating a traceroute measurement""" def __init__(self, **kwargs): super(Traceroute, self).__init__(**kwargs) self.measurement_type = "traceroute" self.required_options.extend(["target", "protocol"]) self._init(**kwargs) class Dns(AtlasMeasurement): """Class for creating a DNS measurement""" def __init__(self, **kwargs): super(Dns, self).__init__(**kwargs) self.measurement_type = "dns" self.required_options.extend( ["query_class", "query_type", "query_argument"] ) self._init(**kwargs) class Sslcert(AtlasMeasurement): """Class for creating an SSL certificate measurement""" def __init__(self, **kwargs): super(Sslcert, self).__init__(**kwargs) self.measurement_type = "sslcert" self.required_options.extend(["target"]) self._init(**kwargs) class Ntp(AtlasMeasurement): """Class for creating an NTP measurement""" def __init__(self, **kwargs): super(Ntp, self).__init__(**kwargs) self.measurement_type = "ntp" self.required_options.extend(["target"]) self._init(**kwargs) class Http(AtlasMeasurement): """Class for creating an HTTP measurement""" def __init__(self, **kwargs): super(Http, self).__init__(**kwargs) self.measurement_type = "http" self.required_options.extend(["target"]) self._init(**kwargs) class MalFormattedMeasurement(Exception): pass __all__ = ["Ping", "Traceroute", "Dns", "Sslcert", "Ntp", "Http"] ripe-atlas-cousteau-1.0.7/ripe/atlas/cousteau/request.py000066400000000000000000000242471264541424100233570ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . """ Module containing the main class that create the post data and makes the HTTP request according to the ATLAS API. """ import calendar import requests from dateutil import parser from datetime import datetime from .version import __version__ class AtlasRequest(object): """ Base class for doing Atlas requests. Contains functions that can be used by most Atlas requests. """ http_methods = { "GET": requests.get, "POST": requests.post, "DELETE": requests.delete } def __init__(self, **kwargs): self.url = "" self.key = kwargs.get("key") self.url_path = kwargs.get("url_path", "") self.server = kwargs.get("server") or "atlas.ripe.net" self.verify = kwargs.get("verify", True) default_user_agent = "RIPE ATLAS Cousteau v{0}".format(__version__) self.http_agent = kwargs.get("user_agent") or default_user_agent self.http_method_args = { "params": {"key": self.key}, "headers": self.get_headers(), "verify": self.verify } self.post_data = {} def get_headers(self): """Return header for the HTTP request.""" return { "User-Agent": self.http_agent, "Content-Type": "application/json", "Accept": "application/json" } def http_method(self, method): """ Execute the given HTTP method and returns if it's success or not and the response as a string if not success and as python object after unjson if it's success. """ self.build_url() try: response = self.get_http_method(method) is_success = response.ok try: response_message = response.json() except ValueError: response_message = response.text except requests.exceptions.RequestException as exc: is_success = False response_message = exc.args return is_success, response_message def get_http_method(self, method): """Gets the http method that will be called from the requests library""" return self.http_methods[method](self.url, **self.http_method_args) def build_url(self): """ Builds the request's url combining server and url_path classes attributes. """ self.url = "https://{0}{1}".format(self.server, self.url_path) def get(self, **url_params): """ Makes the HTTP GET to the url. """ if url_params: self.http_method_args["params"].update(url_params) return self.http_method("GET") def post(self): """ Makes the HTTP POST to the url sending post_data. """ self._construct_post_data() post_args = {"json": self.post_data} self.http_method_args.update(post_args) return self.http_method("POST") def _construct_post_data(self): raise NotImplementedError def clean_time(self, time): """ Transform time field to datetime object if there is any. """ if isinstance(time, int): time = datetime.utcfromtimestamp(time) elif isinstance(time, str): time = parser.parse(time) return time class AtlasCreateRequest(AtlasRequest): """ Class responsible for creating a request for creating a new Atlas measurement. Takes as arguments Atlas API key, a list of Atlas measurement objects and a list of Atlas sources. Optionally the start and end time and whether the measurement is a oneoff can be specified. Usage: from ripe.atlas import AtlasCreateRequest ar = AtlasCreateRequest(**{ "start_time": start, "stop_time": stop, "key": "path_to_key", "measurements":[measurement1, ...], "sources": [source1, ...], "is_oneoff": True/False }) ar.create() """ def __init__(self, **kwargs): super(AtlasCreateRequest, self).__init__(**kwargs) self.url_path = '/api/v2/measurements/' self.measurements = kwargs["measurements"] self.sources = kwargs["sources"] self.start_time = self.clean_time(kwargs.get("start_time")) self.stop_time = self.clean_time(kwargs.get("stop_time")) if kwargs.get("is_oneoff"): self.is_oneoff = kwargs["is_oneoff"] else: self.is_oneoff = False def _construct_post_data(self): """ Constructs the data structure that is required from the atlas API based on measurements, sources and times user has specified. """ definitions = [msm.build_api_struct() for msm in self.measurements] probes = [source.build_api_struct() for source in self.sources] self.post_data = { "definitions": definitions, "probes": probes, "is_oneoff": self.is_oneoff } if self.start_time: self.post_data.update( {"start_time": int(calendar.timegm(self.start_time.timetuple()))} ) if self.stop_time: self.post_data.update( {"stop_time": int(calendar.timegm(self.stop_time.timetuple()))} ) def create(self): """Sends the POST request""" return self.post() class AtlasChangeRequest(AtlasRequest): """Atlas request for changing probes for a running measurement. post_data = [{ "action": "add|remove", "requested": probe_number, # when action=remove only probes is supported "type": "area|country|asn|prefix|msm|probes", "value": probe_values }] """ def __init__(self, **kwargs): super(AtlasChangeRequest, self).__init__(**kwargs) self.url_path = '/api/v2/measurements/{0}/participation-requests/' self.msm_id = kwargs["msm_id"] self.sources = kwargs["sources"] self.url_path = self.url_path.format(self.msm_id) def _construct_post_data(self): """ Constructs the data structure that is required from the atlas API based on measurement id, and the sources. """ self.post_data = [source.build_api_struct() for source in self.sources] def create(self): """Sends the POST request""" return self.post() class AtlasStopRequest(AtlasRequest): """Atlas request for stopping a measurement.""" def __init__(self, **kwargs): super(AtlasStopRequest, self).__init__(**kwargs) self.url_path = '/api/v2/measurements/' self.msm_id = kwargs["msm_id"] self.url_path = "{0}{1}".format(self.url_path, self.msm_id) def delete(self): """ Makes the HTTP DELETE to the url. """ return self.http_method("DELETE") def create(self): """Sends the DELETE request""" return self.delete() class AtlasLatestRequest(AtlasRequest): def __init__(self, msm_id=None, probe_ids=(), **kwargs): super(AtlasLatestRequest, self).__init__(**kwargs) self.url_path = "/api/v2/measurements/{0}/latest" self.msm_id = msm_id self.probe_ids = None self.url_path = self.url_path.format(self.msm_id) if probe_ids: self.add_probe_parameters(probe_ids) def add_probe_parameters(self, probe_ids): """ Creates string format if needed and add probe ids to HTTP query parameters. """ if isinstance(probe_ids, (tuple, list)): # tuples & lists > x,y,z self.probe_ids = ",".join([str(_) for _ in probe_ids]) else: self.probe_ids = probe_ids additional_params = { "probe_ids": self.probe_ids } self.http_method_args["params"].update(additional_params) def create(self): """Sends the GET request.""" return self.get() class AtlasResultsRequest(AtlasRequest): """Atlas request for fetching results of a measurement.""" def __init__(self, **kwargs): super(AtlasResultsRequest, self).__init__(**kwargs) self.url_path = '/api/v2/measurements/{0}/results' self.msm_id = kwargs["msm_id"] self.start = self.clean_time(kwargs.get("start")) self.stop = self.clean_time(kwargs.get("stop")) self.probe_ids = self.clean_probes(kwargs.get("probe_ids")) self.url_path = self.url_path.format(self.msm_id) self.update_http_method_params() def clean_probes(self, probe_ids): """ Checks format of probe ids and transform it to something API understands. """ if isinstance(probe_ids, (tuple, list)): # tuples & lists > x,y,z probe_ids = ",".join([str(_) for _ in probe_ids]) return probe_ids def update_http_method_params(self): """ Update HTTP url parameters based on msm_id and query filters if there are any. """ url_params = {} if self.start: url_params.update( {"start": int(calendar.timegm(self.start.timetuple()))} ) if self.stop: url_params.update( {"stop": int(calendar.timegm(self.stop.timetuple()))} ) if self.probe_ids: url_params.update({"probe_ids": self.probe_ids}) self.http_method_args["params"].update(url_params) def create(self): """Sends the GET request.""" return self.get() __all__ = [ "AtlasStopRequest", "AtlasCreateRequest", "AtlasChangeRequest", "AtlasRequest", "AtlasResultsRequest" ] ripe-atlas-cousteau-1.0.7/ripe/atlas/cousteau/source.py000066400000000000000000000172351264541424100231660ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . """ Module containing class responsible for creating different Atlas source objects """ class AtlasSource(object): """ Class responsible for creating an Atlas source object that holds information about the number of probes, the type of the source and the value of the source. This object can be passed as source argument later on when we call AtlasRequest. Usage: from ripe.atlas.cousteau import AtlasSource as = AtlasSource(**{"type": "area", "value": "WW", "requested": 5}) """ # available types types_available = ["area", "country", "prefix", "asn", "probes", "msm"] def __init__(self, **kwargs): if "requested" in kwargs: self.requested = kwargs["requested"] else: self._requested = None if "value" in kwargs: self.value = kwargs["value"] else: self._value = None if "type" in kwargs: self.type = kwargs["type"] else: self._type = None if "tags" in kwargs: self.tags = kwargs["tags"] else: self._tags = None # requested attribute def get_requested(self): """Getter for requested attribute""" return self._requested def set_requested(self, value): """Setter for requested attribute""" self._requested = value doc_req = "Defines how many probes will be requested." requested = property(get_requested, set_requested, doc=doc_req) # value attribute def get_value(self): """Getter for value attribute""" return self._value def set_value(self, value): """Setter for value attribute""" self._value = value doc_value = "Defines the value of the type of probe's source." value = property(get_value, set_value, doc=doc_value) # type attribute def get_type(self): """Getter for type attribute""" return self._type def set_type(self, value): """Setter for type attribute""" if value not in self.types_available: log = "Sources field 'type' should be in one of %s" % ( self.types_available ) raise MalFormattedSource(log) self._type = value doc_type = "Defines the type of probe's source." type = property(get_type, set_type, doc=doc_type) # tags attribute def get_tags(self): """Getter for tags attribute""" return self._tags def set_tags(self, value): """Setter for tags attribute""" log = ( 'Sources fields "tags" should be a dict in the format ' '{"include": [ "tag1", "tag2", "tagN" ],' '"exclude": [ "tag1", "tag2", "tagN" ] }' ) if not isinstance(value, dict): raise MalFormattedSource(log) if not set(value.keys()).issubset(set(["include", "exclude"])): raise MalFormattedSource(log) for tag_list in value.values(): if not isinstance(tag_list, list): raise MalFormattedSource(log) if [tag for tag in tag_list if not isinstance(tag, str)]: raise MalFormattedSource(log) self._tags = value doc_tags = "Defines optional tags to filter probes." tags = property(get_tags, set_tags, doc=doc_tags) def clean(self): """ Cleans/checks user has entered all required attributes. This might save some queries from being sent to server if they are totally wrong. """ if not all([self._requested, self._value, self._type]): raise MalFormattedSource( " fields are required." ) def build_api_struct(self): """ Calls the clean method of the class and returns the info in a structure that Atlas API is accepting. """ self.clean() r = { "type": self._type, "requested": self._requested, "value": self._value } if self._tags: r["tags"] = self._tags return r class AtlasChangeSource(AtlasSource): """ Class responsible for creating an Atlas source object for changing participants probes for a measurement. Usage: from ripe.atlas.cousteau import AtlasChangeSource as = AtlasChangeSource(**{"type":"area", "value": "WW", "requested": 5}) """ def __init__(self, **kwargs): if "action" in kwargs: self.action = kwargs["action"] else: self._action = None super(AtlasChangeSource, self).__init__(**kwargs) # type attribute def get_type(self): """Getter for type attribute""" return self._type def set_type(self, value): """Setter for type attribute""" if self.action == "remove" and value != "probes": log = "Sources field 'type' when action is remove should always be 'probes'." raise MalFormattedSource(log) self._type = value doc_type = "Defines the type of probe's source." type = property(get_type, set_type, doc=doc_type) # tags attribute def get_tags(self): """Getter for tags attribute""" return self._tags def set_tags(self, value): """Setter for tags attribute""" if self.action == "remove": log = ( "Tag-based filtering can only be used when adding " "participant probes for a measurement." ) raise MalFormattedSource(log) super(AtlasChangeSource, self).set_tags(value) doc_tags = "Defines optional tags to filter probes." tags = property(get_tags, set_tags, doc=doc_tags) # action attribute def get_action(self): """Getter for action attribute""" return self._action def set_action(self, value): """Setter for action attribute""" if value not in ("remove", "add"): log = "Sources field 'action' should be 'remove' or 'add'." raise MalFormattedSource(log) self._action = value doc_action = "Defines the action (remove/add if the change source)." action = property(get_action, set_action, doc=doc_action) def clean(self): """ Cleans/checks user has entered all required attributes. This might save some queries from being sent to server if they are totally wrong. """ if not all([self._type, self._requested, self._value, self._action]): raise MalFormattedSource( " fields are required." ) def build_api_struct(self): """ Calls parent's method and just adds the addtional field 'action', that is required to form the structure that Atlas API is accepting. """ data = super(AtlasChangeSource, self).build_api_struct() data.update({"action": self._action}) return data class MalFormattedSource(Exception): """Custom Exception class for malformed sources""" pass __all__ = ["AtlasSource", "AtlasChangeSource"] ripe-atlas-cousteau-1.0.7/ripe/atlas/cousteau/stream.py000066400000000000000000000052241264541424100231540ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . from socketIO_client import SocketIO class AtlasStream(object): CHANNEL_RESULT = "atlas_result" CHANNEL_PROBE = "atlas_probestatus" CHANNEL_ERROR = "atlas_error" CHANNELS = { "result": CHANNEL_RESULT, "probe": CHANNEL_PROBE, "error": CHANNEL_ERROR, } def __init__(self): """Initialize stream""" self.iosocket_server = "atlas-stream.ripe.net" self.iosocket_resource = "/stream/socket.io" self.socketIO = None def connect(self): """Initiate the channel we want to start streams from.""" self.socketIO = SocketIO( host=self.iosocket_server, port=80, resource=self.iosocket_resource, transports=["websocket"] ) def disconnect(self): """Exits the channel k shuts down connection.""" self.socketIO.disconnect() self.socketIO.__exit__([]) def bind_channel(self, channel, callback): """Bind given channel with the given callback""" try: self.socketIO.on(self.CHANNELS[channel], callback) except KeyError: print("The given channel: <{0}> is not valid".format(channel)) def start_stream(self, stream_type, **stream_parameters): """Starts new stream for given type with given parameters""" if stream_type in ("result", "probestatus"): self.subscribe(stream_type, **stream_parameters) else: print("Given stream type: <{0}> is not valid".format(stream_type)) def subscribe(self, stream_type, **parameters): """Subscribe to stream with give parameters.""" parameters.update({"stream_type": stream_type}) self.socketIO.emit('atlas_subscribe', parameters) def timeout(self, seconds=None): """ Times out all streams after n seconds or wait forever if seconds is None """ if seconds is None: self.socketIO.wait() else: self.socketIO.wait(seconds=seconds) ripe-atlas-cousteau-1.0.7/ripe/atlas/cousteau/version.py000066400000000000000000000012611264541424100233430ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . __version__ = "1.0.7" ripe-atlas-cousteau-1.0.7/setup.cfg000066400000000000000000000000261264541424100172300ustar00rootroot00000000000000[wheel] universal = 1 ripe-atlas-cousteau-1.0.7/setup.py000066400000000000000000000035371264541424100171330ustar00rootroot00000000000000#!/usr/bin/env python from os.path import abspath, dirname, join from setuptools import setup # import manually __version__ variable __version__ = None exec(open('ripe/atlas/cousteau/version.py').read()) install_requires = [ "python-dateutil", "socketIO-client>=0.6.5", "requests>=2.7.0"] tests_require = [ "funcsigs", "setuptools", "nose", "coverage", "mock", "jsonschema" ] # Get proper long description for package current_dir = dirname(abspath(__file__)) description = open(join(current_dir, "README.rst")).read() changes = open(join(current_dir, "CHANGES.rst")).read() long_description = '\n\n'.join([description, changes]) setup( name="ripe.atlas.cousteau", version=__version__, packages=["ripe", "ripe.atlas", "ripe.atlas.cousteau"], namespace_packages=["ripe", "ripe.atlas"], include_package_data=True, license="GPLv3", url="https://github.com/RIPE-NCC/ripe-atlas-cousteau", description="Python wrapper for RIPE Atlas API", long_description=long_description, author="RIPE Atlas Development Team", author_email="atlas-dev@ripe.net", maintainer="Andreas Strikos", maintainer_email="astrikos@ripe.net", install_requires=install_requires, tests_require=tests_require, test_suite="nose.collector", keywords=['RIPE', 'RIPE NCC', 'RIPE Atlas'], classifiers=[ "Operating System :: POSIX", "Operating System :: Unix", "Programming Language :: Python", "Programming Language :: Python :: 2.6", "Programming Language :: Python :: 2.7", "Programming Language :: Python :: 3.4", "Programming Language :: Python :: Implementation :: CPython", "Programming Language :: Python :: Implementation :: PyPy", "Topic :: Internet :: WWW/HTTP", "Topic :: Software Development :: Libraries :: Python Modules" ] ) ripe-atlas-cousteau-1.0.7/tests/000077500000000000000000000000001264541424100165535ustar00rootroot00000000000000ripe-atlas-cousteau-1.0.7/tests/__init__.py000066400000000000000000000063001264541424100206630ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . definitions_schema = { "type": "object", "required": ["type", "af", "description"], "properties": { "type": { "type": "string", "enum": ["ping", "traceroute", "dns", "sslcert"] }, "af": { "type": "integer", "enum": [4, 6] }, "description": { "type": "string", }, "target": { "type": "string", }, "is_oneoff": { "type": "boolean", }, "interval": { "type": "integer", }, } } probes_create_schema = { "type": "object", "required": ["requested", "type", "value"], "properties": { "requested": { "type": "integer", }, "type": { "type": "string", "enum": [ "area", "country", "prefix", "asn", "probes", "msm" ] }, "value": { "type": "string", }, "tags": { "type": "object", "required": ["include", "exclude"], "properties": { "include": { "type": "array", "items": { "type": "string" } }, "exclude": { "type": "array", "items": { "type": "string" } } } } } } post_data_create_schema = { "type": "object", "required": ["definitions", "probes"], "properties": { "definitions": { "type": "array", "items": definitions_schema }, "start_time": {"type": "integer"}, "end_time": {"type": "integer"}, "is_oneoff": {"type": "boolean"}, "probes": { "type": "array", "items": probes_create_schema } } } probes_change_schema = { "type": "object", "required": ["requested", "type", "value", "action"], "properties": { "requested": { "type": "integer", }, "type": { "type": "string", "enum": ["area", "country", "prefix", "asn", "probes", "msm"] }, "value": { "type": "string", }, "action": { "type": "string", "enum": ["add", "remove"] }, } } post_data_change_schema = { "type": "array", "items": probes_change_schema } __all__ = [ "definitions_schema", "probes_create_schema", "probes_change_schema", "post_data_create_schema", "post_data_change_schema" ] ripe-atlas-cousteau-1.0.7/tests/test_measurement_types.py000066400000000000000000000076201264541424100237420ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . """File containing the nose tests""" import unittest from ripe.atlas.cousteau import ( Ping, Traceroute, Dns, Sslcert, Ntp, Http ) class TestMeasurementTypes(unittest.TestCase): def test_ping(self): """Unittest for Ping class""" post_body = Ping(**{ "target": "www.google.fr", "af": 4, "description": "testing", "prefer_anchors": True }).build_api_struct() expected_output = { 'description': 'testing', 'af': 4, 'type': 'ping', 'target': 'www.google.fr', 'prefer_anchors': True } self.assertEqual(post_body, expected_output) def test_dns(self): """Unittest for Dns class""" post_body = Dns( **{ "target": "k.root-servers.net", "af": 4, "description": "testing", "query_type": "SOA", "query_class": "IN", "query_argument": "nl", "retry": 6 } ).build_api_struct() expected_output = { 'query_class': 'IN', 'retry': 6, 'description': 'testing', 'af': 4, 'query_argument': 'nl', 'query_type': 'SOA', 'type': 'dns', 'target': 'k.root-servers.net' } self.assertEqual(post_body, expected_output) def test_traceroute(self): """Unittest for Traceroute class""" post_body = Traceroute(**{ "af": 4, "target": 'www.ripe.net', "description": 'testing', "protocol": "ICMP", "prefer_anchors": True, }).build_api_struct() expected_output = { 'protocol': 'ICMP', 'description': 'testing', 'prefer_anchors': True, 'af': 4, 'type': 'traceroute', 'target': 'www.ripe.net' } self.assertEqual(post_body, expected_output) def test_sslcert(self): """Unittest for Sslcert class""" post_body = Sslcert(**{ "af": 4, "target": 'www.ripe.net', "description": 'testing', "prefer_anchors": True, }).build_api_struct() expected_output = { 'description': 'testing', 'af': 4, 'type': 'sslcert', 'target': 'www.ripe.net', 'prefer_anchors': True } self.assertEqual(post_body, expected_output) def test_ntpcert(self): """Unittest for Ntp class""" post_body = Ntp(**{ "af": 4, "target": 'www.ripe.net', "description": 'testing', "prefer_anchors": True, }).build_api_struct() expected_output = { 'description': 'testing', 'af': 4, 'type': 'ntp', 'target': 'www.ripe.net', 'prefer_anchors': True } self.assertEqual(post_body, expected_output) def test_http(self): """Unittest for HTTP class""" post_body = Http(**{ "af": 4, "target": 'www.ripe.net', "description": 'testing', "prefer_anchors": True, }).build_api_struct() expected_output = { 'description': 'testing', 'af': 4, 'type': 'http', 'target': 'www.ripe.net', 'prefer_anchors': True } self.assertEqual(post_body, expected_output) ripe-atlas-cousteau-1.0.7/tests/test_measurements.py000066400000000000000000000051361264541424100227010ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . import unittest from jsonschema import validate from ripe.atlas.cousteau.measurement import ( MalFormattedMeasurement, AtlasMeasurement ) from . import definitions_schema class TestAtlasMeasurement(unittest.TestCase): def setUp(self): kwargs = {"target": "www.google.gr", "af": 4} self.measurement = AtlasMeasurement(**kwargs) self.measurement._init(**kwargs) def test_add_option(self): self.assertRaises(TypeError, lambda: self.measurement.add_option("3")) self.assertRaises(TypeError, lambda: self.measurement.add_option(3)) self.assertRaises( TypeError, lambda: self.measurement.add_option(["3"]) ) self.assertRaises( TypeError, lambda: self.measurement.add_option(*["3"]) ) self.measurement.add_option(**{"test": "test"}) self.assertEqual(self.measurement.test, "test") def test_init_required_options(self): self.measurement._init_required_options( **{"af": 4, "description": "test", "crap": "test"} ) self.assertEqual(self.measurement.af, 4) self.assertEqual(self.measurement.description, "test") self.assertRaises( AttributeError, lambda: getattr(self.measurement, "crap") ) def test_clean(self): self.assertRaises( MalFormattedMeasurement, lambda: self.measurement.clean() ) self.measurement.measurement_type = "test" self.measurement.description = "test" self.measurement.clean() def test_build_api_struct(self): output = { "type": "ping", "target": "www.google.gr", "af": 4, "description": "test" } self.measurement.description = "test" self.measurement.measurement_type = "ping" self.assertEqual(self.measurement.build_api_struct(), output) validate(self.measurement.build_api_struct(), definitions_schema) ripe-atlas-cousteau-1.0.7/tests/test_real_server.py000066400000000000000000000206771264541424100225110ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . import os import unittest from datetime import datetime, timedelta from collections import namedtuple from nose.exc import SkipTest from ripe.atlas.cousteau import ( AtlasSource, AtlasChangeSource, AtlasRequest, AtlasCreateRequest, AtlasChangeRequest, Ping, Dns, AtlasStopRequest, AtlasResultsRequest, ProbeRequest, MeasurementRequest, Probe, Measurement, AtlasStream, Ntp, Sslcert, Http, Traceroute ) class TestRealServer(unittest.TestCase): def setUp(self): self.server = os.environ.get('ATLAS_SERVER', "") self.create_key = os.environ.get('CREATE_KEY', "") self.change_key = os.environ.get('CHANGE_KEY', "") self.delete_key = os.environ.get('DELETE_KEY', "") self.delete_msm = None def test_create_delete_request(self): """Unittest for Atlas create and delete request""" if self.server == "": raise SkipTest source = AtlasSource(**{"type": "area", "value": "WW", "requested": 38}) ping = Ping(**{ "target": "www.ripe.net", "af": 4, "description": "Cousteau testing", "prefer_anchors": True }) traceroute = Traceroute(**{ "target": "www.google.fr", "af": 4, "protocol": "UDP", "description": "Cousteau testing", "dont_fragment": True }) dns = Dns(**{ "target": "k.root-servers.net", "af": 4, "description": "Cousteau testing", "query_type": "SOA", "query_class": "IN", "query_argument": "nl", "retry": 6 }) ntp = Ntp(**{ "target": "www.ripe.net", "af": 4, "description": "Cousteau testing", "timeout": 1000 }) ssl = Sslcert(**{ "target": "www.ripe.net", "af": 4, "description": "Cousteau testing", }) http = Http(**{ "target": "www.ripe.net", "af": 4, "description": "Cousteau testing", }) stop = datetime.utcnow() + timedelta(minutes=220) request = AtlasCreateRequest( **{ "verify": False, "stop_time": stop, "key": self.create_key, "server": self.server, "measurements": [ping, traceroute, dns, ntp, ssl, http], "sources": [source] } ) result = namedtuple('Result', 'success response') (result.success, result.response) = request.create() print(result.response) self.delete_msm = result.response["measurements"][0] self.assertTrue(result.success) # Unittest for Atlas delete request if self.server == "": raise SkipTest kwargs = {"verify": False, "msm_id": self.delete_msm, "key": self.delete_key, "server": self.server} request = AtlasStopRequest(**kwargs) result = namedtuple('Result', 'success response') (result.success, result.response) = request.create() print(result.response) self.assertTrue(result.success) def test_change_request(self): """Unittest for Atlas change request""" if self.server == "": raise SkipTest remove = AtlasChangeSource(**{ "value": "6001", "requested": 1, "action": "remove", "type": "probes" }) add = AtlasChangeSource(**{ "value": "6002", "requested": 1, "action": "add", "type": "probes" }) request = AtlasChangeRequest( **{ "key": self.change_key, "verify": False, "msm_id": 1000032, "server": self.server, "sources": [add, remove] } ) result = namedtuple('Result', 'success response') (result.success, result.response) = request.create() print(result.response) self.assertTrue(result.success) def test_result_request(self): """Unittest for Atlas results request""" if self.server == "": raise SkipTest kwargs = { "msm_id": 1000032, "start": datetime(2011, 11, 21), "stop": datetime(2011, 11, 22), "verify": False, "probe_ids": [743, 630] } result = namedtuple('Result', 'success response') (result.success, result.response) = AtlasResultsRequest(**kwargs).create() print(result.success, result.response) self.assertTrue(result.response) self.assertTrue(result.success) def test_probe_request(self): """Unittest for ProbeRequest""" if self.server == "": raise SkipTest filters = {"tags": "NAT", "country_code": "NL", "asn_v4": "3333"} probes = ProbeRequest(**filters) probes_list = list(probes) self.assertTrue(probes_list) self.assertTrue(probes.total_count) def test_measurement_request(self): """Unittest for MeasurementRequest""" if self.server == "": raise SkipTest filters = {"id__lt": 1000010, "id__gt": 1000002} measurements = MeasurementRequest(**filters) measurements_list = list(measurements) self.assertTrue(measurements_list) self.assertTrue(measurements.total_count) def test_probe_repr_request(self): """Unittest for Probe representation request""" if self.server == "": raise SkipTest Probe(id=6001) def test_measurement_repr_request(self): """Unittest for Measurement representation request""" if self.server == "": raise SkipTest Measurement(id=1000032) def test_stream_results(self): """Unittest for Atlas results request.""" if self.server == "": raise SkipTest results = [] def on_result_response(*args): """ Function that will be called every time we receive a new result. Args is a tuple, so you should use args[0] to access the real message. """ results.append(args[0]) atlas_stream = AtlasStream() atlas_stream.connect() channel = "result" atlas_stream.bind_channel(channel, on_result_response) stream_parameters = {"msm": 1001} atlas_stream.start_stream(stream_type="result", **stream_parameters) atlas_stream.timeout(seconds=5) atlas_stream.disconnect() self.assertNotEqual(results, []) def test_stream_probe(self): """Unittest for Atlas probe connections request.""" if self.server == "": raise SkipTest results = [] def on_result_response(*args): """ Function that will be called every time we receive a new event. Args is a tuple, so you should use args[0] to access the real message. """ results.append(args[0]) atlas_stream = AtlasStream() atlas_stream.connect() channel = "probe" atlas_stream.bind_channel(channel, on_result_response) stream_parameters = {"enrichProbes": True} atlas_stream.start_stream(stream_type="probestatus", **stream_parameters) atlas_stream.timeout(seconds=30) atlas_stream.disconnect() self.assertNotEqual(results, []) def test_get_request(self): """Unittest for Atlas get request""" if self.server == "": raise SkipTest request = AtlasRequest( **{ "verify": False, "url_path": "/api/v2/anchors" } ) result = namedtuple('Result', 'success response') (result.success, result.response) = request.get() print(result.success, result.response) self.assertTrue(result.response["results"]) self.assertTrue(result.success) ripe-atlas-cousteau-1.0.7/tests/test_requests.py000066400000000000000000001147741264541424100220550ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # Python 3.4+ comes with mock in unittest try: from unittest import mock except ImportError: import mock import unittest import requests from datetime import datetime from jsonschema import validate from ripe.atlas.cousteau.version import __version__ from ripe.atlas.cousteau import ( Ping, AtlasSource, AtlasChangeSource, AtlasCreateRequest, AtlasChangeRequest, AtlasLatestRequest, AtlasResultsRequest, RequestGenerator, ProbeRequest, Probe, Measurement, AtlasRequest ) from ripe.atlas.cousteau.exceptions import APIResponseError from . import post_data_create_schema, post_data_change_schema class FakeResponse(object): def __init__(self, json_return={}, ok=True): self.json_return = json_return self.ok = ok self.text = "testing" def json(self): return self.json_return class FakeErrorResponse(FakeResponse): def json(self): raise ValueError("json breaks") class TestAtlasRequest(unittest.TestCase): def setUp(self): self.request = AtlasRequest(**{ "key": "blaaaa", "server": "test", "url_path": "testing" }) def test_headers(self): """Tests header fields of the request.""" expected_output = { "User-Agent": "RIPE ATLAS Cousteau v{0}".format(__version__), "Content-Type": "application/json", "Accept": "application/json" } self.assertEqual(expected_output, self.request.get_headers()) def test_http_method_args(self): """Tests initial args that will be passed later to HTTP method.""" expected_output = { "params": {"key": "blaaaa"}, "verify": True, "headers": { "User-Agent": "RIPE ATLAS Cousteau v{0}".format(__version__), "Content-Type": "application/json", "Accept": "application/json" } } self.assertEqual(expected_output, self.request.http_method_args) def test_get_method(self): """Tests GET reuest method""" extra_params = {"bull": "shit", "cow": "shit", "horse": "shit"} expected_args = { "params": { "key": "blaaaa", "bull": "shit", "cow": "shit", "horse": "shit" }, "verify": True, "headers": { "User-Agent": "RIPE ATLAS Cousteau v{0}".format(__version__), "Content-Type": "application/json", "Accept": "application/json" } } with mock.patch('ripe.atlas.cousteau.request.AtlasRequest.http_method') as mock_get: mock_get.return_value = True self.request.get(**extra_params) self.assertEqual(self.request.http_method_args, expected_args) def test_url_build(self): """Tests build of the url of the request.""" self.request.build_url() self.assertEqual(self.request.url, "https://testtesting") def test_success_http_method(self): """Tests the main http method function of the request in case of success""" with mock.patch('ripe.atlas.cousteau.AtlasRequest.get_http_method') as mock_get: fake = FakeResponse(json_return={"blaaa": "b"}) mock_get.return_value = fake self.assertEqual( self.request.http_method("GET"), (True, {"blaaa": "b"}) ) fake_error = FakeErrorResponse() mock_get.return_value = fake_error self.assertEqual( self.request.http_method("GET"), (True, "testing") ) def test_not_success_http_method(self): """Tests the main http method function of the request in case of fail""" with mock.patch('ripe.atlas.cousteau.AtlasRequest.get_http_method') as mock_get: fake = FakeResponse(json_return={"blaaa": "b"}, ok=False) mock_get.return_value = fake self.assertEqual( self.request.http_method("GET"), (False, {"blaaa": "b"}) ) fake_error = FakeErrorResponse(ok=False) mock_get.return_value = fake_error self.assertEqual( self.request.http_method("GET"), (False, "testing") ) def test_exception_http_method(self): """Tests the main http method function of the request in case of fail""" with mock.patch('ripe.atlas.cousteau.AtlasRequest.get_http_method') as mock_get: mock_get.side_effect = requests.exceptions.RequestException("excargs") self.assertEqual( self.request.http_method("GET"), (False, ("excargs",)) ) def test_user_agent(self): with mock.patch("ripe.atlas.cousteau.request.__version__", 999): standard = "RIPE ATLAS Cousteau v999" self.assertEqual(AtlasRequest().http_agent, standard) self.assertEqual(AtlasRequest(user_agent=None).http_agent, standard) self.assertEqual(AtlasRequest(user_agent="w00t").http_agent, "w00t") class TestAtlasCreateRequest(unittest.TestCase): def setUp(self): self.create_source = AtlasSource( **{"type": "area", "value": "WW", "requested": 3} ) self.measurement = Ping(**{ "target": "testing", "af": 6, "description": "testing" }) self.request = AtlasCreateRequest(**{ "start_time": datetime(2015, 10, 16), "stop_time": 1445040000, "key": "path_to_key", "measurements": [self.measurement], "sources": [self.create_source], "is_oneoff": True, }) def test_construct_post_data(self): """Tests construction of past data""" self.request._construct_post_data() validate(self.request.post_data, post_data_create_schema) def test_post_method(self): """Tests POST reuest method""" self.maxDiff = None expected_args = { "json": { "definitions": [{ "af": 6, "description": "testing", "target": "testing", "type": "ping" }], "is_oneoff": True, "probes": [{"requested": 3, "type": "area", "value": "WW"}], "start_time": 1444953600, "stop_time": 1445040000 }, "params": {"key": "path_to_key"}, "verify": True, "headers": { "User-Agent": "RIPE ATLAS Cousteau v{0}".format(__version__), "Content-Type": "application/json", "Accept": "application/json" }, } with mock.patch('ripe.atlas.cousteau.request.AtlasRequest.http_method') as mock_get: self.request._construct_post_data() mock_get.return_value = True self.request.post() self.assertEqual(self.request.http_method_args, expected_args) def test_post_method_without_times(self): """Tests POST reuest method without any time specified""" request = AtlasCreateRequest(**{ "key": "path_to_key", "measurements": [self.measurement], "sources": [self.create_source], }) self.maxDiff = None expected_args = { "json": { "definitions": [{ "af": 6, "description": "testing", "target": "testing", "type": "ping" }], "is_oneoff": False, "probes": [{"requested": 3, "type": "area", "value": "WW"}], }, "params": {"key": "path_to_key"}, "verify": True, "headers": { "User-Agent": "RIPE ATLAS Cousteau v{0}".format(__version__), "Content-Type": "application/json", "Accept": "application/json" }, } with mock.patch('ripe.atlas.cousteau.request.AtlasRequest.http_method') as mock_get: request._construct_post_data() mock_get.return_value = True request.post() self.assertEqual(request.http_method_args, expected_args) class TestAtlasChangeRequest(unittest.TestCase): def setUp(self): change_source = AtlasChangeSource( **{"value": "WW", "requested": 3, "action": "add", "type": "area"} ) self.request = AtlasChangeRequest(**{ "msm_id": 1, "sources": [change_source] }) def test_construct_post_data(self): self.request._construct_post_data() validate(self.request.post_data, post_data_change_schema) class TestAtlasResultsRequest(unittest.TestCase): def test_url_path_and_params(self): request = AtlasResultsRequest(**{ "msm_id": 1000002, "start": "2011-11-27", "stop": "2011-11-27 01", "probe_ids": [1, 2, 3] }) self.assertEqual( request.url_path, "/api/v2/measurements/1000002/results" ) query_filters = request.http_method_args["params"] self.assertEqual( set(query_filters.keys()), set(["key", "stop", "start", "probe_ids"]) ) self.assertEqual(query_filters["start"], 1322352000) self.assertEqual(query_filters["stop"], 1322355600) self.assertEqual( query_filters["probe_ids"], "1,2,3" ) def test_probe_ids_query_params(self): """Tests probe_ids as query params for different entries""" request = AtlasResultsRequest(**{ "msm_id": 1000002, "probe_ids": [1, 2, 3] }) query_filters = request.http_method_args["params"] self.assertEqual( query_filters["probe_ids"], "1,2,3" ) request = AtlasResultsRequest(**{ "msm_id": 1000002, "probe_ids": "15, 2,3" }) query_filters = request.http_method_args["params"] self.assertEqual( query_filters["probe_ids"], "15, 2,3" ) request = AtlasResultsRequest(**{ "msm_id": 1000002, "probe_ids": 15 }) query_filters = request.http_method_args["params"] self.assertEqual( query_filters["probe_ids"], 15 ) def test_start_time_query_params(self): """Tests start time as query params for different entries""" request = AtlasResultsRequest(**{ "msm_id": 1000002, "start": "2011-11-27", }) query_filters = request.http_method_args["params"] self.assertEqual(query_filters["start"], 1322352000) request = AtlasResultsRequest(**{ "msm_id": 1000002, "start": "2011-11-27 01:01", }) query_filters = request.http_method_args["params"] self.assertEqual(query_filters["start"], 1322355660) request = AtlasResultsRequest(**{ "msm_id": 1000002, "start": 1322352000, }) query_filters = request.http_method_args["params"] self.assertEqual(query_filters["start"], 1322352000) request = AtlasResultsRequest(**{ "msm_id": 1000002, "start": datetime(2011, 11, 27) }) query_filters = request.http_method_args["params"] self.assertEqual(query_filters["start"], 1322352000) def test_stop_time_query_params(self): """Tests stop time as query params for different entries""" request = AtlasResultsRequest(**{ "msm_id": 1000002, "stop": "2011-11-27", }) query_filters = request.http_method_args["params"] self.assertEqual(query_filters["stop"], 1322352000) request = AtlasResultsRequest(**{ "msm_id": 1000002, "stop": "2011-11-27 01:01", }) query_filters = request.http_method_args["params"] self.assertEqual(query_filters["stop"], 1322355660) request = AtlasResultsRequest(**{ "msm_id": 1000002, "stop": 1322352000, }) query_filters = request.http_method_args["params"] self.assertEqual(query_filters["stop"], 1322352000) request = AtlasResultsRequest(**{ "msm_id": 1000002, "stop": datetime(2011, 11, 27) }) query_filters = request.http_method_args["params"] self.assertEqual(query_filters["stop"], 1322352000) class TestAtlasLatestRequest(unittest.TestCase): def test_url_path(self): """Tests construction of path.""" self.assertEqual( AtlasLatestRequest(msm_id=1001).url_path, "/api/v2/measurements/1001/latest" ) self.assertEqual( AtlasLatestRequest(msm_id=1002, probe_ids=[1, 2, 3]).url_path, "/api/v2/measurements/1002/latest" ) def test_query_params(self): """Tests construction of query parameters.""" self.assertEqual( AtlasLatestRequest( msm_id=1001, probe_ids=(1, 2, 3, 24) ).http_method_args["params"], {"key": None, "probe_ids": "1,2,3,24"} ) self.assertEqual( AtlasLatestRequest( msm_id=1001, probe_ids="1, 2, 3, 24" ).http_method_args["params"], {"key": None, "probe_ids": "1, 2, 3, 24"} ) class TestRequestGenerator(unittest.TestCase): def test_build_url(self): def decostruct_url_params(url_params): """ Pure man's way of splitting args to avoid unpredicted output from python hashed dict keys """ params = url_params.split("&") params[0] = params[0][1:] return set(params) kwargs = {"limit": "100", "asn": "3333"} r = RequestGenerator(**kwargs) self.assertEqual( decostruct_url_params(r.build_url()), set(["limit=100", "asn=3333"]) ) kwargs = {"limit": "100", "asn": "3333", "tags": "NAT,system-ipv4-works"} r = RequestGenerator(**kwargs) self.assertEqual( decostruct_url_params(r.build_url()), set(["limit=100", "tags=NAT,system-ipv4-works", "asn=3333"]) ) kwargs = {"asn": "3333"} r = RequestGenerator(**kwargs) self.assertEqual( r.build_url(), "?asn=3333" ) kwargs = {"limit": "10"} r = RequestGenerator(**kwargs) self.assertEqual( r.build_url(), "?limit=10" ) kwargs = {} r = RequestGenerator(**kwargs) self.assertEqual( r.build_url(), "" ) def test_wrong_id_filter(self): arequest = mock.patch('ripe.atlas.cousteau.request.AtlasRequest.get').start() arequest.return_value = False, {} kwargs = {"id__in": range(1, 10)} r = ProbeRequest(**kwargs) self.assertRaises(APIResponseError, lambda: list(r)) def test_long_id_filter(self): kwargs = {"id__in": ",".join(map(str, range(1, 2000)))} r = ProbeRequest(**kwargs) expected_list = ['/api/v2/probes/?id__in=501,502,503,504,505,506,507,508,509,510,511,512,513,514,515,516,517,518,519,520,521,522,523,524,525,526,527,528,529,530,531,532,533,534,535,536,537,538,539,540,541,542,543,544,545,546,547,548,549,550,551,552,553,554,555,556,557,558,559,560,561,562,563,564,565,566,567,568,569,570,571,572,573,574,575,576,577,578,579,580,581,582,583,584,585,586,587,588,589,590,591,592,593,594,595,596,597,598,599,600,601,602,603,604,605,606,607,608,609,610,611,612,613,614,615,616,617,618,619,620,621,622,623,624,625,626,627,628,629,630,631,632,633,634,635,636,637,638,639,640,641,642,643,644,645,646,647,648,649,650,651,652,653,654,655,656,657,658,659,660,661,662,663,664,665,666,667,668,669,670,671,672,673,674,675,676,677,678,679,680,681,682,683,684,685,686,687,688,689,690,691,692,693,694,695,696,697,698,699,700,701,702,703,704,705,706,707,708,709,710,711,712,713,714,715,716,717,718,719,720,721,722,723,724,725,726,727,728,729,730,731,732,733,734,735,736,737,738,739,740,741,742,743,744,745,746,747,748,749,750,751,752,753,754,755,756,757,758,759,760,761,762,763,764,765,766,767,768,769,770,771,772,773,774,775,776,777,778,779,780,781,782,783,784,785,786,787,788,789,790,791,792,793,794,795,796,797,798,799,800,801,802,803,804,805,806,807,808,809,810,811,812,813,814,815,816,817,818,819,820,821,822,823,824,825,826,827,828,829,830,831,832,833,834,835,836,837,838,839,840,841,842,843,844,845,846,847,848,849,850,851,852,853,854,855,856,857,858,859,860,861,862,863,864,865,866,867,868,869,870,871,872,873,874,875,876,877,878,879,880,881,882,883,884,885,886,887,888,889,890,891,892,893,894,895,896,897,898,899,900,901,902,903,904,905,906,907,908,909,910,911,912,913,914,915,916,917,918,919,920,921,922,923,924,925,926,927,928,929,930,931,932,933,934,935,936,937,938,939,940,941,942,943,944,945,946,947,948,949,950,951,952,953,954,955,956,957,958,959,960,961,962,963,964,965,966,967,968,969,970,971,972,973,974,975,976,977,978,979,980,981,982,983,984,985,986,987,988,989,990,991,992,993,994,995,996,997,998,999,1000', '/api/v2/probes/?id__in=1001,1002,1003,1004,1005,1006,1007,1008,1009,1010,1011,1012,1013,1014,1015,1016,1017,1018,1019,1020,1021,1022,1023,1024,1025,1026,1027,1028,1029,1030,1031,1032,1033,1034,1035,1036,1037,1038,1039,1040,1041,1042,1043,1044,1045,1046,1047,1048,1049,1050,1051,1052,1053,1054,1055,1056,1057,1058,1059,1060,1061,1062,1063,1064,1065,1066,1067,1068,1069,1070,1071,1072,1073,1074,1075,1076,1077,1078,1079,1080,1081,1082,1083,1084,1085,1086,1087,1088,1089,1090,1091,1092,1093,1094,1095,1096,1097,1098,1099,1100,1101,1102,1103,1104,1105,1106,1107,1108,1109,1110,1111,1112,1113,1114,1115,1116,1117,1118,1119,1120,1121,1122,1123,1124,1125,1126,1127,1128,1129,1130,1131,1132,1133,1134,1135,1136,1137,1138,1139,1140,1141,1142,1143,1144,1145,1146,1147,1148,1149,1150,1151,1152,1153,1154,1155,1156,1157,1158,1159,1160,1161,1162,1163,1164,1165,1166,1167,1168,1169,1170,1171,1172,1173,1174,1175,1176,1177,1178,1179,1180,1181,1182,1183,1184,1185,1186,1187,1188,1189,1190,1191,1192,1193,1194,1195,1196,1197,1198,1199,1200,1201,1202,1203,1204,1205,1206,1207,1208,1209,1210,1211,1212,1213,1214,1215,1216,1217,1218,1219,1220,1221,1222,1223,1224,1225,1226,1227,1228,1229,1230,1231,1232,1233,1234,1235,1236,1237,1238,1239,1240,1241,1242,1243,1244,1245,1246,1247,1248,1249,1250,1251,1252,1253,1254,1255,1256,1257,1258,1259,1260,1261,1262,1263,1264,1265,1266,1267,1268,1269,1270,1271,1272,1273,1274,1275,1276,1277,1278,1279,1280,1281,1282,1283,1284,1285,1286,1287,1288,1289,1290,1291,1292,1293,1294,1295,1296,1297,1298,1299,1300,1301,1302,1303,1304,1305,1306,1307,1308,1309,1310,1311,1312,1313,1314,1315,1316,1317,1318,1319,1320,1321,1322,1323,1324,1325,1326,1327,1328,1329,1330,1331,1332,1333,1334,1335,1336,1337,1338,1339,1340,1341,1342,1343,1344,1345,1346,1347,1348,1349,1350,1351,1352,1353,1354,1355,1356,1357,1358,1359,1360,1361,1362,1363,1364,1365,1366,1367,1368,1369,1370,1371,1372,1373,1374,1375,1376,1377,1378,1379,1380,1381,1382,1383,1384,1385,1386,1387,1388,1389,1390,1391,1392,1393,1394,1395,1396,1397,1398,1399,1400,1401,1402,1403,1404,1405,1406,1407,1408,1409,1410,1411,1412,1413,1414,1415,1416,1417,1418,1419,1420,1421,1422,1423,1424,1425,1426,1427,1428,1429,1430,1431,1432,1433,1434,1435,1436,1437,1438,1439,1440,1441,1442,1443,1444,1445,1446,1447,1448,1449,1450,1451,1452,1453,1454,1455,1456,1457,1458,1459,1460,1461,1462,1463,1464,1465,1466,1467,1468,1469,1470,1471,1472,1473,1474,1475,1476,1477,1478,1479,1480,1481,1482,1483,1484,1485,1486,1487,1488,1489,1490,1491,1492,1493,1494,1495,1496,1497,1498,1499,1500', '/api/v2/probes/?id__in=1501,1502,1503,1504,1505,1506,1507,1508,1509,1510,1511,1512,1513,1514,1515,1516,1517,1518,1519,1520,1521,1522,1523,1524,1525,1526,1527,1528,1529,1530,1531,1532,1533,1534,1535,1536,1537,1538,1539,1540,1541,1542,1543,1544,1545,1546,1547,1548,1549,1550,1551,1552,1553,1554,1555,1556,1557,1558,1559,1560,1561,1562,1563,1564,1565,1566,1567,1568,1569,1570,1571,1572,1573,1574,1575,1576,1577,1578,1579,1580,1581,1582,1583,1584,1585,1586,1587,1588,1589,1590,1591,1592,1593,1594,1595,1596,1597,1598,1599,1600,1601,1602,1603,1604,1605,1606,1607,1608,1609,1610,1611,1612,1613,1614,1615,1616,1617,1618,1619,1620,1621,1622,1623,1624,1625,1626,1627,1628,1629,1630,1631,1632,1633,1634,1635,1636,1637,1638,1639,1640,1641,1642,1643,1644,1645,1646,1647,1648,1649,1650,1651,1652,1653,1654,1655,1656,1657,1658,1659,1660,1661,1662,1663,1664,1665,1666,1667,1668,1669,1670,1671,1672,1673,1674,1675,1676,1677,1678,1679,1680,1681,1682,1683,1684,1685,1686,1687,1688,1689,1690,1691,1692,1693,1694,1695,1696,1697,1698,1699,1700,1701,1702,1703,1704,1705,1706,1707,1708,1709,1710,1711,1712,1713,1714,1715,1716,1717,1718,1719,1720,1721,1722,1723,1724,1725,1726,1727,1728,1729,1730,1731,1732,1733,1734,1735,1736,1737,1738,1739,1740,1741,1742,1743,1744,1745,1746,1747,1748,1749,1750,1751,1752,1753,1754,1755,1756,1757,1758,1759,1760,1761,1762,1763,1764,1765,1766,1767,1768,1769,1770,1771,1772,1773,1774,1775,1776,1777,1778,1779,1780,1781,1782,1783,1784,1785,1786,1787,1788,1789,1790,1791,1792,1793,1794,1795,1796,1797,1798,1799,1800,1801,1802,1803,1804,1805,1806,1807,1808,1809,1810,1811,1812,1813,1814,1815,1816,1817,1818,1819,1820,1821,1822,1823,1824,1825,1826,1827,1828,1829,1830,1831,1832,1833,1834,1835,1836,1837,1838,1839,1840,1841,1842,1843,1844,1845,1846,1847,1848,1849,1850,1851,1852,1853,1854,1855,1856,1857,1858,1859,1860,1861,1862,1863,1864,1865,1866,1867,1868,1869,1870,1871,1872,1873,1874,1875,1876,1877,1878,1879,1880,1881,1882,1883,1884,1885,1886,1887,1888,1889,1890,1891,1892,1893,1894,1895,1896,1897,1898,1899,1900,1901,1902,1903,1904,1905,1906,1907,1908,1909,1910,1911,1912,1913,1914,1915,1916,1917,1918,1919,1920,1921,1922,1923,1924,1925,1926,1927,1928,1929,1930,1931,1932,1933,1934,1935,1936,1937,1938,1939,1940,1941,1942,1943,1944,1945,1946,1947,1948,1949,1950,1951,1952,1953,1954,1955,1956,1957,1958,1959,1960,1961,1962,1963,1964,1965,1966,1967,1968,1969,1970,1971,1972,1973,1974,1975,1976,1977,1978,1979,1980,1981,1982,1983,1984,1985,1986,1987,1988,1989,1990,1991,1992,1993,1994,1995,1996,1997,1998,1999'] self.assertEqual(r.split_urls, expected_list) def test_sane_output(self): arequest = mock.patch('ripe.atlas.cousteau.request.AtlasRequest.get').start() arequest.return_value = True, { "count": "3", "next": None, "results": [ { "address_v4": None, "address_v6": None, "asn_v4": None, "asn_v6": None, "country_code": "GR", "id": 90, "is_anchor": False, "is_public": False, "prefix_v4": None, "prefix_v6": None, "status": 3, "tags": [ "home", "nat", ], "latitude": 37.4675, "longitude": 22.4015, "status_name": "Abandoned", "status_since": 1376578323 }, { "asn_v4": 3329, "asn_v6": None, "country_code": "GR", "id": 268, "is_anchor": False, "is_public": False, "prefix_v6": None, "status": 1, "tags": [ "system-ipv6-ula", "system-ipv4-rfc1918" ], "latitude": 40.6415, "longitude": 22.9405, "status_name": "Connected", "status_since": 1433248709 } ] } probe_generator = ProbeRequest(**{}) probes_list = list(probe_generator) expected_value = [ { "address_v4": None, "address_v6": None, "asn_v4": None, "asn_v6": None, "country_code": "GR", "id": 90, "is_anchor": False, "is_public": False, "prefix_v4": None, "prefix_v6": None, "status": 3, "tags": [ "home", "nat", ], "latitude": 37.4675, "longitude": 22.4015, "status_name": "Abandoned", "status_since": 1376578323 }, { "asn_v4": 3329, "asn_v6": None, "country_code": "GR", "id": 268, "is_anchor": False, "is_public": False, "prefix_v6": None, "status": 1, "tags": [ "system-ipv6-ula", "system-ipv4-rfc1918" ], "latitude": 40.6415, "longitude": 22.9405, "status_name": "Connected", "status_since": 1433248709 } ] self.assertEqual(probes_list, expected_value) self.assertEqual(probe_generator.total_count, 3) def test_wrong_api_output(self): arequest = mock.patch('ripe.atlas.cousteau.request.AtlasRequest.get').start() arequest.return_value = True, {} probe_generator = ProbeRequest(**{}) probes_list = list(probe_generator) expected_value = [] self.assertEqual(probes_list, expected_value) self.assertEqual(probe_generator.total_count, 0) def test_semisane_output(self): arequest = mock.patch('ripe.atlas.cousteau.request.AtlasRequest.get').start() first_get_resp = (True, { "count": "6", "next": "blaaaaaah", "results": [ { "address_v4": None, "address_v6": None, "asn_v4": None, "asn_v6": None, "country_code": "GR", "id": 90, "is_anchor": False, "is_public": False, "prefix_v4": None, "prefix_v6": None, "status": 3, "tags": [ "home", "nat", ], "latitude": 37.4675, "longitude": 22.4015, "status_name": "Abandoned", "status_since": 1376578323 }, { "asn_v4": 3329, "asn_v6": None, "country_code": "GR", "id": 268, "is_anchor": False, "is_public": False, "prefix_v6": None, "status": 1, "tags": [ "system-ipv6-ula", "system-ipv4-rfc1918" ], "latitude": 40.6415, "longitude": 22.9405, "status_name": "Connected", "status_since": 1433248709 } ] }) second_get_resp = (True, { "count": "5", "next": None, "results": [ { "address_v4": None, "address_v6": None, "asn_v4": None, "asn_v6": None, "country_code": "GR", "id": 99, "is_anchor": False, "is_public": False, "prefix_v4": None, "prefix_v6": None, "status": 3, "tags": [ "home", "nat", ], "latitude": 37.4675, "longitude": 22.4015, "status_name": "Abandoned", "status_since": 1376578323 }, { "asn_v4": 3329, "asn_v6": None, "country_code": "GR", "id": 269, "is_anchor": False, "is_public": False, "prefix_v6": None, "status": 1, "tags": [ "system-ipv6-ula", "system-ipv4-rfc1918" ], "latitude": 40.6415, "longitude": 22.9405, "status_name": "Connected", "status_since": 1433248709 } ] }) arequest.side_effect = [first_get_resp, second_get_resp] probe_generator = ProbeRequest(**{}) probes_list = list(probe_generator) expected_value = [ { "address_v4": None, "address_v6": None, "asn_v4": None, "asn_v6": None, "country_code": "GR", "id": 90, "is_anchor": False, "is_public": False, "prefix_v4": None, "prefix_v6": None, "status": 3, "tags": [ "home", "nat", ], "latitude": 37.4675, "longitude": 22.4015, "status_name": "Abandoned", "status_since": 1376578323 }, { "asn_v4": 3329, "asn_v6": None, "country_code": "GR", "id": 268, "is_anchor": False, "is_public": False, "prefix_v6": None, "status": 1, "tags": [ "system-ipv6-ula", "system-ipv4-rfc1918" ], "latitude": 40.6415, "longitude": 22.9405, "status_name": "Connected", "status_since": 1433248709 }, { "address_v4": None, "address_v6": None, "asn_v4": None, "asn_v6": None, "country_code": "GR", "id": 99, "is_anchor": False, "is_public": False, "prefix_v4": None, "prefix_v6": None, "status": 3, "tags": [ "home", "nat", ], "latitude": 37.4675, "longitude": 22.4015, "status_name": "Abandoned", "status_since": 1376578323 }, { "asn_v4": 3329, "asn_v6": None, "country_code": "GR", "id": 269, "is_anchor": False, "is_public": False, "prefix_v6": None, "status": 1, "tags": [ "system-ipv6-ula", "system-ipv4-rfc1918" ], "latitude": 40.6415, "longitude": 22.9405, "status_name": "Connected", "status_since": 1433248709 } ] self.assertEqual(probes_list, expected_value) self.assertEqual(probe_generator.total_count, 6) def test_user_agent(self): self.assertEqual(RequestGenerator()._user_agent, None) self.assertEqual(RequestGenerator(user_agent="x")._user_agent, "x") def tearDown(self): mock.patch.stopall() class TestProbeRepresentation(unittest.TestCase): def test_sane_response(self): with mock.patch('ripe.atlas.cousteau.request.AtlasRequest.get') as request_mock: resp = { "address_v4": "62.194", "address_v6": None, "asn_v4": 68, "asn_v6": None, "country_code": "ND", "id": 1, "is_anchor": False, "is_public": False, "prefix_v4": "62.194.0.0/16", "prefix_v6": None, "tags": ["cable"], "geometry": { "type": "Point", "coordinates": [4.8875, 52.3875] }, "status": { "since": "2015-09-28T13:25:16", "id": 1, "name": "Connected" } } request_mock.return_value = True, resp probe = Probe(id=1) self.assertEqual(probe.meta_data, resp) self.assertEqual(probe.country_code, "ND") self.assertEqual(probe.address_v4, "62.194") self.assertEqual(probe.address_v6, None) self.assertEqual(probe.asn_v4, 68) self.assertEqual(probe.asn_v6, None) self.assertEqual(probe.is_anchor, False) self.assertEqual(probe.is_public, False) self.assertEqual(probe.prefix_v4, "62.194.0.0/16") self.assertEqual(probe.prefix_v6, None) self.assertEqual(probe.status, "Connected") self.assertEqual(probe.tags, ["cable"]) self.assertEqual(probe.prefix_v6, None) self.assertEqual(probe.geometry, {"type": "Point", "coordinates": [4.8875, 52.3875]}) def test_error_response(self): with mock.patch('ripe.atlas.cousteau.request.AtlasRequest.get') as request_mock: request_mock.return_value = False, {} self.assertRaises(APIResponseError, lambda: Probe(id=1)) def test_user_agent(self): paths = { "fetch": "ripe.atlas.cousteau.Probe._fetch_meta_data", "populate": "ripe.atlas.cousteau.Probe._populate_data", } with mock.patch(paths["fetch"]) as fetch: fetch.return_value = True with mock.patch(paths["populate"]): self.assertEqual(Probe(id=1)._user_agent, None) self.assertEqual( Probe(id=1, user_agent=None)._user_agent, None) self.assertEqual( Probe(id=1, user_agent="w00t")._user_agent, "w00t") class TestMeasurementRepresentation(unittest.TestCase): def setUp(self): self.resp = { "af": 4, "destination_address": "202.73.56.70", "destination_asn": 9255, "destination_name": "blaaaah", "msm_id": 2310448, "description": "Blaaaaaaaaaah", "is_oneoff": True, "is_public": True, "interval": 1800, "creation_time": 1439379910, "resolve_on_probe": False, "start_time": 1439379910, "stop_time": 1439380502, "status": {"id": 4, "name": "Stopped"}, "resolved_ips": ["202.73.56.70"], "type": {"id": 8, "name": "http", "af": 4}, "result": "/api/v1/measurement/2310448/result/" } def test_sane_response(self): with mock.patch('ripe.atlas.cousteau.request.AtlasRequest.get') as request_mock: request_mock.return_value = True, self.resp measurement = Measurement(id=1) self.assertEqual(measurement.meta_data, self.resp) self.assertEqual(measurement.protocol, 4) self.assertEqual(measurement.destination_address, "202.73.56.70") self.assertEqual(measurement.destination_asn, 9255) self.assertEqual(measurement.destination_name, "blaaaah") self.assertEqual(measurement.description, "Blaaaaaaaaaah") self.assertEqual(measurement.is_oneoff, True) self.assertEqual(measurement.is_public, True) self.assertEqual(measurement.interval, 1800) self.assertEqual(measurement.status, "Stopped") self.assertEqual(measurement.creation_time, datetime.fromtimestamp(1439379910)) self.assertEqual(measurement.start_time, datetime.fromtimestamp(1439379910)) self.assertEqual(measurement.stop_time, datetime.fromtimestamp(1439380502)) self.assertEqual(measurement.type, "HTTP") self.assertEqual(measurement.result_url, "/api/v1/measurement/2310448/result/") def test_type1(self): """Tests format of the type key in response, soon to be deprecated.""" with mock.patch('ripe.atlas.cousteau.request.AtlasRequest.get') as request_mock: self.resp["type"] = {"id": 8, "name": "dns", "af": 4} request_mock.return_value = True, self.resp measurement = Measurement(id=1) self.assertEqual(measurement.type, "DNS") self.resp["type"] = {} request_mock.return_value = True, self.resp measurement = Measurement(id=1) self.assertEqual(measurement.type, "") def test_type2(self): """Tests new format of the type key in response, soon to be enabled.""" with mock.patch('ripe.atlas.cousteau.request.AtlasRequest.get') as request_mock: self.resp["type"] = "dns" request_mock.return_value = True, self.resp measurement = Measurement(id=1) self.assertEqual(measurement.type, "dns") def test_error_response(self): with mock.patch('ripe.atlas.cousteau.request.AtlasRequest.get') as request_mock: request_mock.return_value = False, {} self.assertRaises(APIResponseError, lambda: Measurement(id=1)) def test_user_agent(self): paths = { "fetch": "ripe.atlas.cousteau.Measurement._fetch_meta_data", "populate": "ripe.atlas.cousteau.Measurement._populate_data", } with mock.patch(paths["fetch"]) as fetch: fetch.return_value = True with mock.patch(paths["populate"]): self.assertEqual(Measurement(id=1)._user_agent, None) self.assertEqual( Measurement(id=1, user_agent=None)._user_agent, None) self.assertEqual( Measurement(id=1, user_agent="w00t")._user_agent, "w00t") ripe-atlas-cousteau-1.0.7/tests/test_source.py000066400000000000000000000171041264541424100214670ustar00rootroot00000000000000# Copyright (c) 2015 RIPE NCC # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . import unittest from jsonschema import validate from ripe.atlas.cousteau import ( AtlasSource, AtlasChangeSource ) from ripe.atlas.cousteau.source import MalFormattedSource from . import probes_create_schema, probes_change_schema class TestAtlasSource(unittest.TestCase): def test_sane_type_attribute(self): """Test sane input for type attribute""" for stype in AtlasChangeSource.types_available: kwargs = {"requested": 5, "value": "test", "type": stype} AtlasSource(**kwargs) def test_wrong_type_attribute(self): """Test wrong input for type attribute""" kwargs = {"requested": 5, "value": "test", "type": "blaaaaaaa"} self.assertRaises( MalFormattedSource, lambda: AtlasSource(**kwargs) ) def test_clean(self): # all ok kwargs = {"requested": 5, "value": "test", "type": "msm"} source = AtlasSource(**kwargs) self.assertEqual(source.clean(), None) # value missing source.value = None self.assertRaises( MalFormattedSource, lambda: source.clean() ) # type missing kwargs = {"requested": 5, "value": "test"} self.assertRaises( MalFormattedSource, lambda: AtlasSource(**kwargs).clean() ) # requested missing source.value = "test" source.requested = None self.assertRaises( MalFormattedSource, lambda: source.clean() ) def test_build_api_struct(self): kwargs = {"requested": 5, "value": "test", "type": "msm"} source = AtlasSource(**kwargs) self.assertEqual(source.build_api_struct(), kwargs) validate(source.build_api_struct(), probes_create_schema) def test_set_tags(self): # all ok kwargs = { "requested": 5, "value": "test", "type": "msm", "tags": {"include": ["one", "two"], "exclude": ["one", "two"]}} source = AtlasSource(**kwargs) self.assertEqual(source.clean(), None) self.assertEqual( source.tags, {"include": ["one", "two"], "exclude": ["one", "two"]} ) # include missing kwargs = { "requested": 5, "value": "test", "type": "msm", "tags": {"exclude": ["one", "two"]} } source = AtlasSource(**kwargs) self.assertEqual(source.clean(), None) # exclude missing kwargs = { "requested": 5, "value": "test", "type": "msm", "tags": {"include": ["one", "two"]} } source = AtlasSource(**kwargs) self.assertEqual(source.clean(), None) # invalid tag type kwargs = { "requested": 5, "value": "test", "type": "msm", "tags": {"include": ["one", 2], "exclude": ["one", "two"]} } self.assertRaises(MalFormattedSource, lambda: AtlasSource(**kwargs)) # unknown element kwargs = { "requested": 5, "value": "test", "type": "msm", "tags": { "include": ["one", 2], "exclude": ["one", "two"], "unknown": "?" } } self.assertRaises(MalFormattedSource, lambda: AtlasSource(**kwargs)) def test_build_api_struct_with_tags(self): kwargs = { "requested": 5, "value": "test", "type": "msm", "tags": {"include": ["one", "two"], "exclude": ["one", "two"]} } source = AtlasSource(**kwargs) self.assertEqual(source.build_api_struct(), kwargs) validate(source.build_api_struct(), probes_create_schema) class TestAtlasChangeSource(unittest.TestCase): def test_setting_type(self): kwargs = { "requested": 5, "value": "test", "action": "add" } source = AtlasChangeSource(**kwargs) for source_type in ["area", "country", "prefix", "asn", "msm", "probes"]: self.assertEqual(setattr(source, "type", source_type), None) kwargs = { "requested": 5, "value": "test", "action": "remove" } source = AtlasChangeSource(**kwargs) for source_type in ["area", "country", "prefix", "asn", "msm"]: self.assertRaises( MalFormattedSource, lambda: setattr(source, "type", source_type) ) self.assertEqual(setattr(source, "type", "probes"), None) def test_setting_action(self): kwargs = { "requested": 5, "value": "test", "type": "probes" } source = AtlasChangeSource(**kwargs) for source_action in ["remove", "add"]: self.assertEqual( setattr(source, "action", source_action), None ) self.assertRaises( MalFormattedSource, lambda: setattr(source, "action", "test") ) def test_clean(self): # all ok kwargs = {"requested": 5, "value": "test", "type": "msm", "action": "add"} source = AtlasChangeSource(**kwargs) self.assertEqual(source.clean(), None) # value missing source.value = None self.assertRaises( MalFormattedSource, lambda: source.clean() ) # type missing kwargs = {"requested": 5, "value": "test", "action": "add"} self.assertRaises( MalFormattedSource, lambda: AtlasChangeSource(**kwargs).clean() ) # action missing kwargs = {"requested": 5, "value": "test", "type": "probes"} self.assertRaises( MalFormattedSource, lambda: AtlasChangeSource(**kwargs).clean() ) # requested missing source.value = "test" source.requested = None self.assertRaises( MalFormattedSource, lambda: source.clean() ) def test_build_api_struct(self): kwargs = {"requested": 5, "value": "test", "type": "msm", "action": "add"} source = AtlasChangeSource(**kwargs) self.assertEqual(source.build_api_struct(), kwargs) validate(source.build_api_struct(), probes_change_schema) def test_set_tags(self): # missing action kwargs = { "requested": 5, "value": "test", "type": "msm", "tags": {"include": ["one", "two"], "exclude": ["one", "two"]} } self.assertRaises( MalFormattedSource, lambda: AtlasChangeSource(**kwargs).build_api_struct() ) # action == add kwargs = { "requested": 5, "value": "test", "type": "msm", "action": "add", "tags": {"include": ["one", "two"], "exclude": ["one", "two"]} } source = AtlasChangeSource(**kwargs) self.assertEqual(source.clean(), None) # action == remove kwargs = { "requested": 5, "value": "test", "type": "msm", "action": "remove", "tags": {"include": ["one", "two"], "exclude": ["one", "two"]} } self.assertRaises( MalFormattedSource, lambda: AtlasChangeSource(**kwargs) ) ripe-atlas-cousteau-1.0.7/tox.ini000066400000000000000000000006741264541424100167330ustar00rootroot00000000000000[tox] envlist=py27-pyflakes,py27-pep8,py27-coverage,py26,py27,py34, pypy3 [testenv] commands=python setup.py test [] deps=nose [testenv:py27-pep8] commands=pep8 ripe --max-line-length=100 basepython=python2.7 deps=pep8 [testenv:py27-pyflakes] commands=pyflakes ripe basepython=python2.7 deps=pyflakes [testenv:py27-coverage] basepython=python2.7 commands= coverage run --source=ripe setup.py test coverage report -m deps=coverage