def test_layer_delete_from_geonetwork(self):
        """Verify that layer is correctly deleted from GeoNetwork
        """

        gn_cat = Layer.objects.gn_catalog

        # Test Uploading then Deleting a Shapefile from GeoNetwork
        shp_file = os.path.join(TEST_DATA, "lembang_schools.shp")
        shp_layer = file_upload(shp_file)
        shp_layer.delete_from_geonetwork()
        shp_layer_info = gn_cat.get_by_uuid(shp_layer.uuid)
        assert shp_layer_info == None

        # Clean up and completely delete the layer
        shp_layer.delete()

        # Test Uploading then Deleting a TIFF file from GeoNetwork
        tif_file = os.path.join(TEST_DATA, "test_grid.tif")
        tif_layer = file_upload(tif_file)
        tif_layer.delete_from_geonetwork()
        tif_layer_info = gn_cat.get_by_uuid(tif_layer.uuid)
        assert tif_layer_info == None

        # Clean up and completely delete the layer
        tif_layer.delete()
    def test_layer_delete_from_geoserver(self):
        """Verify that layer is correctly deleted from GeoServer
        """
        # Layer.delete_from_geoserver() uses cascading_delete()
        # Should we explicitly test that the styles and store are
        # deleted as well as the resource itself?
        # There is already an explicit test for cascading delete

        gs_cat = Layer.objects.gs_catalog

        # Test Uploading then Deleting a Shapefile from GeoServer
        shp_file = os.path.join(TEST_DATA, "lembang_schools.shp")
        shp_layer = file_upload(shp_file)
        shp_store = gs_cat.get_store(shp_layer.name)
        shp_layer.delete_from_geoserver()
        self.assertRaises(FailedRequestError, lambda: gs_cat.get_resource(shp_layer.name, store=shp_store))

        shp_layer.delete()

        # Test Uploading then Deleting a TIFF file from GeoServer
        tif_file = os.path.join(TEST_DATA, "test_grid.tif")
        tif_layer = file_upload(tif_file)
        tif_store = gs_cat.get_store(tif_layer.name)
        tif_layer.delete_from_geoserver()
        self.assertRaises(FailedRequestError, lambda: gs_cat.get_resource(shp_layer.name, store=tif_store))

        tif_layer.delete()
 def test_extension_not_implemented(self):
     """Verify a GeoNodeException is returned for not compatible extensions
     """
     sampletxt = os.path.join(TEST_DATA, "lembang_schools_percentage_loss.dbf")
     try:
         file_upload(sampletxt)
     except GeoNodeException, e:
         pass
    def test_cascading_delete(self):
        """Verify that the gs_helpers.cascading_delete() method is working properly
        """
        gs_cat = Layer.objects.gs_catalog

        # Upload a Shapefile
        shp_file = os.path.join(TEST_DATA, "lembang_schools.shp")
        shp_layer = file_upload(shp_file)

        # Save the names of the Resource/Store/Styles
        resource_name = shp_layer.resource.name
        store = shp_layer.resource.store
        store_name = store.name
        layer = gs_cat.get_layer(resource_name)
        styles = layer.styles + [layer.default_style]

        # Delete the Layer using cascading_delete()
        cascading_delete(gs_cat, shp_layer.resource)

        # Verify that the styles were deleted
        for style in styles:
            s = gs_cat.get_style(style)
            assert s == None

        # Verify that the resource was deleted
        self.assertRaises(FailedRequestError, lambda: gs_cat.get_resource(resource_name, store=store))

        # Verify that the store was deleted
        self.assertRaises(FailedRequestError, lambda: gs_cat.get_store(store_name))

        # Clean up by deleting the layer from GeoNode's DB and GeoNetwork
        shp_layer.delete()
    def test_delete_layer(self):
        """Verify that the 'delete_layer' pre_delete hook is functioning
        """

        gs_cat = Layer.objects.gs_catalog
        gn_cat = Layer.objects.gn_catalog

        # Upload a Shapefile Layer
        shp_file = os.path.join(TEST_DATA, "lembang_schools.shp")
        shp_layer = file_upload(shp_file)
        shp_layer_id = shp_layer.pk
        shp_store = gs_cat.get_store(shp_layer.name)
        shp_store_name = shp_store.name

        id = shp_layer.pk
        name = shp_layer.name
        uuid = shp_layer.uuid

        # Delete it with the Layer.delete() method
        shp_layer.delete()

        # Verify that it no longer exists in GeoServer
        self.assertRaises(FailedRequestError, lambda: gs_cat.get_resource(name, store=shp_store))
        self.assertRaises(FailedRequestError, lambda: gs_cat.get_store(shp_store_name))

        # Verify that it no longer exists in GeoNetwork
        shp_layer_gn_info = gn_cat.get_by_uuid(uuid)
        assert shp_layer_gn_info == None

        # Check that it was also deleted from GeoNodes DB
        self.assertRaises(ObjectDoesNotExist, lambda: Layer.objects.get(pk=shp_layer_id))
Exemplo n.º 6
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 def test_file_upload(self):
     """
     Tests that a file can be uploaded without associating it with an specific event.
     """
     thefile = os.path.join(TEST_DATA, 'TM_WORLD.shp')
     uploaded = file_upload(thefile, overwrite=True)
     assert uploaded.typename is not None
 def test_empty_bbox(self):
     """Regression-test for failures caused by zero-width bounding boxes"""
     thefile = os.path.join(TEST_DATA, "single_point.shp")
     uploaded = file_upload(thefile, overwrite=True)
     detail_page_url = urljoin(settings.SITEURL, uploaded.get_absolute_url())
     get_web_page(detail_page_url)  # no assertion, but this will fail if the page 500's
     new_map_url = urljoin(settings.SITEURL, "/maps/new") + "?" + urlencode(dict(layer=uploaded.typename))
     get_web_page(new_map_url)  # no assertion, but this will fail if the page 500's
Exemplo n.º 8
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 def test_event_file_upload(self):
     """
     Tests that a file can be uploaded and associated with an specific event.
     """
     thefile = os.path.join(TEST_DATA, 'KEN_Affected_Regions.shp')
     uploaded = file_upload(thefile, workspace=self.event.slug, overwrite=True)
     
     self.assertEqual(self.event.slug, uploaded.workspace)
    def test_tiff(self):
        """Uploading a good .tiff
        """
        thefile = os.path.join(TEST_DATA, "test_grid.tif")
        uploaded = file_upload(thefile)
        check_layer(uploaded)

        # Clean up and completely delete the layer
        uploaded.delete()
Exemplo n.º 10
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    def test_bad_shapefile(self):
        """Verifying GeoNode complains about a shapefile without .prj
        """

        thefile = os.path.join(TEST_DATA, "lembang_schools_percentage_loss.shp")
        try:
            uploaded = file_upload(thefile)
        except GeoNodeException, e:
            pass
Exemplo n.º 11
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    def test_shapefile(self):
        """Test Uploading a good shapefile
        """
        thefile = os.path.join(TEST_DATA, "lembang_schools.shp")
        uploaded = file_upload(thefile)
        check_layer(uploaded)

        # Clean up and completely delete the layer
        uploaded.delete()
Exemplo n.º 12
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 def test_keywords_upload(self):
     """Check that keywords can be passed to file_upload
     """
     thefile = os.path.join(TEST_DATA, "lembang_schools.shp")
     uploaded = file_upload(thefile, keywords=["foo", "bar"], overwrite=True)
     keywords = uploaded.keyword_list()
     msg = "No keywords found in layer %s" % uploaded.name
     assert len(keywords) > 0, msg
     assert "foo" in uploaded.keyword_list(), 'Could not find "foo" in %s' % keywords
     assert "bar" in uploaded.keyword_list(), 'Could not find "bar" in %s' % keywords
Exemplo n.º 13
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    def test_repeated_upload(self):
        """Upload the same file more than once
        """
        thefile = os.path.join(TEST_DATA, "test_grid.tif")
        uploaded1 = file_upload(thefile)
        check_layer(uploaded1)
        uploaded2 = file_upload(thefile, overwrite=True)
        check_layer(uploaded2)
        uploaded3 = file_upload(thefile, overwrite=False)
        check_layer(uploaded3)
        msg = "Expected %s but got %s" % (uploaded1.name, uploaded2.name)
        assert uploaded1.name == uploaded2.name, msg
        msg = "Expected a different name when uploading %s using " "overwrite=False but got %s" % (
            thefile,
            uploaded3.name,
        )
        assert uploaded1.name != uploaded3.name, msg

        # Clean up and completely delete the layers

        # uploaded1 is overwritten by uploaded2 ... no need to delete it
        uploaded2.delete()
        uploaded3.delete()
Exemplo n.º 14
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Arquivo: io.py Projeto: uniomni/riab
def save_file_to_geonode(filename, user=None, title=None,
                         overwrite=True, check_metadata=True,
                         ignore=None):
    """Save a single layer file to local Risiko GeoNode

    Input
        filename: Layer filename of type as defined in LAYER_TYPES
        user: Django User object
        title: String describing the layer.
               If None or '' the filename will be used.
        overwrite: Boolean variable controlling whether existing layers
                   can be overwritten by this operation. Default is True
        check_metadata: Flag controlling whether metadata is verified.
                        If True (default), an exception will be raised
                        if metada is not available after a number of retries.
                        If False, no check is done making the function faster.
    Output
        layer object
    """

    if ignore is not None and filename == ignore:
        return None

    # Extract fully qualified basename and extension
    basename, extension = os.path.splitext(filename)

    if extension not in LAYER_TYPES:
        msg = ('Invalid file extension in file %s. Valid extensions are '
               '%s' % (filename, str(LAYER_TYPES)))
        raise RisikoException(msg)

    # Use file name to derive title if not specified
    if title is None or title == '':
        title = os.path.split(basename)[-1]

    # Try to find a file with a .keywords extension
    # and create a keywords list from there.
    # It is assumed that the keywords are separated
    # by new lines.
    # Empty keyword lines are ignored (as this causes issues downstream)
    keyword_list = []
    keyword_file = basename + '.keywords'
    if os.path.exists(keyword_file):
        f = open(keyword_file, 'r')
        for line in f.readlines():

            # Ignore blank lines
            raw_keyword = line.strip()
            if raw_keyword == '':
                continue

            # Strip any spaces after or before the colons if present
            if ':' in raw_keyword:
                keyword = ':'.join([x.strip() for x in raw_keyword.split(':')])

            # Store keyword
            keyword_list.append(keyword)
        f.close()

    # Take care of file types
    if extension == '.asc':
        # We assume this is an AAIGrid ASCII file such as those generated by
        # ESRI and convert it to Geotiff before uploading.

        # Create temporary tif file for upload and check that the road is clear
        prefix = os.path.split(basename)[-1]
        upload_filename = unique_filename(prefix=prefix, suffix='.tif')
        upload_basename, extension = os.path.splitext(upload_filename)

        # Copy any metadata files to unique filename
        for ext in ['.sld', '.keywords']:
            if os.path.exists(basename + ext):
                cmd = 'cp %s%s %s%s' % (basename, ext, upload_basename, ext)
                run(cmd)

        # Check that projection file exists
        prjname = basename + '.prj'
        if not os.path.isfile(prjname):
            msg = ('File %s must have a projection file named '
                   '%s' % (filename, prjname))
            raise RisikoException(msg)

        # Convert ASCII file to GeoTIFF
        R = read_layer(filename)
        R.write_to_file(upload_filename)
    else:
        # The specified file is the one to upload
        upload_filename = filename

    # Attempt to upload the layer
    try:
        # Upload
        layer = file_upload(upload_filename,
                            user=user,
                            title=title,
                            keywords=keyword_list,
                            overwrite=overwrite)

        # FIXME (Ole): This is some kind of hack that should be revisited.
        layer.keywords = ' '.join(keyword_list)
        layer.save()
    except GeoNodeException, e:
        # Layer did not upload. Convert GeoNodeException to RisikoException
        raise RisikoException(e)
Exemplo n.º 15
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def save_file_to_geonode(filename,
                         user=None,
                         title=None,
                         overwrite=True,
                         check_metadata=True,
                         ignore=None):
    """Save a single layer file to local Risiko GeoNode

    Input
        filename: Layer filename of type as defined in LAYER_TYPES
        user: Django User object
        title: String describing the layer.
               If None or '' the filename will be used.
        overwrite: Boolean variable controlling whether existing layers
                   can be overwritten by this operation. Default is True
        check_metadata: Flag controlling whether metadata is verified.
                        If True (default), an exception will be raised
                        if metada is not available after a number of retries.
                        If False, no check is done making the function faster.
    Output
        layer object
    """

    if ignore is not None and filename == ignore:
        return None

    # Extract fully qualified basename and extension
    basename, extension = os.path.splitext(filename)

    if extension not in LAYER_TYPES:
        msg = ('Invalid file extension in file %s. Valid extensions are '
               '%s' % (filename, str(LAYER_TYPES)))
        raise RisikoException(msg)

    # Use file name to derive title if not specified
    if title is None or title == '':
        title = os.path.split(basename)[-1]

    # Try to find a file with a .keywords extension
    # and create a keywords list from there.
    # It is assumed that the keywords are separated
    # by new lines.
    # Empty keyword lines are ignored (as this causes issues downstream)
    keyword_list = []
    keyword_file = basename + '.keywords'
    if os.path.exists(keyword_file):
        f = open(keyword_file, 'r')
        for line in f.readlines():

            # Ignore blank lines
            raw_keyword = line.strip()
            if raw_keyword == '':
                continue

            # Strip any spaces after or before the colons if present
            if ':' in raw_keyword:
                keyword = ':'.join([x.strip() for x in raw_keyword.split(':')])

            # FIXME (Ole): Replace spaces by underscores and store keyword.
            # See issue #148
            keyword_list.append(keyword.replace(' ', '_'))
        f.close()

    # Take care of file types
    if extension == '.asc':
        # We assume this is an AAIGrid ASCII file such as those generated by
        # ESRI and convert it to Geotiff before uploading.

        # Create temporary tif file for upload and check that the road is clear
        prefix = os.path.split(basename)[-1]
        upload_filename = unique_filename(prefix=prefix, suffix='.tif')
        upload_basename, extension = os.path.splitext(upload_filename)

        # Copy any metadata files to unique filename
        for ext in ['.sld', '.keywords']:
            if os.path.exists(basename + ext):
                cmd = 'cp %s%s %s%s' % (basename, ext, upload_basename, ext)
                run(cmd)

        # Check that projection file exists
        prjname = basename + '.prj'
        if not os.path.isfile(prjname):
            msg = ('File %s must have a projection file named '
                   '%s' % (filename, prjname))
            raise RisikoException(msg)

        # Convert ASCII file to GeoTIFF
        R = read_layer(filename)
        R.write_to_file(upload_filename)
    else:
        # The specified file is the one to upload
        upload_filename = filename

    # Attempt to upload the layer
    try:
        # Upload
        layer = file_upload(upload_filename,
                            user=user,
                            title=title,
                            keywords=keyword_list,
                            overwrite=overwrite)

        # FIXME (Ole): This workaround should be revisited.
        #              This fx means that keywords can't have spaces
        #              Really need a generic way of getting this kind of
        #              info in and out of GeoNode
        layer.keywords = ' '.join(keyword_list)
        layer.save()
    except GeoNodeException, e:
        # Layer did not upload. Convert GeoNodeException to RisikoException
        raise RisikoException(e)
Exemplo n.º 16
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def save_file_to_geonode(filename, user=None, title=None,
                         overwrite=False):
    """Save a single layer file to local Risiko GeoNode

    Input
        filename: Layer filename of type as defined in LAYER_TYPES
        user: Django User object
        title: String describing the layer.
               If None or '' the filename will be used.
        overwrite: Boolean variable controlling whether existing layers
                   can be overwritten by this operation. Default is False
    Output
        layer object
    """

    # Extract fully qualified basename and extension
    basename, extension = os.path.splitext(filename)

    if extension not in LAYER_TYPES:
        msg = ('Invalid file extension in file %s. Valid extensions are '
               '%s' % (filename, str(LAYER_TYPES)))
        raise RisikoException(msg)

    # Use file name to derive title if not specified
    if title is None or title == '':
        title = os.path.split(basename)[-1]

    # Try to find a file with a .keywords extension
    # and create a keywords list from there.
    # It is assumed that the keywords are separated
    # by new lines.
    keyword_list = []
    keyword_file = basename + '.keywords'
    if os.path.exists(keyword_file):
        f = open(keyword_file, 'r')
        for line in f.readlines():
            # Strip any spaces after or before the colons if present
            raw_keyword = line.strip()
            if ':' in raw_keyword:
                keyword = ':'.join([x.strip() for x in raw_keyword.split(':')])
            keyword_list.append(keyword)
        f.close()

    # Take care of file types
    if extension == '.asc':
        # We assume this is an AAIGrid ASCII file such as those generated by
        # ESRI and convert it to Geotiff before uploading.

        # Create temporary tif file for upload and check that the road is clear

        # FIXME (Ole): for some reason, these files tend to hang around
        # - especially after interrupts so we'll go for temporary filenames
        # for the time being.
        prefix=os.path.split(basename)[-1]
        upload_filename = unique_filename(prefix=prefix, suffix='.tif')
        upload_basename, extension = os.path.splitext(upload_filename)

        # Copy any metadata files to unique filename
        for ext in ['.sld', '.keywords']:
            if os.path.exists(basename+ext):
                cmd = 'cp %s%s %s%s' % (basename, ext, upload_basename, ext)
                run(cmd)

        #msg = ('You have asked to upload the ASCII file "%s" and to do so I '
        #       'must first convert it to the TIF format. However, there is '
        #       'already a file named "%s" so you have to remove that first '
        #       'and try again. Sorry about that.' % (filename,
        #                                             upload_filename))
        #assert not os.path.exists(upload_filename), msg

        # Check that projection file exists
        prjname = basename + '.prj'
        if not os.path.isfile(prjname):
            msg = ('File %s must have a projection file named '
                   '%s' % (filename, prjname))
            raise RisikoException(msg)

        # Convert ASCII file to GeoTIFF
        cmd = ('gdal_translate -ot Float64 -of GTiff -co "PROFILE=GEOTIFF" '
               '%s %s' % (filename, upload_filename))

        run(cmd,
            stdout='%s_asc2tif_conversion.stdout' % basename,
            stderr='%s_asc2tif_conversion.stderr' % basename)
    else:
        # The specified file is the one to upload
        upload_filename = filename

    # Attempt to upload the layer
    try:
        # Upload
        layer = file_upload(upload_filename,
                            user=user,
                            title=title,
                            keywords=keyword_list,
                            overwrite=overwrite)
    except GeoNodeException, e:
        # Layer did not upload. Convert GeoNodeException to RisikoException
        raise RisikoException(e)