Esempio n. 1
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    def _write_subnets(self, net, nets):
        """Create a subnet structure

        :param net: IP instance of prefix to display
        :param nets: List of nets (rows) that have subnets. The subnets are
                     located in self.matrix_nets
        """

        large_subnets = []  # When displaying unused addresses, we need to know
        # about the subnets that span more than one row
        subnet_matrix = []  # The resulting list of rows to display

        # Initially, create the rows (subnets) we're going to display
        if self.show_unused_addresses:
            row_size = self._get_row_size()
            subnets = IPtools.create_subnet_range(net, row_size)
            large_subnets = [
                x for x in nets.keys() if x.prefixlen() < row_size
            ]
        else:
            subnets = IPtools.sort_nets_by_address(nets.keys())

        while subnets:
            subnet = subnets.pop(0)

            matrix_row = []  # contains all cells in the row
            extra_rows = []  # For large nets

            matrix_row.append(self._create_index_cell(subnet))

            if subnet in self.matrix_nets:
                # We have data for this subnet, create cells for that data
                matrix_row.extend(self._create_data_row(subnet))
            else:
                # Either this subnet is bigger then a row or no subnet
                # exists here - we need to find out

                if self.show_unused_addresses:
                    # Find out if this subnet is part of a bigger subnet that
                    # should be displayed here
                    index = self._find_large_net(subnet, large_subnets)
                    if index is not None:
                        num_extra_rows = self._add_large_subnet(
                            large_subnets.pop(index), matrix_row)
                        extra_rows = self._get_extra_rows(
                            num_extra_rows, subnets)
                    else:
                        matrix_row.append(self._create_empty_cell())
                else:
                    # This net spans more then one row
                    num_extra_rows = self._add_large_subnet(subnet, matrix_row)
                    extra_rows = self._get_extra_rows(num_extra_rows, subnet)

            subnet_matrix.append(matrix_row)

            # These rows needs to be added after the main row is created for
            # nets that span more then one row
            subnet_matrix.extend(extra_rows)

        return subnet_matrix
Esempio n. 2
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 def _create_extra_rows(self, num_extra_rows, subnet):
     extra_nets = []
     row_net = IPy.IP('{}/{}'.format(subnet.net(), self._get_row_size()))
     for _ in range(num_extra_rows):
         row_net = IPtools.get_next_subnet(row_net)
         extra_nets.append([self._create_index_cell(row_net, link=False)])
     return extra_nets
Esempio n. 3
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    def build(self):

        nets = IPtools.sort_nets_by_address(self.tree_nets.keys())
        self.nodes = [
            self.Node(net, self._write_subnets(self.tree_nets[net], 1))
            for net in nets
        ]
Esempio n. 4
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    def build(self):

        nets = IPtools.sort_nets_by_address(self.tree_nets.keys())
        self.nodes = [
            self.Node(net, self._write_subnets(self.tree_nets[net], 1))
            for net in nets
        ]
Esempio n. 5
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    def __init__(self, start_net, end_net=None, bits_in_matrix=3):

        if end_net is None:
            end_net = IPtools.getLastSubnet(start_net)
        self.start_net = start_net
        self.end_net = end_net
        self.bits_in_matrix = bits_in_matrix
        self.tree = IPtree.build_tree(start_net,
                                      end_net,
                                      bits_in_matrix=bits_in_matrix,
                                      add_missing_nets=True)
        self.tree_nets = self.extract_tree_nets()
        self.matrix_nets = self.extract_matrix_nets()
        self.heading_colspan = 1
        self.nodes = None
        self.num_columns = None
        self.column_headings = None
Esempio n. 6
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    def _create_data_row(self, subnet):
        """Create a data row containing a list of cells

        :rtype: list[Cell]
        """
        if self.has_too_small_nets(subnet):
            return [self._create_too_small_subnets_cell()]

        elif self.matrix_nets[subnet]:
            # this subnet is divided into parts
            host_nybbles_map = IPtools.getLastbitsIpMap(
                self.matrix_nets[subnet].keys())
            return self._add_child_nets(host_nybbles_map)

        else:
            # this subnet spans the whole row
            meta = metaIP.MetaIP(subnet)
            return [self._create_cell(subnet, meta)]
Esempio n. 7
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    def _write_subnets(self, net):
        nodes = IPtools.sort_nets_by_address(net.keys())
        subnet_matrix = []  # The resulting list of rows to display

        for subnet in nodes:
            matrix_row = []  # contains all cells in the row
            extra_rows = []  # For large nets

            matrix_row.append(self._create_index_cell(subnet))

            if subnet in self.matrix_nets:
                # We have data for this subnet, create cells for that data
                matrix_row.extend(self._create_data_row(subnet))
            else:
                # subnet is larger than row size
                num_extra_rows = self._add_large_subnet(subnet, matrix_row)
                extra_rows = self._create_extra_rows(num_extra_rows, subnet)

            subnet_matrix.append(matrix_row)
            subnet_matrix.extend(extra_rows)

        return subnet_matrix
Esempio n. 8
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    def _write_subnets(self, net, depth):

        nodes = IPtools.sort_nets_by_address(net.keys())
        lastnet = None
        subnet_matrix = []

        for subnet in nodes:
            if lastnet is None:
                lastnet = subnet

            if subnet in self.matrix_nets:
                if self.show_unused_addresses:
                    subnet_matrix.extend(
                        self._nets_in_range(
                            lastnet,
                            subnet,
                            depth))

                lastnet = subnet
                matrix_row = [
                    self.Cell(
                        colspan=1,
                        color=None,
                        content='{0} {1}'.format(
                            Matrix.print_depth(depth),
                            _netlink(subnet)))
                ]

                host_nybbles_map = IPtools.getLastbitsIpMap(
                    self.matrix_nets[subnet].keys())
                next_header_idx = -1

                if self.has_too_small_nets(subnet):
                    matrix_row.append(
                        self.Cell(
                            colspan=self.num_columns,
                            color=self._load_color(0, 'large'),
                            content='Too many small nets')
                    )

                elif host_nybbles_map is None:
                # i.e. there exist a net with no
                # subnets <==> net spans whole row
                    ip = IPy.IP(subnet)
                    meta = metaIP.MetaIP(ip)
                    matrix_row.append(
                        self.Cell(
                            colspan=self.num_columns,
                            color=self._load_color(
                                meta.usage_percent,
                                meta.nettype),
                            content=_matrixlink(0, ip))
                    )

                else:
                # The net exists and have subnets
                    for i in self.column_headings:
                        if self.column_headings.index(i) < next_header_idx:
                            continue

                        key = i.lower()
                        if key in host_nybbles_map:
                            ip = host_nybbles_map[key]
                            meta = metaIP.MetaIP(ip)
                            matrix_cell = self.Cell(
                                colspan=self._colspan(ip),
                                color=self._load_color(
                                    meta.usage_percent,
                                    meta.nettype),
                                content=_matrixlink(key, ip))
                            next_header_idx = (self.column_headings.index(i)
                                               + int(self._colspan(ip)))
                        else:
                            matrix_cell = self.Cell(
                                colspan=1,
                                color=None,
                                content='&nbsp;')
                        matrix_row.append(matrix_cell)
                subnet_matrix.append(matrix_row)
            else:
                if (self.matrix_nets
                    and lastnet.prefixlen() <
                        self.matrix_nets.keys()[0].prefixlen()):
                    mnets = self.generate_matrix_nets(lastnet)
                    subnet_extended = IPy.IP(
                        '/'.join([
                            subnet.net().strNormal(),
                            str(self.matrix_nets.keys()[0].prefixlen())
                        ]))
                    subnet_matrix.extend(
                        self._nets_in_range(
                            mnets[-1],
                            subnet_extended,
                            depth))
                lastnet = subnet
                meta = metaIP.MetaIP(subnet)
                matrix_row = [
                    self.Cell(
                        colspan=1,
                        color=None,
                        content='{0} {1}'.format(
                            Matrix.print_depth(depth),
                            _netlink(subnet, True))),
                    self.Cell(
                        colspan=self.num_columns,
                        color=self._load_color(
                            meta.usage_percent,
                            meta.nettype),
                        content=_supernet_matrixlink(subnet))
                ]
                subnet_matrix.append(matrix_row)
                subnet_matrix.extend(
                    self._write_subnets(net[subnet], depth + 1))
                subnet_matrix.extend(
                    self._remaining_blank_nets(subnet, depth + 1))
        return subnet_matrix
Esempio n. 9
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    def _write_subnets(self, net, depth):

        nodes = IPtools.sort_nets_by_address(net.keys())
        lastnet = None
        subnet_matrix = []

        for subnet in nodes:
            if lastnet is None:
                lastnet = subnet

            if subnet in self.matrix_nets:
                if IPtools.isIntermediateNets(lastnet, subnet):
                    subnet_matrix.append(None)

                lastnet = subnet

                matrix_row = [
                    self.Cell(
                        colspan=1,
                        color=None,
                        content='{0}{1}'.format(
                            Matrix.print_depth(depth),
                            _netlink(subnet)))
                ]

                host_nybbles_map = IPtools.getLastbitsIpMap(
                    self.matrix_nets[subnet].keys())
                next_header_idx = -1
                for i in self.column_headings:
                    if self.column_headings.index(i) < next_header_idx:
                        continue

                    key = i.lower()
                    if key in host_nybbles_map:
                        meta = metaIP.MetaIP(host_nybbles_map[key])
                        ip = host_nybbles_map[key]
                        matrix_cell = self.Cell(
                            colspan=self._colspan(ip),
                            color=meta.ipv6_color,
                            content=_matrixlink(key, ip))
                        next_header_idx = self.column_headings.index(
                            i) + int(self._colspan(ip))
                    else:
                        matrix_cell = self.Cell(
                            colspan=1,
                            color=None,
                            content='&nbsp;')
                    matrix_row.append(matrix_cell)
                subnet_matrix.append(matrix_row)
            else:
                subnet_matrix.append(None)
                lastnet = subnet
                matrix_row = [
                    self.Cell(
                        colspan=1,
                        color=None,
                        content='{0}{1}'.format(
                            Matrix.print_depth(depth),
                            _netlink(subnet, True))),
                    self.Cell(
                        colspan=self.num_columns,
                        color=None,
                        content='&nbsp;')
                ]
                subnet_matrix.append(matrix_row)
                subnet_matrix.extend(
                    self._write_subnets(net[subnet], depth + 1))
        return subnet_matrix
Esempio n. 10
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    def _write_subnets(self, net, depth):

        nodes = IPtools.sort_nets_by_address(net.keys())
        lastnet = None
        subnet_matrix = []

        for subnet in nodes:
            if lastnet is None:
                lastnet = subnet

            if subnet in self.matrix_nets:
                if self.show_unused_addresses:
                    subnet_matrix.extend(
                        self._nets_in_range(lastnet, subnet, depth))

                lastnet = subnet
                matrix_row = [
                    self.Cell(colspan=1,
                              color=None,
                              content='{0} {1}'.format(
                                  Matrix.print_depth(depth), _netlink(subnet)))
                ]

                host_nybbles_map = IPtools.getLastbitsIpMap(
                    self.matrix_nets[subnet].keys())
                next_header_idx = -1

                if self.has_too_small_nets(subnet):
                    matrix_row.append(
                        self.Cell(colspan=self.num_columns,
                                  color=self._load_color(0, 'large'),
                                  content='Too many small nets'))

                elif host_nybbles_map is None:
                    # i.e. there exist a net with no
                    # subnets <==> net spans whole row
                    ip = IPy.IP(subnet)
                    meta = metaIP.MetaIP(ip)
                    matrix_row.append(
                        self.Cell(colspan=self.num_columns,
                                  color=self._load_color(
                                      meta.usage_percent, meta.nettype),
                                  content=_matrixlink(0, ip)))

                else:
                    # The net exists and have subnets
                    for i in self.column_headings:
                        if self.column_headings.index(i) < next_header_idx:
                            continue

                        key = i.lower()
                        if key in host_nybbles_map:
                            ip = host_nybbles_map[key]
                            meta = metaIP.MetaIP(ip)
                            matrix_cell = self.Cell(
                                colspan=self._colspan(ip),
                                color=self._load_color(meta.usage_percent,
                                                       meta.nettype),
                                content=_matrixlink(key, ip))
                            next_header_idx = (self.column_headings.index(i) +
                                               int(self._colspan(ip)))
                        else:
                            matrix_cell = self.Cell(colspan=1,
                                                    color=None,
                                                    content='&nbsp;')
                        matrix_row.append(matrix_cell)
                subnet_matrix.append(matrix_row)
            else:
                if (self.matrix_nets and lastnet.prefixlen() <
                        self.matrix_nets.keys()[0].prefixlen()):
                    mnets = self.generate_matrix_nets(lastnet)
                    subnet_extended = IPy.IP('/'.join([
                        subnet.net().strNormal(),
                        str(self.matrix_nets.keys()[0].prefixlen())
                    ]))
                    subnet_matrix.extend(
                        self._nets_in_range(mnets[-1], subnet_extended, depth))
                lastnet = subnet
                meta = metaIP.MetaIP(subnet)
                matrix_row = [
                    self.Cell(colspan=1,
                              color=None,
                              content='{0} {1}'.format(
                                  Matrix.print_depth(depth),
                                  _netlink(subnet, True))),
                    self.Cell(colspan=self.num_columns,
                              color=self._load_color(meta.usage_percent,
                                                     meta.nettype),
                              content=_supernet_matrixlink(subnet))
                ]
                subnet_matrix.append(matrix_row)
                subnet_matrix.extend(
                    self._write_subnets(net[subnet], depth + 1))
                subnet_matrix.extend(
                    self._remaining_blank_nets(subnet, depth + 1))
        return subnet_matrix