Synnefo

from bitarray import bitarray

from base64 import b64encode, b64decode

import ipaddr

AVAILABLE = True

UNAVAILABLE = False

class PoolManager(object):

    """PoolManager for DB PoolTable models.

    This class implements a persistent Pool mechanism based on rows of

    PoolTable objects. Values that are pooled by this class, are mapped to an

    index on a bitarray, which is the one that is stored on the DB.

    The object that will be used in order to initialize this pool, must have

    two string attributes (available_map and reserved_map) and the size of the

    pool.

    Subclasses of PoolManager must implement value_to_index and index_to_value

    method's in order to denote how the value will be mapped to the index in

    the bitarray.

    Important!!: Updates on a PoolManager object are not reflected to the DB,

    until save() method is called.

    """

    def __init__(self, pool_table):

        self.pool_table = pool_table

        self.pool_size = pool_table.size

        if pool_table.available_map:

            self.available = _bitarray_from_string(pool_table.available_map)

            self.reserved = _bitarray_from_string(pool_table.reserved_map)

        else:

            self.available = self._create_empty_pool(self.pool_size)

            self.reserved = self._create_empty_pool(self.pool_size)

            self.add_padding(self.pool_size)

    def _create_empty_pool(self, size):

        ba = bitarray(size)

        ba.setall(AVAILABLE)

        return ba

    def add_padding(self, pool_size):

        bits = find_padding(pool_size)

        self.available.extend([UNAVAILABLE] * bits)

        self.reserved.extend([UNAVAILABLE] * bits)

    def cut_padding(self, pool_size):

        bits = find_padding(pool_size)

        self.available = self.available[:-bits]

        self.reserved = self.reserved[:-bits]

    @property

    def pool(self):

        return (self.available & self.reserved)

    def get(self, value=None):

        """Get a value from the pool."""

        if value is None:

            if self.empty():

                raise EmptyPool

            # Get the first available index

            index = int(self.pool.index(AVAILABLE))

            assert(index < self.pool_size)

            self._reserve(index)

            return self.index_to_value(index)

        else:

            if not self.contains(value):

                raise InvalidValue("Value %s does not belong to pool." % value)

            if self.is_available(value):

                self.reserve(value)

                return value

            else:

                raise ValueNotAvailable("Value %s is not available" % value)

    def put(self, value, external=False):

        """Return a value to the pool."""

        if value is None:

            raise ValueError

        if not self.contains(value):

            raise InvalidValue("%s does not belong to pool." % value)

        index = self.value_to_index(value)

        self._release(index, external)

    def reserve(self, value, external=False):

        """Reserve a value."""

        if not self.contains(value):

            raise InvalidValue("%s does not belong to pool." % value)

        index = self.value_to_index(value)

        self._reserve(index, external)

        return True

    def save(self, db=True):

        """Save changes to the DB."""

        self.pool_table.available_map = _bitarray_to_string(self.available)

        self.pool_table.reserved_map = _bitarray_to_string(self.reserved)

        if db:

            self.pool_table.save()

    def empty(self):

        """Return True when pool is empty."""

        return not self.pool.any()

    def size(self):

        """Return the size of the bitarray(original size + padding)."""

        return self.pool.length()

    def _reserve(self, index, external=False):

        if external:

            self.reserved[index] = UNAVAILABLE

        else:

            self.available[index] = UNAVAILABLE

    def _release(self, index, external=False):

        if external:

            self.reserved[index] = AVAILABLE

        else:

            self.available[index] = AVAILABLE

    def contains(self, value, index=False):

        if index is False:

            index = self.value_to_index(value)

        return index >= 0 and index < self.pool_size

    def count_available(self):

        return self.pool.count(AVAILABLE)

    def count_unavailable(self):

        return self.pool_size - self.count_available()

    def count_reserved(self):

        return self.reserved[:self.pool_size].count(UNAVAILABLE)

    def count_unreserved(self):

        return self.pool_size - self.count_reserved()

    def is_available(self, value, index=False):

        if not self.contains(value, index=index):

            raise InvalidValue("%s does not belong to pool." % value)

        if not index:

            idx = self.value_to_index(value)

        else:

            idx = value

        return self.pool[idx] == AVAILABLE

    def is_reserved(self, value, index=False):

        if not self.contains(value, index=index):

            raise InvalidValue("%s does not belong to pool." % value)

        if not index:

            idx = self.value_to_index(value)

        else:

            idx = value

        return self.reserved[idx] == UNAVAILABLE

    def to_01(self):

        return self.pool[:self.pool_size].to01()

    def to_map(self):

        return self.to_01().replace("0", "X").replace("1", ".")

    def extend(self, bits_num):

        assert(bits_num >= 0)

        self.resize(bits_num)

    def shrink(self, bits_num):

        assert(bits_num >= 0)

        size = self.pool_size

        tmp = self.available[(size - bits_num): size]

        if tmp.count(UNAVAILABLE):

            raise Exception("Can not shrink. In use")

        self.resize(-bits_num)

    def resize(self, bits_num):

        if bits_num == 0:

            return

        # Cut old padding

        self.cut_padding(self.pool_size)

        # Do the resize

        if bits_num > 0:

            self.available.extend([AVAILABLE] * bits_num)

            self.reserved.extend([AVAILABLE] * bits_num)

        else:

            self.available = self.available[:bits_num]

            self.reserved = self.reserved[:bits_num]

        # Add new padding

        self.pool_size = self.pool_size + bits_num

        self.add_padding(self.pool_size)

        self.pool_table.size = self.pool_size

    def index_to_value(self, index):

        raise NotImplementedError

    def value_to_index(self, value):

        raise NotImplementedError

    def __repr__(self):

        return repr(self.pool_table)

class EmptyPool(Exception):

    pass

class ValueNotAvailable(Exception):

    pass

class InvalidValue(Exception):

    pass

def find_padding(size):

    extra = size % 8

    return extra and (8 - extra) or 0

def bitarray_to_01(bitarray_):

    return bitarray_.to01()

def bitarray_to_map(bitarray_):

    return bitarray_to_01(bitarray_).replace("0", "X").replace("1", ".")

def _bitarray_from_string(bitarray_):

    ba = bitarray()

    ba.frombytes(b64decode(bitarray_))

    return ba

def _bitarray_to_string(bitarray_):

    return b64encode(bitarray_.tobytes())

##

## Custom pools

##

class BridgePool(PoolManager):

    def index_to_value(self, index):

        # Bridge indexes should start from 1

        return self.pool_table.base + str(index + 1)

    def value_to_index(self, value):

        return int(value.replace(self.pool_table.base, "")) - 1

class MacPrefixPool(PoolManager):

    def __init__(self, pool_table):

        do_init = False if pool_table.available_map else True

        super(MacPrefixPool, self).__init__(pool_table)

        if do_init:

            for i in xrange(1, self.pool_size):

                if not self.validate_mac(self.index_to_value(i)):

                    self._reserve(i, external=True)

            # Reserve the first mac-prefix for public-networks

            self._reserve(0, external=True)

    def index_to_value(self, index):

        """Convert index to mac_prefix"""

        base = self.pool_table.base

        a = hex(int(base.replace(":", ""), 16) + index).replace("0x", '')

        mac_prefix = ":".join([a[x:x + 2] for x in xrange(0, len(a), 2)])

        return mac_prefix

    def value_to_index(self, value):

        base = self.pool_table.base

        return int(value.replace(":", ""), 16) - int(base.replace(":", ""), 16)

    @staticmethod

    def validate_mac(value):

        hex_ = value.replace(":", "")

        bin_ = bin(int(hex_, 16))[2:].zfill(8)

        return bin_[6] == '1' and bin_[7] == '0'

class IPPool(PoolManager):

    def __init__(self, pool_table):

        subnet = pool_table.subnet

        self.net = ipaddr.IPNetwork(subnet.cidr)

        if pool_table.available_map:

            initialized_pool = True

        else:

            initialized_pool = False

        super(IPPool, self).__init__(pool_table)

        if not initialized_pool:

            self.check_pool_integrity()

    def check_pool_integtiry(self):

        """Check the integrity of the IP pool

        This check is required only for old IP pools(one IP pool per network

        that contained the whole subnet cidr) that had not been initialized

        before the migration. This checks that the network, gateway and

        broadcast IP addresses are externally reserved, and if not reserves

        them.

        """

        subnet = self.pool_table.subnet

        check_ips = [str(self.net.network), str(self.net.broadcast)]

        if subnet.gateway is not None:

            check_ips.append(subnet.gateway)

        for ip in check_ips:

            if self.contains(ip):

                self.reserve(ip, external=True)

    def value_to_index(self, value):

        addr = ipaddr.IPAddress(value)

        return int(addr) - int(self.net.network) - int(self.offset)

    def index_to_value(self, index):

        return str(self.net[index + int(self.offset)])

    def contains(self, address, index=False):

        if index is False:

            addr = ipaddr.IPAddress(address)

            if addr not in self.net:

                return False

        return super(IPPool, self).contains(address, index=False)

    def return_start(self):

        return str(ipaddr.IPAddress(ipaddr.IPNetwork(self.base).network) +

                   self.offset)

    def return_end(self):

        return str(ipaddr.IPAddress(ipaddr.IPNetwork(self.base).network) +

                   self.offset + self.pool_size - 1)