VMM/EmailAddress: rework EmailAddress class.
# -*- coding: UTF-8 -*-
# Copyright (c) 2007 - 2010, Pascal Volk
# See COPYING for distribution information.
"""Virtual Mail Manager's Domain class to manage e-mail domains."""
from random import choice
from VirtualMailManager import chk_domainname
from VirtualMailManager.constants.ERROR import \
ACCOUNT_AND_ALIAS_PRESENT, ACCOUNT_PRESENT, ALIAS_PRESENT, \
DOMAIN_ALIAS_EXISTS, DOMAIN_EXISTS, NO_SUCH_DOMAIN
from VirtualMailManager.Exceptions import VMMDomainException as VMMDE
from VirtualMailManager.Transport import Transport
MAILDIR_CHARS = '0123456789abcdefghijklmnopqrstuvwxyz'
class Domain(object):
"""Class to manage e-mail domains."""
__slots__ = ('_basedir','_domaindir','_id','_name','_transport','_dbh')
def __init__(self, dbh, domainname, basedir=None, transport=None):
"""Creates a new Domain instance.
Keyword arguments:
dbh -- a pyPgSQL.PgSQL.connection
domainname -- name of the domain (str)
transport -- default vmm.cfg/misc/transport (str)
"""
self._dbh = dbh
self._name = chk_domainname(domainname)
self._basedir = basedir
if transport is not None:
self._transport = Transport(self._dbh, transport=transport)
else:
self._transport = transport
self._id = 0
self._domaindir = None
if not self._exists() and self._isAlias():
raise VMMDE(_(u"The domain “%s” is an alias domain.") % self._name,
DOMAIN_ALIAS_EXISTS)
def _exists(self):
"""Checks if the domain already exists.
If the domain exists _id will be set and returns True, otherwise False
will be returned.
"""
dbc = self._dbh.cursor()
dbc.execute("SELECT gid, tid, domaindir FROM domain_data WHERE gid =\
(SELECT gid FROM domain_name WHERE domainname = %s AND is_primary)",
self._name)
result = dbc.fetchone()
dbc.close()
if result is not None:
self._id, self._domaindir = result[0], result[2]
self._transport = Transport(self._dbh, tid=result[1])
return True
else:
return False
def _isAlias(self):
"""Checks if self._name is known for an alias domain."""
dbc = self._dbh.cursor()
dbc.execute('SELECT is_primary FROM domain_name WHERE domainname = %s',
self._name)
result = dbc.fetchone()
dbc.close()
if result is not None and not result[0]:
return True
else:
return False
def _setID(self):
"""Sets the ID of the domain."""
dbc = self._dbh.cursor()
dbc.execute("SELECT nextval('domain_gid')")
self._id = dbc.fetchone()[0]
dbc.close()
def _prepare(self):
self._setID()
self._domaindir = "%s/%s/%i" % (self._basedir, choice(MAILDIR_CHARS),
self._id)
def _has(self, what):
"""Checks if aliases or accounts are assigned to the domain.
If there are assigned accounts or aliases True will be returned,
otherwise False will be returned.
Keyword arguments:
what -- 'alias' or 'users' (strings)
"""
if what not in ['alias', 'users']:
return False
dbc = self._dbh.cursor()
if what == 'users':
dbc.execute("SELECT count(gid) FROM users WHERE gid=%s", self._id)
else:
dbc.execute("SELECT count(gid) FROM alias WHERE gid=%s", self._id)
count = dbc.fetchone()
dbc.close()
if count[0] > 0:
return True
else:
return False
def _chkDelete(self, delUser, delAlias):
"""Checks dependencies for deletion.
Keyword arguments:
delUser -- ignore available accounts (bool)
delAlias -- ignore available aliases (bool)
"""
if not delUser:
hasUser = self._has('users')
else:
hasUser = False
if not delAlias:
hasAlias = self._has('alias')
else:
hasAlias = False
if hasUser and hasAlias:
raise VMMDE(_(u'There are accounts and aliases.'),
ACCOUNT_AND_ALIAS_PRESENT)
elif hasUser:
raise VMMDE(_(u'There are accounts.'), ACCOUNT_PRESENT)
elif hasAlias:
raise VMMDE(_(u'There are aliases.'), ALIAS_PRESENT)
def save(self):
"""Stores the new domain in the database."""
if self._id < 1:
self._prepare()
dbc = self._dbh.cursor()
dbc.execute("INSERT INTO domain_data (gid, tid, domaindir)\
VALUES (%s, %s, %s)", self._id, self._transport.getID(), self._domaindir)
dbc.execute("INSERT INTO domain_name (domainname, gid, is_primary)\
VALUES (%s, %s, %s)", self._name, self._id, True)
self._dbh.commit()
dbc.close()
else:
raise VMMDE(_(u'The domain “%s” already exists.') % self._name,
DOMAIN_EXISTS)
def delete(self, delUser=False, delAlias=False):
"""Deletes the domain.
Keyword arguments:
delUser -- force deletion of available accounts (bool)
delAlias -- force deletion of available aliases (bool)
"""
if self._id > 0:
self._chkDelete(delUser, delAlias)
dbc = self._dbh.cursor()
for t in ('alias','users','relocated','domain_name','domain_data'):
dbc.execute("DELETE FROM %s WHERE gid = %d" % (t, self._id))
self._dbh.commit()
dbc.close()
else:
raise VMMDE(_(u"The domain “%s” doesn't exist.") % self._name,
NO_SUCH_DOMAIN)
def updateTransport(self, transport, force=False):
"""Sets a new transport for the domain.
Keyword arguments:
transport -- the new transport (str)
force -- True/False force new transport for all accounts (bool)
"""
if self._id > 0:
if transport == self._transport.getTransport():
return
trsp = Transport(self._dbh, transport=transport)
dbc = self._dbh.cursor()
dbc.execute("UPDATE domain_data SET tid = %s WHERE gid = %s",
trsp.getID(), self._id)
if dbc.rowcount > 0:
self._dbh.commit()
if force:
dbc.execute("UPDATE users SET tid = %s WHERE gid = %s",
trsp.getID(), self._id)
if dbc.rowcount > 0:
self._dbh.commit()
dbc.close()
else:
raise VMMDE(_(u"The domain “%s” doesn't exist.") % self._name,
NO_SUCH_DOMAIN)
def getID(self):
"""Returns the ID of the domain."""
return self._id
def getDir(self):
"""Returns the directory of the domain."""
return self._domaindir
def getTransport(self):
"""Returns domain's transport."""
return self._transport.getTransport()
def getTransportID(self):
"""Returns the ID from the domain's transport."""
return self._transport.getID()
def getInfo(self):
"""Returns a dictionary with information about the domain."""
sql = """\
SELECT gid, domainname, transport, domaindir, aliasdomains, accounts,
aliases, relocated
FROM vmm_domain_info
WHERE gid = %i""" % self._id
dbc = self._dbh.cursor()
dbc.execute(sql)
info = dbc.fetchone()
dbc.close()
if info is None:
raise VMMDE(_(u"The domain “%s” doesn't exist.") % self._name,
NO_SUCH_DOMAIN)
else:
keys = ['gid', 'domainname', 'transport', 'domaindir',
'aliasdomains', 'accounts', 'aliases', 'relocated']
return dict(zip(keys, info))
def getAccounts(self):
"""Returns a list with all accounts from the domain."""
dbc = self._dbh.cursor()
dbc.execute("SELECT local_part from users where gid = %s ORDER BY\
local_part", self._id)
users = dbc.fetchall()
dbc.close()
accounts = []
if len(users) > 0:
addr = u'@'.join
_dom = self._name
accounts = [addr((account[0], _dom)) for account in users]
return accounts
def getAliases(self):
"""Returns a list with all aliases from the domain."""
dbc = self._dbh.cursor()
dbc.execute("SELECT DISTINCT address FROM alias WHERE gid = %s\
ORDER BY address", self._id)
addresses = dbc.fetchall()
dbc.close()
aliases = []
if len(addresses) > 0:
addr = u'@'.join
_dom = self._name
aliases = [addr((alias[0], _dom)) for alias in addresses]
return aliases
def getRelocated(self):
"""Returns a list with all addresses from relocated users."""
dbc = self._dbh.cursor()
dbc.execute("SELECT address FROM relocated WHERE gid = %s\
ORDER BY address", self._id)
addresses = dbc.fetchall()
dbc.close()
relocated = []
if len(addresses) > 0:
addr = u'@'.join
_dom = self._name
relocated = [addr((address[0], _dom)) for address in addresses]
return relocated
def getAliaseNames(self):
"""Returns a list with all alias names from the domain."""
dbc = self._dbh.cursor()
dbc.execute("SELECT domainname FROM domain_name WHERE gid = %s\
AND NOT is_primary ORDER BY domainname", self._id)
anames = dbc.fetchall()
dbc.close()
aliasdomains = []
if len(anames) > 0:
aliasdomains = [aname[0] for aname in anames]
return aliasdomains
def search(dbh, pattern=None, like=False):
if pattern is not None and like is False:
pattern = chk_domainname(pattern)
sql = 'SELECT gid, domainname, is_primary FROM domain_name'
if pattern is None:
pass
elif like:
sql += " WHERE domainname LIKE '%s'" % pattern
else:
sql += " WHERE domainname = '%s'" % pattern
sql += ' ORDER BY is_primary DESC, domainname'
dbc = dbh.cursor()
dbc.execute(sql)
doms = dbc.fetchall()
dbc.close()
domdict = {}
order = [dom[0] for dom in doms if dom[2]]
if len(order) == 0:
for dom in doms:
if dom[0] not in order:
order.append(dom[0])
for gid, dom, is_primary in doms:
if is_primary:
domdict[gid] = [dom]
else:
try:
domdict[gid].append(dom)
except KeyError:
domdict[gid] = [None, dom]
del doms
return order, domdict