gramps/src/gen/db/write.py

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#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2000-2008 Donald N. Allingham
#
# 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 2 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, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# $Id: write.py 12672 2009-06-16 15:49:17Z gbritton $
"""
Provide the Berkeley DB (DBDir) database backend for GRAMPS.
This is used since GRAMPS version 3.0
"""
#-------------------------------------------------------------------------
#
# Standard python modules
#
#-------------------------------------------------------------------------
from __future__ import with_statement
import cPickle as pickle
import os
import sys
import time
import locale
import bisect
from types import InstanceType
from gettext import gettext as _
from bsddb import dbshelve, db
import logging
from sys import maxint
#-------------------------------------------------------------------------
#
# Gramps modules
#
#-------------------------------------------------------------------------
from gen.lib import (GenderStats, Person, Family, Event, Place, Source,
MediaObject, Repository, Note)
from gen.db import (GrampsDbRead, BSDDBTxn, GrampsDbTxn, GrampsCursor,
FileVersionError, FileVersionDeclineToUpgrade,
GrampsDbUndoBSDDB as GrampsDbUndo)
from gen.db.dbconst import *
from gen.utils.callback import Callback
from BasicUtils import UpdateCallback
import Errors
from QuestionDialog import QuestionDialog2
_LOG = logging.getLogger(DBLOGNAME)
_MINVERSION = 9
_DBVERSION = 14
IDTRANS = "person_id"
FIDTRANS = "family_id"
PIDTRANS = "place_id"
OIDTRANS = "media_id"
EIDTRANS = "event_id"
RIDTRANS = "repo_id"
NIDTRANS = "note_id"
SIDTRANS = "source_id"
SURNAMES = "surnames"
NAME_GROUP = "name_group"
META = "meta_data"
FAMILY_TBL = "family"
PLACES_TBL = "place"
SOURCES_TBL = "source"
MEDIA_TBL = "media"
EVENTS_TBL = "event"
PERSON_TBL = "person"
REPO_TBL = "repo"
NOTE_TBL = "note"
REF_MAP = "reference_map"
REF_PRI = "primary_map"
REF_REF = "referenced_map"
DBERRS = (db.DBRunRecoveryError, db.DBAccessError,
db.DBPageNotFoundError, db.DBInvalidArgError)
# The following two dictionaries provide fast translation
# between the primary class names and the keys used to reference
# these classes in the database tables. Beware that changing
# these maps or modifying the values of the keys will break
# existing databases.
CLASS_TO_KEY_MAP = {Person.__name__: PERSON_KEY,
Family.__name__: FAMILY_KEY,
Source.__name__: SOURCE_KEY,
Event.__name__: EVENT_KEY,
MediaObject.__name__: MEDIA_KEY,
Place.__name__: PLACE_KEY,
Repository.__name__:REPOSITORY_KEY,
Note.__name__: NOTE_KEY}
KEY_TO_CLASS_MAP = {PERSON_KEY: Person.__name__,
FAMILY_KEY: Family.__name__,
SOURCE_KEY: Source.__name__,
EVENT_KEY: Event.__name__,
MEDIA_KEY: MediaObject.__name__,
PLACE_KEY: Place.__name__,
REPOSITORY_KEY: Repository.__name__,
NOTE_KEY: Note.__name__}
#-------------------------------------------------------------------------
#
# Helper functions
#
#-------------------------------------------------------------------------
def find_surname(key, data):
return str(data[3][5])
def find_idmap(key, data):
return str(data[1])
# Secondary database key lookups for reference_map table
# reference_map data values are of the form:
# ((primary_object_class_name, primary_object_handle),
# (referenced_object_class_name, referenced_object_handle))
def find_primary_handle(key, data):
return str((data)[0][1])
def find_referenced_handle(key, data):
return str((data)[1][1])
#-------------------------------------------------------------------------
#
# GrampsDBDirCursor
#
#-------------------------------------------------------------------------
class GrampsDBDirCursor(GrampsCursor):
def __init__(self, source, txn=None):
self.cursor = source.db.cursor(txn)
self.source = source
#-------------------------------------------------------------------------
#
# GrampsDBDirAssocCursor
#
#-------------------------------------------------------------------------
class GrampsDBDirAssocCursor(GrampsCursor):
def __init__(self, source, txn=None):
self.cursor = source.cursor(txn)
self.source = source
#-------------------------------------------------------------------------
#
# GrampsDBDir
#
#-------------------------------------------------------------------------
class GrampsDBDir(GrampsDbRead, Callback, UpdateCallback):
"""
GRAMPS database write access object.
"""
# Set up dictionary for callback signal handler
# ---------------------------------------------
# 1. Signals for primary objects
__signals__ = dict((obj+'-'+op, signal)
for obj in
['person', 'family', 'event', 'place',
'source', 'media', 'note', 'repository']
for op, signal in zip(
['add', 'update', 'delete', 'rebuild'],
[(list,), (list,), (list,), None]
)
)
# 2. Signals for long operations
__signals__.update(('long-op-'+op, signal) for op, signal in zip(
['start', 'heartbeat', 'end'],
[(object,), None, None]
))
# 3. Special signal for change in home person
__signals__['home-person-changed'] = None
def __init__(self):
"""Create a new GrampsDB."""
self.txn = None
GrampsDbRead.__init__(self)
Callback.__init__(self)
self.secondary_connected = False
self.has_changed = False
def __open_db(self, file_name, table_name, dbtype=db.DB_HASH, flags=0):
dbmap = db.DB(self.env)
dbmap.set_pagesize(DBPAGE)
dbmap.set_flags(flags)
fname = os.path.join(file_name, table_name + DBEXT)
if self.readonly:
dbmap.open(fname, table_name, dbtype, DBFLAGS_R)
else:
dbmap.open(fname, table_name, dbtype, DBFLAGS_O, DBMODE)
return dbmap
def __open_shelf(self, file_name, table_name, dbtype=db.DB_HASH):
dbmap = dbshelve.DBShelf(self.env)
dbmap.db.set_pagesize(DBPAGE)
fname = os.path.join(file_name, table_name + DBEXT)
if self.readonly:
dbmap.open(fname, table_name, dbtype, DBFLAGS_R)
else:
dbmap.open(fname, table_name, dbtype, DBFLAGS_O, DBMODE)
return dbmap
def __all_handles(self, table):
return table.keys(self.txn)
def __log_error(self):
mypath = os.path.join(self.get_save_path(),DBRECOVFN)
ofile = open(mypath, "w")
ofile.close()
try:
clear_lock_file(self.get_save_path())
except:
pass
_log_error = __log_error
# cursors for lookups in the reference_map for back reference
# lookups. The reference_map has three indexes:
# the main index: a tuple of (primary_handle, referenced_handle)
# the primary_handle index: the primary_handle
# the referenced_handle index: the referenced_handle
# the main index is unique, the others allow duplicate entries.
def get_reference_map_cursor(self):
"""
Returns a reference to a cursor over the reference map
"""
try:
return GrampsDBDirAssocCursor(self.reference_map, self.txn)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def get_reference_map_primary_cursor(self):
"""
Returns a reference to a cursor over the reference map primary map
"""
try:
return GrampsDBDirAssocCursor(self.reference_map_primary_map,
self.txn)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def get_reference_map_referenced_cursor(self):
"""
Returns a reference to a cursor over the reference map referenced map
"""
try:
return GrampsDBDirAssocCursor(self.reference_map_referenced_map,
self.txn)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
# These are overriding the GrampsDbRead's methods of saving metadata
# because we now have txn-capable metadata table
def set_default_person_handle(self, handle):
try:
return self.__set_default_person_handle(handle)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __set_default_person_handle(self, handle):
"""Set the default Person to the passed instance."""
if not self.readonly:
# Start transaction
with BSDDBTxn(self.env, self.metadata) as txn:
txn.put('default', str(handle))
self.emit('home-person-changed')
def get_default_person(self):
try:
return self.__get_default_person()
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __get_default_person(self):
"""Return the default Person of the database."""
person = self.get_person_from_handle(self.get_default_handle())
if person:
return person
elif (self.metadata) and (not self.readonly):
# Start transaction
with BSDDBTxn(self.env, self.metadata) as txn:
txn.put('default', None)
return None
def set_mediapath(self, path):
"""Set the default media path for database, path should be utf-8."""
if self.metadata and not self.readonly:
# Start transaction
with BSDDBTxn(self.env, self.metadata) as txn:
txn.put('mediapath', path)
def set_column_order(self, col_list, name):
if self.metadata and not self.readonly:
# Start transaction
with BSDDBTxn(self.env, self.metadata) as txn:
txn.put(name, col_list)
def version_supported(self):
try:
dbversion = self.metadata.get('version', default=0)
return ((dbversion <= _DBVERSION) and (dbversion >= _MINVERSION))
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def need_upgrade(self):
try:
dbversion = self.metadata.get('version', default=0)
return not self.readonly and dbversion < _DBVERSION
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def load(self, name, callback, mode=DBMODE_W):
try:
if self.__check_readonly(name):
mode = DBMODE_R
else:
write_lock_file(name)
return self.__load(name, callback, mode)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __check_readonly(self, name):
"""
Return True if we don't have read/write access to the database,
otherwise return False (that is, we DO have read/write access)
"""
# See if we write to the target directory at all?
if not os.access(name, os.W_OK):
return True
# See if we lack write access to any files in the directory
for base in [FAMILY_TBL, PLACES_TBL, SOURCES_TBL, MEDIA_TBL,
EVENTS_TBL, PERSON_TBL, REPO_TBL, NOTE_TBL, REF_MAP, META]:
path = os.path.join(name, base + DBEXT)
if os.path.isfile(path) and not os.access(path, os.W_OK):
return True
# All tests passed. Inform caller that we are NOT read only
return False
def __load(self, name, callback, mode=DBMODE_W):
if self.db_is_open:
self.close()
self.readonly = mode == DBMODE_R
#super(GrampsDbRead, self).load(name, callback, mode)
if callback:
callback(12)
# Save full path and base file name
self.full_name = os.path.abspath(name)
self.path = self.full_name
self.brief_name = os.path.basename(name)
# Set up database environment
self.env = db.DBEnv()
self.env.set_cachesize(0, DBCACHE)
# These env settings are only needed for Txn environment
self.env.set_lk_max_locks(DBLOCKS)
self.env.set_lk_max_objects(DBOBJECTS)
self.set_auto_remove()
# The DB_PRIVATE flag must go if we ever move to multi-user setup
env_flags = db.DB_CREATE | db.DB_PRIVATE |\
db.DB_INIT_MPOOL | db.DB_INIT_LOCK |\
db.DB_INIT_LOG | db.DB_INIT_TXN | db.DB_THREAD
# As opposed to before, we always try recovery on databases
env_flags |= db.DB_RECOVER
# Environment name is now based on the filename
env_name = name
self.env.open(env_name, env_flags)
self.env.txn_checkpoint()
if callback:
callback(25)
# Process metadata
self.metadata = self.__open_shelf(self.full_name, META)
# If we cannot work with this DB version,
# it makes no sense to go further
if not self.version_supported():
self.__close_early()
self.__load_metadata()
gstats = self.metadata.get('gender_stats', default=None)
# Ensure version info in metadata
if not self.readonly:
# Start transaction
with BSDDBTxn(self.env, self.metadata) as txn:
if gstats is None:
# New database. Set up the current version.
#self.metadata.put('version', _DBVERSION, txn=the_txn)
txn.put('version', _DBVERSION)
elif 'version' not in self.metadata:
# Not new database, but the version is missing.
# Use 0, but it is likely to fail anyway.
txn.put('version', 0)
self.genderStats = GenderStats(gstats)
# Open main tables in gramps database
db_maps = [
("family_map", FAMILY_TBL, db.DB_HASH),
("place_map", PLACES_TBL, db.DB_HASH),
("source_map", SOURCES_TBL, db.DB_HASH),
("media_map", MEDIA_TBL, db.DB_HASH),
("event_map", EVENTS_TBL, db.DB_HASH),
("person_map", PERSON_TBL, db.DB_HASH),
("repository_map", REPO_TBL, db.DB_HASH),
("note_map", NOTE_TBL, db.DB_HASH),
("reference_map", REF_MAP, db.DB_BTREE),
]
dbflags = DBFLAGS_R if self.readonly else DBFLAGS_O
for (dbmap, dbname, dbtype) in db_maps:
_db = self.__open_shelf(self.full_name, dbname, dbtype)
setattr(self, dbmap, _db)
if callback:
callback(37)
# Open name grouping database
self.name_group = self.__open_db(self.full_name, NAME_GROUP,
db.DB_HASH, db.DB_DUP)
# Here we take care of any changes in the tables related to new code.
# If secondary indices change, then they should removed
# or rebuilt by upgrade as well. In any case, the
# self.secondary_connected flag should be set accordingly.
if self.need_upgrade():
if QuestionDialog2(_("Need to upgrade database!"),
_("You cannot open this database "
"without upgrading it.\n"
"If you upgrade then you won't be able "
"to use previous versions of GRAMPS.\n"
"You might want to make a backup copy "
"first."),
_("Upgrade now"),
_("Cancel")).run():
self.gramps_upgrade(callback)
else:
raise FileVersionDeclineToUpgrade()
if callback:
callback(50)
# Connect secondary indices
if not self.secondary_connected:
self.__connect_secondary()
if callback:
callback(75)
# Open undo database
self.__open_undodb()
self.db_is_open = True
if callback:
callback(87)
self.abort_possible = True
return 1
def __open_undodb(self):
"""
Open the undo database
"""
if not self.readonly:
self.undolog = os.path.join(self.full_name, DBUNDOFN)
self.undodb = GrampsDbUndo(self, self.undolog)
self.undodb.open()
def __close_undodb(self):
if not self.readonly:
self.undodb.close()
def load_from(self, other_database, filename, callback):
try:
self.load(filename, callback)
from gen.utils import db_copy
db_copy(other_database, self, callback)
return 1
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __load_metadata(self):
# name display formats
self.name_formats = self.metadata.get('name_formats', default=[])
# upgrade formats if they were saved in the old way
for format_ix in range(len(self.name_formats)):
format = self.name_formats[format_ix]
if len(format) == 3:
format = format + (True,)
self.name_formats[format_ix] = format
# database owner
try:
owner_data = self.metadata.get('researcher')
if owner_data:
self.owner.unserialize(owner_data)
except ImportError: #handle problems with pre-alpha 3.0
pass
# bookmarks
meta = lambda meta: self.metadata.get(meta, default=[])
self.bookmarks.set(meta('bookmarks'))
self.family_bookmarks.set(meta('family_bookmarks'))
self.event_bookmarks.set(meta('event_bookmarks'))
self.source_bookmarks.set(meta('source_bookmarks'))
self.repo_bookmarks.set(meta('repo_bookmarks'))
self.media_bookmarks.set(meta('media_bookmarks'))
self.place_bookmarks.set(meta('place_bookmarks'))
self.note_bookmarks.set(meta('note_bookmarks'))
# Custom type values
self.family_event_names = set(meta('fevent_names'))
self.individual_event_names = set(meta('pevent_names'))
self.family_attributes = set(meta('fattr_names'))
self.individual_attributes = set(meta('pattr_names'))
self.marker_names = set(meta('marker_names'))
self.child_ref_types = set(meta('child_refs'))
self.family_rel_types = set(meta('family_rels'))
self.event_role_names = set(meta('event_roles'))
self.name_types = set(meta('name_types'))
self.repository_types = set(meta('repo_types'))
self.note_types = set(meta('note_types'))
self.source_media_types = set(meta('sm_types'))
self.url_types = set(meta('url_types'))
self.media_attributes = set(meta('mattr_names'))
# surname list
self.surname_list = meta('surname_list')
def __connect_secondary(self):
"""
Connect or creates secondary index tables.
It assumes that the tables either exist and are in the right
format or do not exist (in which case they get created).
It is the responsibility of upgrade code to either create
or remove invalid secondary index tables.
"""
# index tables used just for speeding up searches
self.surnames = self.__open_db(self.full_name, SURNAMES, db.DB_BTREE,
db.DB_DUP | db.DB_DUPSORT)
db_maps = [
("id_trans", IDTRANS, db.DB_HASH, 0),
("fid_trans", FIDTRANS, db.DB_HASH, 0),
("eid_trans", EIDTRANS, db.DB_HASH, 0),
("pid_trans", PIDTRANS, db.DB_HASH, 0),
("sid_trans", SIDTRANS, db.DB_HASH, 0),
("oid_trans", OIDTRANS, db.DB_HASH, 0),
("rid_trans", RIDTRANS, db.DB_HASH, 0),
("nid_trans", NIDTRANS, db.DB_HASH, 0),
("reference_map_primary_map", REF_PRI, db.DB_BTREE, 0),
("reference_map_referenced_map", REF_REF, db.DB_BTREE, db.DB_DUPSORT),
]
for (dbmap, dbname, dbtype, dbflags) in db_maps:
_db = self.__open_db(self.full_name, dbname, dbtype,
db.DB_DUP | dbflags)
setattr(self, dbmap, _db)
if not self.readonly:
assoc = [
(self.person_map, self.surnames, find_surname),
(self.person_map, self.id_trans, find_idmap),
(self.family_map, self.fid_trans, find_idmap),
(self.event_map, self.eid_trans, find_idmap),
(self.place_map, self.pid_trans, find_idmap),
(self.source_map, self.sid_trans, find_idmap),
(self.media_map, self.oid_trans, find_idmap),
(self.repository_map, self.rid_trans, find_idmap),
(self.note_map, self.nid_trans, find_idmap),
(self.reference_map, self.reference_map_primary_map,
find_primary_handle),
(self.reference_map, self.reference_map_referenced_map,
find_referenced_handle),
]
flags = DBFLAGS_R if self.readonly else DBFLAGS_O
for (dbmap, a_map, a_find) in assoc:
dbmap.associate(a_map, a_find, flags=flags)
self.secondary_connected = True
self.smap_index = len(self.source_map)
self.emap_index = len(self.event_map)
self.pmap_index = len(self.person_map)
self.fmap_index = len(self.family_map)
self.lmap_index = len(self.place_map)
self.omap_index = len(self.media_map)
self.rmap_index = len(self.repository_map)
self.nmap_index = len(self.note_map)
def rebuild_secondary(self, callback=None):
try:
self.__rebuild_secondary(callback)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __rebuild_secondary(self, callback=None):
if self.readonly:
return
table_flags = DBFLAGS_O
# remove existing secondary indices
items = [
( self.id_trans, IDTRANS ),
( self.surnames, SURNAMES ),
( self.fid_trans, FIDTRANS ),
( self.pid_trans, PIDTRANS ),
( self.oid_trans, OIDTRANS ),
( self.eid_trans, EIDTRANS ),
( self.rid_trans, RIDTRANS ),
( self.nid_trans, NIDTRANS ),
( self.reference_map_primary_map, REF_PRI),
( self.reference_map_referenced_map, REF_REF),
]
index = 1
for (database, name) in items:
database.close()
_db = db.DB(self.env)
_db.remove(_mkname(self.full_name, name), name)
if callback:
callback(index)
index += 1
if callback:
callback(11)
# Set flag saying that we have removed secondary indices
# and then call the creating routine
self.secondary_connected = False
self.__connect_secondary()
if callback:
callback(12)
def find_backlink_handles(self, handle, include_classes=None):
try:
return self.__find_backlink_handles(handle, include_classes)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __find_backlink_handles(self, handle, include_classes=None):
"""
Find all objects that hold a reference to the object handle.
Returns an interator over a list of (class_name, handle) tuples.
:param handle: handle of the object to search for.
:type handle: database handle
:param include_classes: list of class names to include in the results.
Default: None means include all classes.
:type include_classes: list of class names
Note that this is a generator function, it returns a iterator for
use in loops. If you want a list of the results use::
result_list = list(find_backlink_handles(handle))
"""
# Use the secondary index to locate all the reference_map entries
# that include a reference to the object we are looking for.
referenced_cur = self.get_reference_map_referenced_cursor()
try:
ret = referenced_cur.set(handle)
except:
ret = None
while (ret is not None):
(key, data) = ret
# data values are of the form:
# ((primary_object_class_name, primary_object_handle),
# (referenced_object_class_name, referenced_object_handle))
# so we need the first tuple to give us the type to compare
### FIXME: this is a dirty hack that works without no
### sensible explanation. For some reason, for a readonly
### database, secondary index returns a primary table key
### corresponding to the data, not the data.
if self.readonly:
data = self.reference_map.get(data)
else:
data = pickle.loads(data)
key, handle = data[0][:2]
name = KEY_TO_CLASS_MAP[key]
assert name == KEY_TO_CLASS_MAP[data[0][0]]
assert handle == data[0][1]
if (include_classes is None or
name in include_classes):
yield (name, handle)
ret = referenced_cur.next_dup()
referenced_cur.close()
def delete_primary_from_reference_map(self, handle, transaction, txn=None):
"""
Remove all references to the primary object from the reference_map.
"""
primary_cur = self.get_reference_map_primary_cursor()
try:
ret = primary_cur.set(handle)
except:
ret = None
remove_list = set()
while (ret is not None):
(key, data) = ret
# data values are of the form:
# ((primary_object_class_name, primary_object_handle),
# (referenced_object_class_name, referenced_object_handle))
# so we need the second tuple give us a reference that we can
# combine with the primary_handle to get the main key.
main_key = (handle, pickle.loads(data)[1][1])
# The trick is not to remove while inside the cursor,
# but collect them all and remove after the cursor is closed
remove_list.add(main_key)
ret = primary_cur.next_dup()
primary_cur.close()
# Now that the cursor is closed, we can remove things
for main_key in remove_list:
self.__remove_reference(main_key, transaction, txn)
def update_reference_map(self, obj, transaction, txn=None):
"""
If txn is given, then changes are written right away using txn.
"""
# Add references to the reference_map for all primary object referenced
# from the primary object 'obj' or any of its secondary objects.
handle = obj.handle
update = self.reference_map_primary_map.has_key(str(handle))
if update:
# First thing to do is get hold of all rows in the reference_map
# table that hold a reference from this primary obj. This means
# finding all the rows that have this handle somewhere in the
# list of (class_name, handle) pairs.
# The primary_map sec index allows us to look this up quickly.
existing_references = set()
primary_cur = self.get_reference_map_primary_cursor()
try:
ret = primary_cur.set(handle)
except:
ret = None
while (ret is not None):
(key, data) = ret
# data values are of the form:
# ((primary_object_class_name, primary_object_handle),
# (referenced_object_class_name, referenced_object_handle))
# so we need the second tuple give us a reference that we can
# compare with what is returned from
# get_referenced_handles_recursively
# secondary DBs are not DBShelf's, so we need to do pickling
# and unpicking ourselves here
existing_reference = pickle.loads(data)[1]
existing_references.add(
(KEY_TO_CLASS_MAP[existing_reference[0]],
existing_reference[1]))
ret = primary_cur.next_dup()
primary_cur.close()
# Once we have the list of rows that already have a reference
# we need to compare it with the list of objects that are
# still references from the primary object.
current_references = set(obj.get_referenced_handles_recursively())
no_longer_required_references = existing_references.difference(
current_references)
new_references = current_references.difference(existing_references)
else:
# No existing refs are found:
# all we have is new, nothing to remove
no_longer_required_references = set()
new_references = set(obj.get_referenced_handles_recursively())
# handle addition of new references
for (ref_class_name, ref_handle) in new_references:
data = ((CLASS_TO_KEY_MAP[obj.__class__.__name__], handle),
(CLASS_TO_KEY_MAP[ref_class_name], ref_handle),)
self.__add_reference((handle, ref_handle), data, transaction, txn)
# handle deletion of old references
for (ref_class_name, ref_handle) in no_longer_required_references:
try:
self.__remove_reference((handle, ref_handle), transaction, txn)
except:
# ignore missing old reference
pass
def __remove_reference(self, key, transaction, txn=None):
"""
Remove the reference specified by the key, preserving the change in
the passed transaction.
"""
if not self.readonly:
if transaction.batch:
self.reference_map.delete(str(key), txn=txn)
else:
old_data = self.reference_map.get(str(key), txn=self.txn)
transaction.add(REFERENCE_KEY, TXNDEL, str(key), old_data, None)
#transaction.reference_del.append(str(key))
def __add_reference(self, key, data, transaction, txn=None):
"""
Add the reference specified by the key and the data, preserving the
change in the passed transaction.
"""
if self.readonly or not key:
return
if transaction.batch:
self.reference_map.put(str(key), data, txn=txn)
else:
transaction.add(REFERENCE_KEY, TXNADD, str(key), None, data)
#transaction.reference_add.append((str(key), data))
def reindex_reference_map(self, callback):
try:
self.__reindex_reference_map(callback)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __reindex_reference_map(self, callback):
"""
Reindex all primary records in the database.
This will be a slow process for large databases.
"""
# First, remove the reference map and related tables
db_maps = [
("reference_map_referenced_map", REF_REF),
("reference_map_primary_map", REF_PRI),
("reference_map", REF_MAP),
]
for index, (dbmap, dbname) in enumerate(db_maps):
getattr(self, dbmap).close()
_db = db.DB(self.env)
_db.remove(_mkname(self.full_name, dbname), dbname)
callback(index+1)
# Open reference_map and primary map
self.reference_map = self.__open_shelf(self.full_name, REF_MAP,
dbtype=db.DB_BTREE)
self.reference_map_primary_map = self.__open_db(self.full_name,
REF_PRI, db.DB_BTREE, db.DB_DUP)
self.reference_map.associate(self.reference_map_primary_map,
find_primary_handle, DBFLAGS_O)
# Make a tuple of the functions and classes that we need for
# each of the primary object tables.
transaction = self.transaction_begin(batch=True, no_magic=True)
callback(4)
primary_table = (
(self.get_person_cursor, Person),
(self.get_family_cursor, Family),
(self.get_event_cursor, Event),
(self.get_place_cursor, Place),
(self.get_source_cursor, Source),
(self.get_media_cursor, MediaObject),
(self.get_repository_cursor, Repository),
(self.get_note_cursor, Note),
)
# Now we use the functions and classes defined above
# to loop through each of the primary object tables.
for cursor_func, class_func in primary_table:
with cursor_func() as cursor:
for found_handle, val in cursor:
obj = class_func()
obj.unserialize(val)
with BSDDBTxn(self.env) as txn:
self.update_reference_map(obj, transaction, txn.txn)
callback(5)
self.transaction_commit(transaction, _("Rebuild reference map"))
self.reference_map_referenced_map = self.__open_db(self.full_name,
REF_REF, db.DB_BTREE, db.DB_DUP|db.DB_DUPSORT)
flags = DBFLAGS_R if self.readonly else DBFLAGS_O
self.reference_map.associate(self.reference_map_referenced_map,
find_referenced_handle, flags=flags)
callback(6)
def __close_metadata(self):
if not self.readonly:
# Start transaction
with BSDDBTxn(self.env, self.metadata) as txn:
# name display formats
txn.put('name_formats', self.name_formats)
# database owner
owner_data = self.owner.serialize()
txn.put('researcher', owner_data)
# bookmarks
txn.put('bookmarks', self.bookmarks.get())
txn.put('family_bookmarks', self.family_bookmarks.get())
txn.put('event_bookmarks', self.event_bookmarks.get())
txn.put('source_bookmarks', self.source_bookmarks.get())
txn.put('place_bookmarks', self.place_bookmarks.get())
txn.put('repo_bookmarks', self.repo_bookmarks.get())
txn.put('media_bookmarks', self.media_bookmarks.get())
txn.put('note_bookmarks', self.note_bookmarks.get())
# gender stats
txn.put('gender_stats', self.genderStats.save_stats())
# Custom type values
txn.put('fevent_names', list(self.family_event_names))
txn.put('pevent_names', list(self.individual_event_names))
txn.put('fattr_names', list(self.family_attributes))
txn.put('pattr_names', list(self.individual_attributes))
txn.put('marker_names', list(self.marker_names))
txn.put('child_refs', list(self.child_ref_types))
txn.put('family_rels', list(self.family_rel_types))
txn.put('event_roles', list(self.event_role_names))
txn.put('name_types', list(self.name_types))
txn.put('repo_types', list(self.repository_types))
txn.put('note_types', list(self.note_types))
txn.put('sm_types', list(self.source_media_types))
txn.put('url_types', list(self.url_types))
txn.put('mattr_names', list(self.media_attributes))
# name display formats
txn.put('surname_list', self.surname_list)
self.metadata.close()
def __close_early(self):
"""
Bail out if the incompatible version is discovered:
* close cleanly to not damage data/env
* raise exception
"""
self.metadata.close()
self.env.close()
self.metadata = None
self.env = None
self.db_is_open = False
raise FileVersionError(
_("The database version is not supported by this "
"version of GRAMPS.\nPlease upgrade to the "
"corresponding version or use XML for porting "
"data between different database versions."))
def close(self):
try:
self.__close()
clear_lock_file(self.get_save_path())
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
except IOError:
pass
def __close(self):
if not self.db_is_open:
return
self.env.txn_checkpoint()
self.__close_metadata()
self.name_group.close()
self.surnames.close()
self.id_trans.close()
self.fid_trans.close()
self.eid_trans.close()
self.rid_trans.close()
self.nid_trans.close()
self.oid_trans.close()
self.sid_trans.close()
self.pid_trans.close()
self.reference_map_primary_map.close()
self.reference_map_referenced_map.close()
self.reference_map.close()
self.secondary_connected = False
# primary databases must be closed after secondary indexes, or
# we run into problems with any active cursors.
self.person_map.close()
self.family_map.close()
self.repository_map.close()
self.note_map.close()
self.place_map.close()
self.source_map.close()
self.media_map.close()
self.event_map.close()
self.env.close()
try:
self.__close_undodb()
except db.DBNoSuchFileError:
pass
self.person_map = None
self.family_map = None
self.repository_map = None
self.note_map = None
self.place_map = None
self.source_map = None
self.media_map = None
self.event_map = None
self.surnames = None
self.name_group = None
self.env = None
self.metadata = None
self.db_is_open = False
def create_id(self):
return "%08x%08x" % ( int(time.time()*10000),
self.rand.randint(0, maxint))
def __add_object(self, obj, transaction, find_next_func, commit_func):
if find_next_func and not obj.gramps_id:
obj.gramps_id = find_next_func()
if not obj.handle:
obj.handle = self.create_id()
commit_func(obj, transaction)
return obj.handle
def add_person(self, person, transaction, set_gid=True):
"""
Add a Person to the database, assigning internal IDs if they have
not already been defined.
If not set_gid, then gramps_id is not set.
"""
handle = self.__add_object(person, transaction,
self.find_next_person_gramps_id if set_gid else None,
self.commit_person)
self.genderStats.count_person(person)
return handle
def add_family(self, family, transaction, set_gid=True):
"""
Add a Family to the database, assigning internal IDs if they have
not already been defined.
If not set_gid, then gramps_id is not set.
"""
return self.__add_object(family, transaction,
self.find_next_family_gramps_id if set_gid else None,
self.commit_family)
def add_source(self, source, transaction, set_gid=True):
"""
Add a Source to the database, assigning internal IDs if they have
not already been defined.
If not set_gid, then gramps_id is not set.
"""
return self.__add_object(source, transaction,
self.find_next_source_gramps_id if set_gid else None,
self.commit_source)
def add_event(self, event, transaction, set_gid=True):
"""
Add an Event to the database, assigning internal IDs if they have
not already been defined.
If not set_gid, then gramps_id is not set.
"""
return self.__add_object(event, transaction,
self.find_next_event_gramps_id if set_gid else None,
self.commit_event)
def add_person_event(self, event, transaction):
"""
Add an Event to the database, assigning internal IDs if they have
not already been defined.
"""
if event.type.is_custom():
self.individual_event_names.add(str(event.type))
return self.add_event(event, transaction)
def add_family_event(self, event, transaction):
"""
Add an Event to the database, assigning internal IDs if they have
not already been defined.
"""
if event.type.is_custom():
self.family_event_names.add(str(event.type))
return self.add_event(event, transaction)
def add_place(self, place, transaction, set_gid=True):
"""
Add a Place to the database, assigning internal IDs if they have
not already been defined.
If not set_gid, then gramps_id is not set.
"""
return self.__add_object(place, transaction,
self.find_next_place_gramps_id if set_gid else None,
self.commit_place)
def add_object(self, obj, transaction, set_gid=True):
"""
Add a MediaObject to the database, assigning internal IDs if they have
not already been defined.
If not set_gid, then gramps_id is not set.
"""
return self.__add_object(obj, transaction,
self.find_next_object_gramps_id if set_gid else None,
self.commit_media_object)
def add_repository(self, obj, transaction, set_gid=True):
"""
Add a Repository to the database, assigning internal IDs if they have
not already been defined.
If not set_gid, then gramps_id is not set.
"""
return self.__add_object(obj, transaction,
self.find_next_repository_gramps_id if set_gid else None,
self.commit_repository)
def add_note(self, obj, transaction, set_gid=True):
"""
Add a Note to the database, assigning internal IDs if they have
not already been defined.
If not set_gid, then gramps_id is not set.
"""
return self.__add_object(obj, transaction,
self.find_next_note_gramps_id if set_gid else None,
self.commit_note)
def __do_remove(self, handle, transaction, data_map, key):
if self.readonly or not handle:
return
handle = str(handle)
if transaction.batch:
with BSDDBTxn(self.env, data_map) as txn:
self.delete_primary_from_reference_map(handle, transaction,
txn=txn.txn)
txn.delete(handle)
else:
self.delete_primary_from_reference_map(handle, transaction)
old_data = data_map.get(handle, txn=self.txn)
transaction.add(key, TXNDEL, handle, old_data, None)
#del_list.append(handle)
def remove_person(self, handle, transaction):
"""
Remove the Person specified by the database handle from the database,
preserving the change in the passed transaction.
"""
if self.readonly or not handle:
return
self.delete_primary_from_reference_map(handle, transaction)
person = self.get_person_from_handle(handle)
self.genderStats.uncount_person (person)
self.remove_from_surname_list(person)
if transaction.batch:
with BSDDBTxn(self.env, self.person_map) as txn:
txn.delete(handle)
else:
transaction.add(PERSON_KEY, TXNDEL, handle, person.serialize(), None)
#transaction.person_del.append(str(handle))
def remove_source(self, handle, transaction):
"""
Remove the Source specified by the database handle from the
database, preserving the change in the passed transaction.
"""
self.__do_remove(handle, transaction, self.source_map,
SOURCE_KEY)
def remove_event(self, handle, transaction):
"""
Remove the Event specified by the database handle from the
database, preserving the change in the passed transaction.
"""
self.__do_remove(handle, transaction, self.event_map,
EVENT_KEY)
def remove_object(self, handle, transaction):
"""
Remove the MediaObjectPerson specified by the database handle from the
database, preserving the change in the passed transaction.
"""
self.__do_remove(handle, transaction, self.media_map,
MEDIA_KEY)
def remove_place(self, handle, transaction):
"""
Remove the Place specified by the database handle from the
database, preserving the change in the passed transaction.
"""
self.__do_remove(handle, transaction, self.place_map,
PLACE_KEY)
def remove_family(self, handle, transaction):
"""
Remove the Family specified by the database handle from the
database, preserving the change in the passed transaction.
"""
self.__do_remove(handle, transaction, self.family_map,
FAMILY_KEY)
def remove_repository(self, handle, transaction):
"""
Remove the Repository specified by the database handle from the
database, preserving the change in the passed transaction.
"""
self.__do_remove(handle, transaction, self.repository_map,
REPOSITORY_KEY)
def remove_note(self, handle, transaction):
"""
Remove the Note specified by the database handle from the
database, preserving the change in the passed transaction.
"""
self.__do_remove(handle, transaction, self.note_map,
NOTE_KEY)
def __set_name_group_mapping(self, name, group):
if not self.readonly:
# Start transaction
with BSDDBTxn(self.env, self.name_group) as txn:
name = str(name)
data = txn.get(name)
if data is not None:
txn.delete(name)
if group is not None:
txn.put(name, group)
self.emit('person-rebuild')
def sort_surname_list(self):
self.surname_list.sort(key=locale.strxfrm)
def build_surname_list(self):
try:
self.surname_list = sorted(map(unicode, set(self.surnames.keys())), key=locale.strxfrm)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def add_to_surname_list(self, person, batch_transaction):
if batch_transaction:
return
name = unicode(person.get_primary_name().get_surname())
i = bisect.bisect(self.surname_list, name)
if 0 < i < len(self.surname_list):
if self.surname_list[i-1] != name:
self.surname_list.insert(i, name)
else:
self.surname_list.insert(i, name)
def remove_from_surname_list(self, person):
"""
Check whether there are persons with the same surname left in
the database.
If not then we need to remove the name from the list.
The function must be overridden in the derived class.
"""
name = str(person.get_primary_name().get_surname())
try:
cursor = self.surnames.cursor(txn=self.txn)
cursor.set(name)
if cursor.count() == 1:
i = bisect.bisect(self.surname_list, name)
assert 0 <= i-1 < len(self.surname_list)
del self.surname_list[i-1]
except ValueError:
pass
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
finally:
cursor.close()
def commit_base(self, obj, data_map, key, transaction, change_time):
"""
Commit the specified object to the database, storing the changes as
part of the transaction.
"""
if self.readonly or not obj or not obj.handle:
return
obj.change = int(change_time if change_time else time.time())
handle = str(obj.handle)
# If this is a batch operation, just write the data
if transaction.batch:
with BSDDBTxn(self.env, data_map) as txn:
self.update_reference_map(obj, transaction, txn=txn.txn)
txn.put(handle, obj.serialize())
old_data = None
# Otherwise, this is a non-batch operation, so queue the transaction
else:
self.update_reference_map(obj, transaction)
old_data = data_map.get(handle, txn=self.txn)
new_data = obj.serialize()
op = TXNUPD if old_data else TXNADD
transaction.add(key, op, handle, old_data, new_data)
return old_data
def commit_person(self, person, transaction, change_time=None):
"""
Commit the specified Person to the database, storing the changes as
part of the transaction.
"""
old_data = self.commit_base(
person, self.person_map, PERSON_KEY, transaction, change_time)
if old_data:
old_person = Person(old_data)
# Update gender statistics if necessary
if (old_person.gender != person.gender or
old_person.primary_name.first_name !=
person.primary_name.first_name):
self.genderStats.uncount_person(old_person)
self.genderStats.count_person(person)
# Update surname list if necessary
if (old_person.primary_name.surname !=person.primary_name.surname):
self.remove_from_surname_list(old_person)
self.add_to_surname_list(person, transaction.batch)
else:
self.genderStats.count_person(person)
self.add_to_surname_list(person, transaction.batch)
self.individual_attributes.update(
[str(attr.type) for attr in person.attribute_list
if attr.type.is_custom() and str(attr.type)])
if person.marker.is_custom():
self.marker_names.add(str(person.marker))
self.event_role_names.update([str(eref.role)
for eref in person.event_ref_list
if eref.role.is_custom()])
self.name_types.update([str(name.type)
for name in ([person.primary_name]
+ person.alternate_names)
if name.type.is_custom()])
self.url_types.update([str(url.type) for url in person.urls
if url.type.is_custom()])
attr_list = []
for mref in person.media_list:
attr_list += [str(attr.type) for attr in mref.attribute_list
if attr.type.is_custom() and str(attr.type)]
self.media_attributes.update(attr_list)
def commit_media_object(self, obj, transaction, change_time=None):
"""
Commit the specified MediaObject to the database, storing the changes
as part of the transaction.
"""
self.commit_base(obj, self.media_map, MEDIA_KEY,
transaction, change_time)
self.media_attributes.update(
[str(attr.type) for attr in obj.attribute_list
if attr.type.is_custom() and str(attr.type)])
def commit_source(self, source, transaction, change_time=None):
"""
Commit the specified Source to the database, storing the changes as
part of the transaction.
"""
self.commit_base(source, self.source_map, SOURCE_KEY,
transaction, change_time)
self.source_media_types.update(
[str(ref.media_type) for ref in source.reporef_list
if ref.media_type.is_custom()])
attr_list = []
for mref in source.media_list:
attr_list += [str(attr.type) for attr in mref.attribute_list
if attr.type.is_custom() and str(attr.type)]
self.media_attributes.update(attr_list)
def commit_place(self, place, transaction, change_time=None):
"""
Commit the specified Place to the database, storing the changes as
part of the transaction.
"""
self.commit_base(place, self.place_map, PLACE_KEY,
transaction, change_time)
self.url_types.update([str(url.type) for url in place.urls
if url.type.is_custom()])
attr_list = []
for mref in place.media_list:
attr_list += [str(attr.type) for attr in mref.attribute_list
if attr.type.is_custom() and str(attr.type)]
self.media_attributes.update(attr_list)
def commit_personal_event(self, event, transaction, change_time=None):
if event.type.is_custom():
self.individual_event_names.add(str(event.type))
self.commit_event(event, transaction, change_time)
def commit_family_event(self, event, transaction, change_time=None):
if event.type.is_custom():
self.family_event_names.add(str(event.type))
self.commit_event(event, transaction, change_time)
def commit_event(self, event, transaction, change_time=None):
"""
Commit the specified Event to the database, storing the changes as
part of the transaction.
"""
self.commit_base(event, self.event_map, EVENT_KEY,
transaction, change_time)
attr_list = []
for mref in event.media_list:
attr_list += [str(attr.type) for attr in mref.attribute_list
if attr.type.is_custom() and str(attr.type)]
self.media_attributes.update(attr_list)
def commit_family(self, family, transaction, change_time=None):
"""
Commit the specified Family to the database, storing the changes as
part of the transaction.
"""
self.commit_base(family, self.family_map, FAMILY_KEY,
transaction, change_time)
self.family_attributes.update(
[str(attr.type) for attr in family.attribute_list
if attr.type.is_custom() and str(attr.type)])
rel_list = []
for ref in family.child_ref_list:
if ref.frel.is_custom():
rel_list.append(str(ref.frel))
if ref.mrel.is_custom():
rel_list.append(str(ref.mrel))
self.child_ref_types.update(rel_list)
self.event_role_names.update(
[str(eref.role) for eref in family.event_ref_list
if eref.role.is_custom()])
if family.type.is_custom():
self.family_rel_types.add(str(family.type))
attr_list = []
for mref in family.media_list:
attr_list += [str(attr.type) for attr in mref.attribute_list
if attr.type.is_custom() and str(attr.type)]
self.media_attributes.update(attr_list)
def commit_repository(self, repository, transaction, change_time=None):
"""
Commit the specified Repository to the database, storing the changes
as part of the transaction.
"""
self.commit_base(repository, self.repository_map, REPOSITORY_KEY,
transaction, change_time)
if repository.type.is_custom():
self.repository_types.add(str(repository.type))
self.url_types.update([str(url.type) for url in repository.urls
if url.type.is_custom()])
def commit_note(self, note, transaction, change_time=None):
"""
Commit the specified Note to the database, storing the changes as part
of the transaction.
"""
self.commit_base(note, self.note_map, NOTE_KEY,
transaction, change_time)
if note.type.is_custom():
self.note_types.add(str(note.type))
def get_from_handle(self, handle, class_type, data_map):
try:
data = data_map.get(str(handle), txn=self.txn)
except:
data = None
# under certain circumstances during a database reload,
# data_map can be none. If so, then don't report an error
if data_map:
_LOG.error("Failed to get from handle", exc_info=True)
if data:
newobj = class_type()
newobj.unserialize(data)
return newobj
return None
def transaction_begin(self, msg="", batch=False, no_magic=False):
try:
return self.__transaction_begin(msg, batch, no_magic)
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __transaction_begin(self, msg="", batch=False, no_magic=False):
"""
Create a new Transaction tied to the current UNDO database.
The transaction has no effect until it is committed using the
transaction_commit function of the this database object.
"""
transaction = BdbTransaction(msg, self.undodb, self, batch, no_magic)
if batch:
# A batch transaction does not store the commits
# Aborting the session completely will become impossible.
self.abort_possible = False
# Undo is also impossible after batch transaction
self.undodb.clear()
self.env.txn_checkpoint()
if db.version() < (4, 7):
self.env.set_flags(db.DB_TXN_NOSYNC, 1) # async txn
if self.secondary_connected and not no_magic:
# Disconnect unneeded secondary indices
self.surnames.close()
_db = db.DB(self.env)
_db.remove(_mkname(self.full_name, SURNAMES), SURNAMES)
self.reference_map_referenced_map.close()
_db = db.DB(self.env)
_db.remove(_mkname(self.full_name, REF_REF), REF_REF)
return transaction
def transaction_commit(self, transaction, msg):
if self._LOG_ALL:
LOG.debug("%s: Transaction commit '%s'\n"
% (self.__class__.__name__, str(msg)))
if self.readonly:
return
try:
transaction.commit(msg)
self.undodb.commit(transaction, msg)
self.__after_commit(transaction, msg)
self.has_changed = True
except DBERRS, msg:
self.__log_error()
raise Errors.DbError(msg)
def __after_commit(self, transaction, msg):
"""
Post-transaction commit processing
"""
if transaction.batch:
self.env.txn_checkpoint()
if db.version() < (4, 7):
self.env.set_flags(db.DB_TXN_NOSYNC, 0) # sync txn
if not transaction.no_magic:
# create new secondary indices to replace the ones removed
self.surnames = self.__open_db(self.full_name, SURNAMES,
db.DB_BTREE, db.DB_DUP | db.DB_DUPSORT)
self.person_map.associate(self.surnames, find_surname,
DBFLAGS_O)
self.reference_map_referenced_map = self.__open_db(self.full_name,
REF_REF, db.DB_BTREE, db.DB_DUP|db.DB_DUPSORT)
self.reference_map.associate(self.reference_map_referenced_map,
find_referenced_handle, DBFLAGS_O)
# Only build surname list after surname index is surely back
self.build_surname_list()
# Reset callbacks if necessary
if transaction.batch or not len(transaction):
return
if self.undo_callback:
self.undo_callback(_("_Undo %s") % transaction.get_description())
if self.redo_callback:
self.redo_callback(None)
if self.undo_history_callback:
self.undo_history_callback()
def undo(self, update_history=True):
self.undodb.undo(update_history)
return
def redo(self, update_history=True):
self.undodb.redo(update_history)
return
def gramps_upgrade(self, callback=None):
UpdateCallback.__init__(self, callback)
version = self.metadata.get('version', default=_MINVERSION)
t = time.time()
if version < 14:
import upgrade
upgrade.gramps_upgrade_14(self)
print "Upgrade time:", int(time.time()-t), "seconds"
def set_auto_remove(self):
"""
BSDDB change log settings using new method with renamed attributes
"""
if db.version() < (4, 7):
# by the book: old method with old attribute
self.env.set_flags(db.DB_LOG_AUTOREMOVE, 1)
else: # look at python interface
# TODO test with new version of pybsddb
try:
# try numeric compare, just first 2 digits
# this won't work with something like "4.10a", but
# hopefully they won't do that
old_version = map(int, db.__version__.split(".",2)[:2]) < (4, 7)
except:
# fallback, weak string compare
old_version = db.__version__ < "4.7"
if old_version:
# undocumented: old method with new attribute
self.env.set_flags(db.DB_LOG_AUTO_REMOVE, 1)
else:
# by the book: new method with new attribute
self.env.log_set_config(db.DB_LOG_AUTO_REMOVE, 1)
def write_version(self, name):
"""Write version number for a newly created DB."""
full_name = os.path.abspath(name)
self.env = db.DBEnv()
self.env.set_cachesize(0, DBCACHE)
# These env settings are only needed for Txn environment
self.env.set_lk_max_locks(DBLOCKS)
self.env.set_lk_max_objects(DBOBJECTS)
# clean up unused logs
self.set_auto_remove()
# The DB_PRIVATE flag must go if we ever move to multi-user setup
env_flags = db.DB_CREATE | db.DB_PRIVATE |\
db.DB_INIT_MPOOL | db.DB_INIT_LOCK |\
db.DB_INIT_LOG | db.DB_INIT_TXN | db.DB_THREAD
# As opposed to before, we always try recovery on databases
env_flags = env_flags | db.DB_RECOVER
# Environment name is now based on the filename
env_name = name
self.env.open(env_name, env_flags)
self.env.txn_checkpoint()
self.metadata = self.__open_shelf(full_name, META)
with BSDDBTxn(self.env, self.metadata) as txn:
txn.put('version', _DBVERSION)
self.metadata.close()
self.env.close()
#-------------------------------------------------------------------------
#
# BdbTransaction
#
#-------------------------------------------------------------------------
class BdbTransaction(GrampsDbTxn):
"""
The batch parameter is set to True for large transactions. For such
transactions, the list of changes is not maintained, and no undo
is possible.
The no_magic parameter is ignored for non-batch transactions, and
is also of no importance for DB backends other than BSD DB. For
the BSDDB, when this paramter is set to True, some secondary
indices will be removed at the beginning and then rebuilt at
the end of such transaction (only if it is batch).
"""
__slots__ = ('batch', 'no_magic')
def __init__(self, msg, undodb, grampsdb, batch=False, no_magic=False):
GrampsDbTxn.__init__(self, msg, undodb, grampsdb)
self.batch = batch
self.no_magic = no_magic
def get_db_txn(self, value):
return BSDDBTxn(value)
def _mkname(path, name):
return os.path.join(path, name + DBEXT)
def clear_lock_file(name):
try:
os.unlink(os.path.join(name, DBLOCKFN))
except OSError:
return
def write_lock_file(name):
if not os.path.isdir(name):
os.mkdir(name)
f = open(os.path.join(name, DBLOCKFN), "w")
if os.name == 'nt':
text = os.environ['USERNAME']
else:
host = os.uname()[1]
# An ugly workaround for os.getlogin() issue with Konsole
try:
user = os.getlogin()
except:
user = os.environ.get('USER')
text = "%s@%s" % (user, host)
# Save only the username and host, so the massage can be
# printed with correct locale in DbManager.py when a lock is found
f.write(text)
f.close()
if __name__ == "__main__":
import sys
d = GrampsDBDir()
d.load(sys.argv[1], lambda x: x)
with d.get_person_cursor() as c:
for key, data in c:
person = Person(data)
print key, person.get_primary_name().get_name(),
print d.surnames.keys()