# # Gramps - a GTK+/GNOME based genealogy program # # Copyright (C) 2000-2006 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 # """ Provides the management of databases. This includes opening, renaming, creating, and deleting of databases. """ __author__ = "Donald N. Allingham" __revision__ = "$Revision: 8197 $" #------------------------------------------------------------------------- # # Standard python modules # #------------------------------------------------------------------------- import const import os import time import subprocess from gettext import gettext as _ #------------------------------------------------------------------------- # # set up logging # #------------------------------------------------------------------------- import logging LOG = logging.getLogger(".DbManager") if os.sys.platform == "win32": _rcs_found = os.system("rcs -V >nul 2>nul") == 0 else: _rcs_found = os.system("rcs -V >/dev/null 2>/dev/null") == 0 #------------------------------------------------------------------------- # # GTK/Gnome modules # #------------------------------------------------------------------------- import gtk import gtk.glade #------------------------------------------------------------------------- # # gramps modules # #------------------------------------------------------------------------- import QuestionDialog import GrampsDb import GrampsDbUtils import Config #------------------------------------------------------------------------- # # constants # #------------------------------------------------------------------------- DEFAULT_TITLE = _("Family Tree") NAME_FILE = "name.txt" META_NAME = "meta_data.db" NAME_COL = 0 PATH_COL = 1 FILE_COL = 2 DATE_COL = 3 DSORT_COL = 4 OPEN_COL = 5 STOCK_COL = 6 class DbManager: """ Database Manager. Opens a database manager window that allows users to create, rename, delete and open databases. """ def __init__(self, dbstate, parent=None): """ Creates the top level window from the glade description, and extracts the GTK widgets that are needed. """ self.glade = gtk.glade.XML(const.gladeFile, "dbmanager", "gramps") self.top = self.glade.get_widget('dbmanager') if parent: self.top.set_transient_for(parent) self.connect = self.glade.get_widget('ok') self.cancel = self.glade.get_widget('cancel') self.new = self.glade.get_widget('new') self.remove = self.glade.get_widget('remove') self.dblist = self.glade.get_widget('dblist') self.rename = self.glade.get_widget('rename') self.repair = self.glade.get_widget('repair') self.rcs = self.glade.get_widget('rcs') self.msg = self.glade.get_widget('msg') self.model = None self.dbstate = dbstate self.column = None self.data_to_delete = None if dbstate: self.active = dbstate.db.get_save_path() else: self.active = None self.selection = self.dblist.get_selection() self.current_names = [] self.__connect_signals() self.__build_interface() self.__populate() def __connect_signals(self): """ Connects the signals to the buttons on the interface. """ self.remove.connect('clicked', self.__remove_db) self.new.connect('clicked', self.__new_db) self.rename.connect('clicked', self.__rename_db) self.repair.connect('clicked', self.__repair_db) if _rcs_found: self.rcs.connect('clicked', self.__rcs) self.selection.connect('changed', self.__selection_changed) self.dblist.connect('button-press-event', self.__button_press) def __button_press(self, obj, event): """ Checks for a double click event. In the tree view, we want to treat a double click as if it was OK button press. However, we have to make sure that an item was selected first. """ if event.type == gtk.gdk._2BUTTON_PRESS and event.button == 1: data = self.selection.get_selected() if data[STOCK_COL] == 'gramps-lock': return if data[1]: self.top.response(gtk.RESPONSE_OK) return True return False def __selection_changed(self, selection): """ Called with the selection is changed in the TreeView. What we are trying to detect is the selection or unselection of a row. When a row is unselected, the Open, Rename, and Remove buttons are set insensitive. If a row is selected, the rename and remove buttons are disabled, and the Open button is disabled if the row represents a open database. """ # Get the current selection store, node = selection.get_selected() if not node: self.connect.set_sensitive(False) self.rename.set_sensitive(False) self.rcs.hide() self.repair.hide() self.remove.set_sensitive(False) else: is_rev = len(self.model.get_path(node)) > 1 if is_rev: self.rcs.set_label(_("Restore")) self.rename.set_sensitive(False) else: self.rcs.set_label(_("Archive")) self.rename.set_sensitive(True) if store.get_value(node, OPEN_COL): self.connect.set_sensitive(False) if _rcs_found: self.rcs.show() else: self.connect.set_sensitive(not is_rev) if _rcs_found and is_rev: self.rcs.show() else: self.rcs.hide() if store.get_value(node, STOCK_COL) == gtk.STOCK_DIALOG_ERROR: path = store.get_value(node, PATH_COL) if os.path.isfile(os.path.join(path,"person.gbkp")): self.repair.show() else: self.repair.hide() else: self.repair.hide() self.remove.set_sensitive(True) def __build_interface(self): """ Builds the columns for the TreeView. The columns are: Icon, Database Name, Last Modified The Icon column gets its data from column 6 of the database model. It is expecting either None, or a GTK stock icon name The Database Name column is an editable column. We connect to the 'edited' signal, so that we can change the name when the user changes the column. The last modified column simply displays the last modification time. """ # build the database name column render = gtk.CellRendererText() render.set_property('editable', True) render.connect('edited', self.__change_name) self.column = gtk.TreeViewColumn(_('Family tree name'), render, text=NAME_COL) self.column.set_sort_column_id(NAME_COL) self.dblist.append_column(self.column) # build the icon column render = gtk.CellRendererPixbuf() icon_column = gtk.TreeViewColumn(_('Status'), render, stock_id=STOCK_COL) self.dblist.append_column(icon_column) # build the last modified cocolumn render = gtk.CellRendererText() column = gtk.TreeViewColumn(_('Last modified'), render, text=DATE_COL) column.set_sort_column_id(DSORT_COL) self.dblist.append_column(column) # set the rules hit self.dblist.set_rules_hint(True) def __populate(self): """ Builds the display model. """ self.model = gtk.TreeStore(str, str, str, str, int, bool, str) # make the default directory if it does not exist dbdir = os.path.expanduser(Config.get(Config.DATABASE_PATH)) try: if not os.path.isdir(dbdir): os.makedirs(dbdir) except (IOError, OSError), msg: LOG.error(_("Could not make database directory: ") + str(msg)) self.current_names = [] for dpath in os.listdir(dbdir): dirpath = os.path.join(dbdir, dpath) path_name = os.path.join(dirpath, NAME_FILE) if os.path.isfile(path_name): name = file(path_name).readline().strip() (tval, last) = time_val(dirpath) (enable, stock_id) = icon_values(dirpath, self.active, self.dbstate.db.is_open()) if (stock_id == 'gramps-lock'): try: fname = os.path.join(dirpath, "lock") f = open(fname) last = f.read().strip() f.close() except: last = _("Unknown") self.current_names.append( (name, os.path.join(dbdir, dpath), path_name, last, tval, enable, stock_id)) self.current_names.sort() for items in self.current_names: data = [items[0], items[1], items[2], items[3], items[4], items[5], items[6]] iter = self.model.append(None, data) for rdata in find_revisions(os.path.join(items[1], "rev.gramps,v")): data = [ _("Version %s") % rdata[0], "", "", rdata[1], 0, False, "" ] self.model.append(iter, data) self.dblist.set_model(self.model) def run(self): """ Runs the dialog, returning None if nothing has been chosen, or the path and name if something has been selected """ value = self.top.run() if value == gtk.RESPONSE_OK: (model, node) = self.selection.get_selected() if node: self.top.destroy() return (model.get_value(node, PATH_COL), model.get_value(node, NAME_COL)) self.top.destroy() return None def __change_name(self, text, path, new_text): """ Changes the name of the database. This is a callback from the column, which has been marked as editable. If the new string is empty, do nothing. Otherwise, renaming the database is simply changing the contents of the name file. """ if len(new_text) > 0: node = self.model.get_iter(path) filename = self.model.get_value(node, FILE_COL) try: name_file = open(filename, "w") name_file.write(new_text) name_file.close() self.model.set_value(node, NAME_COL, new_text) except (OSError, IOError), msg: QuestionDialog.ErrorDialog( _("Could not rename family tree"), str(msg)) def __rcs(self, obj): store, node = self.selection.get_selected() check_in(self.dbstate.db, os.path.join(self.dbstate.db.get_save_path(), "rev.gramps"), None) self.__populate() def __remove_db(self, obj): """ Callback associated with the Remove button. Get the selected row and data, then call the verification dialog. """ store, node = self.selection.get_selected() self.data_to_delete = store[store.get_path(node)] QuestionDialog.QuestionDialog( _("Remove the '%s' database?") % self.data_to_delete[0], _("Removing this database will permanently destroy the data."), _("Remove database"), self.__really_delete_db) # rebuild the display self.__populate() def __really_delete_db(self): """ Delete the selected database. If the databse is open, close it first. Then scan the database directory, deleting the files, and finally removing the directory. """ # close the database if the user has requested to delete the # active database if self.data_to_delete[OPEN_COL]: self.dbstate.no_database() try: for (top, dirs, files) in os.walk(self.data_to_delete[1]): for filename in files: os.unlink(os.path.join(top, filename)) os.rmdir(self.data_to_delete[1]) except (IOError, OSError), msg: QuestionDialog.ErrorDialog(_("Could not delete family tree"), str(msg)) def __rename_db(self, obj): """ Start the rename process by calling the start_editing option on the line with the cursor. """ store, node = self.selection.get_selected() path = self.model.get_path(node) self.dblist.set_cursor(path, focus_column=self.column, start_editing=True) def __repair_db(self, obj): """ Start the rename process by calling the start_editing option on the line with the cursor. """ store, node = self.selection.get_selected() dirname = store[node][1] opened = store[node][5] if opened: self.dbstate.no_database() # delete files that are not backup files or the .txt file for filename in os.listdir(dirname): if os.path.splitext(filename)[1] not in (".gbkp", ".txt"): fname = os.path.join(dirname,filename) os.unlink(fname) dbclass = GrampsDb.gramps_db_factory(db_type = "x-directory/normal") db = dbclass(Config.get(Config.TRANSACTIONS)) db.set_save_path(dirname) db.load(dirname, None) self.msg.set_label(_("Rebuilding database from backup files")) self.top.window.set_cursor(gtk.gdk.Cursor(gtk.gdk.WATCH)) while (gtk.events_pending()): gtk.main_iteration() GrampsDbUtils.Backup.restore(db) self.top.window.set_cursor(None) self.msg.set_label("") db.close() self.dbstate.no_database() self.__populate() def __new_db(self, obj): """ Callback wrapper around the actual routine that creates the new database. Catch OSError and IOError and display a warning message. """ try: self.__create_new_db() except (OSError, IOError), msg: QuestionDialog.ErrorDialog(_("Could not create family tree"), str(msg)) def __create_new_db(self): """ Create a new database. """ new_path = find_next_db_dir() os.mkdir(new_path) path_name = os.path.join(new_path, NAME_FILE) name_list = [ name[0] for name in self.current_names ] title = find_next_db_name(name_list) name_file = open(path_name, "w") name_file.write(title) name_file.close() self.current_names.append(title) node = self.model.append(None, [title, new_path, path_name, _("Never"), 0, False, '']) self.selection.select_iter(node) path = self.model.get_path(node) self.dblist.set_cursor(path, focus_column=self.column, start_editing=True) def find_next_db_name(name_list): """ Scan the name list, looking for names that do not yet exist. Use the DEFAULT_TITLE as the basis for the database name. """ i = 1 while True: title = "%s %d" % (DEFAULT_TITLE, i) if title not in name_list: return title i += 1 def find_next_db_dir(): """ Searches the default directory for the first available default database name. Base the name off the current time. In all actuality, the first should be valid. """ while True: base = "%x" % int(time.time()) dbdir = os.path.expanduser(Config.get(Config.DATABASE_PATH)) new_path = os.path.join(dbdir, base) if not os.path.isdir(new_path): break return new_path def time_val(dirpath): """ Return the last modified time of the database. We do this by looking at the modification time of the meta db file. If this file does not exist, we indicate that database as never modified. """ meta = os.path.join(dirpath, META_NAME) if os.path.isfile(meta): tval = os.stat(meta)[9] last = time.asctime(time.localtime(tval)) else: tval = 0 last = _("Never") return (tval, last) def icon_values(dirpath, active, open): """ If the directory path is the active path, then return values that indicate to use the icon, and which icon to use. """ if os.path.isfile(os.path.join(dirpath,"need_recover")): return (True, gtk.STOCK_DIALOG_ERROR) elif dirpath == active and open: return (True, gtk.STOCK_OPEN) elif os.path.isfile(os.path.join(dirpath,"lock")): return (True, 'gramps-lock') else: return (False, "") def find_revisions(name): import re rev = re.compile("\s*revision\s+([\d\.]+)") if not os.path.isfile(name): return [] rlog = [ "rlog" , name ] proc = subprocess.Popen(rlog, stdout = subprocess.PIPE) proc.wait() revlist = [] date_str = "" rev_str = "" next_com = False if os.path.isfile(name): for i in proc.stdout: match = rev.match(i) if match: rev_str = match.groups()[0] elif next_com: next_com = False date_str = i.strip() revlist.append((rev_str, date_str)) elif i[0:5] == "date:": next_com = True return revlist def check_in(db, filename, callback): init = [ "rcs", '-i', '-U', '-q', '-t-"GRAMPS database"', ] ci = [ "ci", "-q", "-f" ] glade = gtk.glade.XML(const.gladeFile, "comment", "gramps") top = glade.get_widget('comment') text = glade.get_widget('description') top.run() comment = text.get_text() top.destroy() if not os.path.isfile(filename + ",v") : proc = subprocess.Popen(init + [filename + ",v"], stderr = subprocess.PIPE) status = proc.wait() message = "\n".join(proc.stderr.readlines()) proc.stderr.close() del proc xmlwrite = GrampsDbUtils.XmlWriter(db, callback, False, 0) xmlwrite.write(filename) cmd = ci + ['-m%s' % comment, filename, filename + ",v" ] proc = subprocess.Popen( cmd, stdin = subprocess.PIPE, stderr = subprocess.PIPE ) proc.stdin.close() message = "\n".join(proc.stderr.readlines()) print message proc.stderr.close() status = proc.wait() del proc if __name__ == "__main__": import sys print find_revisions(sys.argv[1])