Mercurial > p > roundup > code
view roundup/admin.py @ 3775:beaf7ea86e5e
handle 8-bit untranslateable messages in tracker templates
| author | Richard Jones <richard@users.sourceforge.net> |
|---|---|
| date | Sat, 02 Dec 2006 23:41:28 +0000 |
| parents | cecdd102733c |
| children | c54ae50f6ce1 |
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#! /usr/bin/env python # # Copyright (c) 2001 Bizar Software Pty Ltd (http://www.bizarsoftware.com.au/) # This module is free software, and you may redistribute it and/or modify # under the same terms as Python, so long as this copyright message and # disclaimer are retained in their original form. # # IN NO EVENT SHALL BIZAR SOFTWARE PTY LTD BE LIABLE TO ANY PARTY FOR # DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING # OUT OF THE USE OF THIS CODE, EVEN IF THE AUTHOR HAS BEEN ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. # # BIZAR SOFTWARE PTY LTD SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING, # BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS # FOR A PARTICULAR PURPOSE. THE CODE PROVIDED HEREUNDER IS ON AN "AS IS" # BASIS, AND THERE IS NO OBLIGATION WHATSOEVER TO PROVIDE MAINTENANCE, # SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS. # # $Id: admin.py,v 1.105 2006-08-11 05:13:06 richard Exp $ '''Administration commands for maintaining Roundup trackers. ''' __docformat__ = 'restructuredtext' import csv, getopt, getpass, os, re, shutil, sys, UserDict from roundup import date, hyperdb, roundupdb, init, password, token from roundup import __version__ as roundup_version import roundup.instance from roundup.configuration import CoreConfig from roundup.i18n import _ class CommandDict(UserDict.UserDict): '''Simple dictionary that lets us do lookups using partial keys. Original code submitted by Engelbert Gruber. ''' _marker = [] def get(self, key, default=_marker): if self.data.has_key(key): return [(key, self.data[key])] keylist = self.data.keys() keylist.sort() l = [] for ki in keylist: if ki.startswith(key): l.append((ki, self.data[ki])) if not l and default is self._marker: raise KeyError, key return l class UsageError(ValueError): pass class AdminTool: ''' A collection of methods used in maintaining Roundup trackers. Typically these methods are accessed through the roundup-admin script. The main() method provided on this class gives the main loop for the roundup-admin script. Actions are defined by do_*() methods, with help for the action given in the method docstring. Additional help may be supplied by help_*() methods. ''' def __init__(self): self.commands = CommandDict() for k in AdminTool.__dict__.keys(): if k[:3] == 'do_': self.commands[k[3:]] = getattr(self, k) self.help = {} for k in AdminTool.__dict__.keys(): if k[:5] == 'help_': self.help[k[5:]] = getattr(self, k) self.tracker_home = '' self.db = None def get_class(self, classname): '''Get the class - raise an exception if it doesn't exist. ''' try: return self.db.getclass(classname) except KeyError: raise UsageError, _('no such class "%(classname)s"')%locals() def props_from_args(self, args): ''' Produce a dictionary of prop: value from the args list. The args list is specified as ``prop=value prop=value ...``. ''' props = {} for arg in args: if arg.find('=') == -1: raise UsageError, _('argument "%(arg)s" not propname=value' )%locals() l = arg.split('=') if len(l) < 2: raise UsageError, _('argument "%(arg)s" not propname=value' )%locals() key, value = l[0], '='.join(l[1:]) if value: props[key] = value else: props[key] = None return props def usage(self, message=''): ''' Display a simple usage message. ''' if message: message = _('Problem: %(message)s\n\n')%locals() print _('''%(message)sUsage: roundup-admin [options] [<command> <arguments>] Options: -i instance home -- specify the issue tracker "home directory" to administer -u -- the user[:password] to use for commands -d -- print full designators not just class id numbers -c -- when outputting lists of data, comma-separate them. Same as '-S ","'. -S <string> -- when outputting lists of data, string-separate them -s -- when outputting lists of data, space-separate them. Same as '-S " "'. -V -- be verbose when importing -v -- report Roundup and Python versions (and quit) Only one of -s, -c or -S can be specified. Help: roundup-admin -h roundup-admin help -- this help roundup-admin help <command> -- command-specific help roundup-admin help all -- all available help ''')%locals() self.help_commands() def help_commands(self): ''' List the commands available with their help summary. ''' print _('Commands:'), commands = [''] for command in self.commands.values(): h = _(command.__doc__).split('\n')[0] commands.append(' '+h[7:]) commands.sort() commands.append(_( """Commands may be abbreviated as long as the abbreviation matches only one command, e.g. l == li == lis == list.""")) print '\n'.join(commands) print def help_commands_html(self, indent_re=re.compile(r'^(\s+)\S+')): ''' Produce an HTML command list. ''' commands = self.commands.values() def sortfun(a, b): return cmp(a.__name__, b.__name__) commands.sort(sortfun) for command in commands: h = _(command.__doc__).split('\n') name = command.__name__[3:] usage = h[0] print ''' <tr><td valign=top><strong>%(name)s</strong></td> <td><tt>%(usage)s</tt><p> <pre>''' % locals() indent = indent_re.match(h[3]) if indent: indent = len(indent.group(1)) for line in h[3:]: if indent: print line[indent:] else: print line print '</pre></td></tr>\n' def help_all(self): print _(''' All commands (except help) require a tracker specifier. This is just the path to the roundup tracker you're working with. A roundup tracker is where roundup keeps the database and configuration file that defines an issue tracker. It may be thought of as the issue tracker's "home directory". It may be specified in the environment variable TRACKER_HOME or on the command line as "-i tracker". A designator is a classname and a nodeid concatenated, eg. bug1, user10, ... Property values are represented as strings in command arguments and in the printed results: . Strings are, well, strings. . Date values are printed in the full date format in the local time zone, and accepted in the full format or any of the partial formats explained below. . Link values are printed as node designators. When given as an argument, node designators and key strings are both accepted. . Multilink values are printed as lists of node designators joined by commas. When given as an argument, node designators and key strings are both accepted; an empty string, a single node, or a list of nodes joined by commas is accepted. When property values must contain spaces, just surround the value with quotes, either ' or ". A single space may also be backslash-quoted. If a value must contain a quote character, it must be backslash-quoted or inside quotes. Examples: hello world (2 tokens: hello, world) "hello world" (1 token: hello world) "Roch'e" Compaan (2 tokens: Roch'e Compaan) Roch\\'e Compaan (2 tokens: Roch'e Compaan) address="1 2 3" (1 token: address=1 2 3) \\\\ (1 token: \\) \\n\\r\\t (1 token: a newline, carriage-return and tab) When multiple nodes are specified to the roundup get or roundup set commands, the specified properties are retrieved or set on all the listed nodes. When multiple results are returned by the roundup get or roundup find commands, they are printed one per line (default) or joined by commas (with the -c) option. Where the command changes data, a login name/password is required. The login may be specified as either "name" or "name:password". . ROUNDUP_LOGIN environment variable . the -u command-line option If either the name or password is not supplied, they are obtained from the command-line. Date format examples: "2000-04-17.03:45" means <Date 2000-04-17.08:45:00> "2000-04-17" means <Date 2000-04-17.00:00:00> "01-25" means <Date yyyy-01-25.00:00:00> "08-13.22:13" means <Date yyyy-08-14.03:13:00> "11-07.09:32:43" means <Date yyyy-11-07.14:32:43> "14:25" means <Date yyyy-mm-dd.19:25:00> "8:47:11" means <Date yyyy-mm-dd.13:47:11> "." means "right now" Command help: ''') for name, command in self.commands.items(): print _('%s:')%name print ' ', _(command.__doc__) def do_help(self, args, nl_re=re.compile('[\r\n]'), indent_re=re.compile(r'^(\s+)\S+')): ""'''Usage: help topic Give help about topic. commands -- list commands <command> -- help specific to a command initopts -- init command options all -- all available help ''' if len(args)>0: topic = args[0] else: topic = 'help' # try help_ methods if self.help.has_key(topic): self.help[topic]() return 0 # try command docstrings try: l = self.commands.get(topic) except KeyError: print _('Sorry, no help for "%(topic)s"')%locals() return 1 # display the help for each match, removing the docsring indent for name, help in l: lines = nl_re.split(_(help.__doc__)) print lines[0] indent = indent_re.match(lines[1]) if indent: indent = len(indent.group(1)) for line in lines[1:]: if indent: print line[indent:] else: print line return 0 def listTemplates(self): ''' List all the available templates. Look in the following places, where the later rules take precedence: 1. <prefix>/share/roundup/templates/* this should be the standard place to find them when Roundup is installed 2. <roundup.admin.__file__>/../templates/* this will be used if Roundup's run in the distro (aka. source) directory 3. <current working dir>/* this is for when someone unpacks a 3rd-party template 4. <current working dir> this is for someone who "cd"s to the 3rd-party template dir ''' # OK, try <prefix>/share/roundup/templates # -- this module (roundup.admin) will be installed in something # like: # /usr/lib/python2.2/site-packages/roundup/admin.py (5 dirs up) # c:\python22\lib\site-packages\roundup\admin.py (4 dirs up) # we're interested in where the "lib" directory is - ie. the /usr/ # part templates = {} for N in 4, 5: path = __file__ # move up N elements in the path for i in range(N): path = os.path.dirname(path) tdir = os.path.join(path, 'share', 'roundup', 'templates') if os.path.isdir(tdir): templates = init.listTemplates(tdir) break # OK, now try as if we're in the roundup source distribution # directory, so this module will be in .../roundup-*/roundup/admin.py # and we're interested in the .../roundup-*/ part. path = __file__ for i in range(2): path = os.path.dirname(path) tdir = os.path.join(path, 'templates') if os.path.isdir(tdir): templates.update(init.listTemplates(tdir)) # Try subdirs of the current dir templates.update(init.listTemplates(os.getcwd())) # Finally, try the current directory as a template template = init.loadTemplateInfo(os.getcwd()) if template: templates[template['name']] = template return templates def help_initopts(self): templates = self.listTemplates() print _('Templates:'), ', '.join(templates.keys()) import roundup.backends backends = roundup.backends.list_backends() print _('Back ends:'), ', '.join(backends) def do_install(self, tracker_home, args): ""'''Usage: install [template [backend [key=val[,key=val]]]] Install a new Roundup tracker. The command will prompt for the tracker home directory (if not supplied through TRACKER_HOME or the -i option). The template and backend may be specified on the command-line as arguments, in that order. Command line arguments following the backend allows you to pass initial values for config options. For example, passing "web_http_auth=no,rdbms_user=dinsdale" will override defaults for options http_auth in section [web] and user in section [rdbms]. Please be careful to not use spaces in this argument! (Enclose whole argument in quotes if you need spaces in option value). The initialise command must be called after this command in order to initialise the tracker's database. You may edit the tracker's initial database contents before running that command by editing the tracker's dbinit.py module init() function. See also initopts help. ''' if len(args) < 1: raise UsageError, _('Not enough arguments supplied') # make sure the tracker home can be created tracker_home = os.path.abspath(tracker_home) parent = os.path.split(tracker_home)[0] if not os.path.exists(parent): raise UsageError, _('Instance home parent directory "%(parent)s"' ' does not exist')%locals() config_ini_file = os.path.join(tracker_home, CoreConfig.INI_FILE) # check for both old- and new-style configs if filter(os.path.exists, [config_ini_file, os.path.join(tracker_home, 'config.py')]): ok = raw_input(_( """WARNING: There appears to be a tracker in "%(tracker_home)s"! If you re-install it, you will lose all the data! Erase it? Y/N: """) % locals()) if ok.strip().lower() != 'y': return 0 # clear it out so the install isn't confused shutil.rmtree(tracker_home) # select template templates = self.listTemplates() template = len(args) > 1 and args[1] or '' if not templates.has_key(template): print _('Templates:'), ', '.join(templates.keys()) while not templates.has_key(template): template = raw_input(_('Select template [classic]: ')).strip() if not template: template = 'classic' # select hyperdb backend import roundup.backends backends = roundup.backends.list_backends() backend = len(args) > 2 and args[2] or '' if backend not in backends: print _('Back ends:'), ', '.join(backends) while backend not in backends: backend = raw_input(_('Select backend [anydbm]: ')).strip() if not backend: backend = 'anydbm' # XXX perform a unit test based on the user's selections # Process configuration file definitions if len(args) > 3: try: defns = dict([item.split("=") for item in args[3].split(",")]) except: print _('Error in configuration settings: "%s"') % args[3] raise else: defns = {} # install! init.install(tracker_home, templates[template]['path'], settings=defns) init.write_select_db(tracker_home, backend) print _(""" --------------------------------------------------------------------------- You should now edit the tracker configuration file: %(config_file)s""") % {"config_file": config_ini_file} # find list of options that need manual adjustments # XXX config._get_unset_options() is marked as private # (leading underscore). make it public or don't care? need_set = CoreConfig(tracker_home)._get_unset_options() if need_set: print _(" ... at a minimum, you must set following options:") for section, options in need_set.items(): print " [%s]: %s" % (section, ", ".join(options)) # note about schema modifications print _(""" If you wish to modify the database schema, you should also edit the schema file: %(database_config_file)s You may also change the database initialisation file: %(database_init_file)s ... see the documentation on customizing for more information. You MUST run the "roundup-admin initialise" command once you've performed the above steps. --------------------------------------------------------------------------- """) % { 'database_config_file': os.path.join(tracker_home, 'schema.py'), 'database_init_file': os.path.join(tracker_home, 'initial_data.py'), } return 0 def do_genconfig(self, args): ""'''Usage: genconfig <filename> Generate a new tracker config file (ini style) with default values in <filename>. ''' if len(args) < 1: raise UsageError, _('Not enough arguments supplied') config = CoreConfig() config.save(args[0]) def do_initialise(self, tracker_home, args): ""'''Usage: initialise [adminpw] Initialise a new Roundup tracker. The administrator details will be set at this step. Execute the tracker's initialisation function dbinit.init() ''' # password if len(args) > 1: adminpw = args[1] else: adminpw = '' confirm = 'x' while adminpw != confirm: adminpw = getpass.getpass(_('Admin Password: ')) confirm = getpass.getpass(_(' Confirm: ')) # make sure the tracker home is installed if not os.path.exists(tracker_home): raise UsageError, _('Instance home does not exist')%locals() try: tracker = roundup.instance.open(tracker_home) except roundup.instance.TrackerError: raise UsageError, _('Instance has not been installed')%locals() # is there already a database? if tracker.exists(): ok = raw_input(_( """WARNING: The database is already initialised! If you re-initialise it, you will lose all the data! Erase it? Y/N: """)) if ok.strip().lower() != 'y': return 0 backend = tracker.get_backend_name() # nuke it tracker.nuke() # re-write the backend select file init.write_select_db(tracker_home, backend) # GO tracker.init(password.Password(adminpw)) return 0 def do_get(self, args): ""'''Usage: get property designator[,designator]* Get the given property of one or more designator(s). Retrieves the property value of the nodes specified by the designators. ''' if len(args) < 2: raise UsageError, _('Not enough arguments supplied') propname = args[0] designators = args[1].split(',') l = [] for designator in designators: # decode the node designator try: classname, nodeid = hyperdb.splitDesignator(designator) except hyperdb.DesignatorError, message: raise UsageError, message # get the class cl = self.get_class(classname) try: id=[] if self.separator: if self.print_designator: # see if property is a link or multilink for # which getting a desginator make sense. # Algorithm: Get the properties of the # current designator's class. (cl.getprops) # get the property object for the property the # user requested (properties[propname]) # verify its type (isinstance...) # raise error if not link/multilink # get class name for link/multilink property # do the get on the designators # append the new designators # print properties = cl.getprops() property = properties[propname] if not (isinstance(property, hyperdb.Multilink) or isinstance(property, hyperdb.Link)): raise UsageError, _('property %s is not of type Multilink or Link so -d flag does not apply.')%propname propclassname = self.db.getclass(property.classname).classname id = cl.get(nodeid, propname) for i in id: l.append(propclassname + i) else: id = cl.get(nodeid, propname) for i in id: l.append(i) else: if self.print_designator: properties = cl.getprops() property = properties[propname] if not (isinstance(property, hyperdb.Multilink) or isinstance(property, hyperdb.Link)): raise UsageError, _('property %s is not of type Multilink or Link so -d flag does not apply.')%propname propclassname = self.db.getclass(property.classname).classname id = cl.get(nodeid, propname) for i in id: print propclassname + i else: print cl.get(nodeid, propname) except IndexError: raise UsageError, _('no such %(classname)s node "%(nodeid)s"')%locals() except KeyError: raise UsageError, _('no such %(classname)s property ' '"%(propname)s"')%locals() if self.separator: print self.separator.join(l) return 0 def do_set(self, args): ""'''Usage: set items property=value property=value ... Set the given properties of one or more items(s). The items are specified as a class or as a comma-separated list of item designators (ie "designator[,designator,...]"). This command sets the properties to the values for all designators given. If the value is missing (ie. "property=") then the property is un-set. If the property is a multilink, you specify the linked ids for the multilink as comma-separated numbers (ie "1,2,3"). ''' if len(args) < 2: raise UsageError, _('Not enough arguments supplied') from roundup import hyperdb designators = args[0].split(',') if len(designators) == 1: designator = designators[0] try: designator = hyperdb.splitDesignator(designator) designators = [designator] except hyperdb.DesignatorError: cl = self.get_class(designator) designators = [(designator, x) for x in cl.list()] else: try: designators = [hyperdb.splitDesignator(x) for x in designators] except hyperdb.DesignatorError, message: raise UsageError, message # get the props from the args props = self.props_from_args(args[1:]) # now do the set for all the nodes for classname, itemid in designators: cl = self.get_class(classname) properties = cl.getprops() for key, value in props.items(): try: props[key] = hyperdb.rawToHyperdb(self.db, cl, itemid, key, value) except hyperdb.HyperdbValueError, message: raise UsageError, message # try the set try: apply(cl.set, (itemid, ), props) except (TypeError, IndexError, ValueError), message: import traceback; traceback.print_exc() raise UsageError, message return 0 def do_find(self, args): ""'''Usage: find classname propname=value ... Find the nodes of the given class with a given link property value. Find the nodes of the given class with a given link property value. The value may be either the nodeid of the linked node, or its key value. ''' if len(args) < 1: raise UsageError, _('Not enough arguments supplied') classname = args[0] # get the class cl = self.get_class(classname) # handle the propname=value argument props = self.props_from_args(args[1:]) # convert the user-input value to a value used for find() for propname, value in props.items(): if ',' in value: values = value.split(',') else: values = [value] d = props[propname] = {} for value in values: value = hyperdb.rawToHyperdb(self.db, cl, None, propname, value) if isinstance(value, list): for entry in value: d[entry] = 1 else: d[value] = 1 # now do the find try: id = [] designator = [] if self.separator: if self.print_designator: id=apply(cl.find, (), props) for i in id: designator.append(classname + i) print self.separator.join(designator) else: print self.separator.join(apply(cl.find, (), props)) else: if self.print_designator: id=apply(cl.find, (), props) for i in id: designator.append(classname + i) print designator else: print apply(cl.find, (), props) except KeyError: raise UsageError, _('%(classname)s has no property ' '"%(propname)s"')%locals() except (ValueError, TypeError), message: raise UsageError, message return 0 def do_specification(self, args): ""'''Usage: specification classname Show the properties for a classname. This lists the properties for a given class. ''' if len(args) < 1: raise UsageError, _('Not enough arguments supplied') classname = args[0] # get the class cl = self.get_class(classname) # get the key property keyprop = cl.getkey() for key, value in cl.properties.items(): if keyprop == key: print _('%(key)s: %(value)s (key property)')%locals() else: print _('%(key)s: %(value)s')%locals() def do_display(self, args): ""'''Usage: display designator[,designator]* Show the property values for the given node(s). This lists the properties and their associated values for the given node. ''' if len(args) < 1: raise UsageError, _('Not enough arguments supplied') # decode the node designator for designator in args[0].split(','): try: classname, nodeid = hyperdb.splitDesignator(designator) except hyperdb.DesignatorError, message: raise UsageError, message # get the class cl = self.get_class(classname) # display the values keys = cl.properties.keys() keys.sort() for key in keys: value = cl.get(nodeid, key) print _('%(key)s: %(value)r')%locals() def do_create(self, args): ""'''Usage: create classname property=value ... Create a new entry of a given class. This creates a new entry of the given class using the property name=value arguments provided on the command line after the "create" command. ''' if len(args) < 1: raise UsageError, _('Not enough arguments supplied') from roundup import hyperdb classname = args[0] # get the class cl = self.get_class(classname) # now do a create props = {} properties = cl.getprops(protected = 0) if len(args) == 1: # ask for the properties for key, value in properties.items(): if key == 'id': continue name = value.__class__.__name__ if isinstance(value , hyperdb.Password): again = None while value != again: value = getpass.getpass(_('%(propname)s (Password): ')%{ 'propname': key.capitalize()}) again = getpass.getpass(_(' %(propname)s (Again): ')%{ 'propname': key.capitalize()}) if value != again: print _('Sorry, try again...') if value: props[key] = value else: value = raw_input(_('%(propname)s (%(proptype)s): ')%{ 'propname': key.capitalize(), 'proptype': name}) if value: props[key] = value else: props = self.props_from_args(args[1:]) # convert types for propname, value in props.items(): try: props[propname] = hyperdb.rawToHyperdb(self.db, cl, None, propname, value) except hyperdb.HyperdbValueError, message: raise UsageError, message # check for the key property propname = cl.getkey() if propname and not props.has_key(propname): raise UsageError, _('you must provide the "%(propname)s" ' 'property.')%locals() # do the actual create try: print apply(cl.create, (), props) except (TypeError, IndexError, ValueError), message: raise UsageError, message return 0 def do_list(self, args): ""'''Usage: list classname [property] List the instances of a class. Lists all instances of the given class. If the property is not specified, the "label" property is used. The label property is tried in order: the key, "name", "title" and then the first property, alphabetically. With -c, -S or -s print a list of item id's if no property specified. If property specified, print list of that property for every class instance. ''' if len(args) > 2: raise UsageError, _('Too many arguments supplied') if len(args) < 1: raise UsageError, _('Not enough arguments supplied') classname = args[0] # get the class cl = self.get_class(classname) # figure the property if len(args) > 1: propname = args[1] else: propname = cl.labelprop() if self.separator: if len(args) == 2: # create a list of propnames since user specified propname proplist=[] for nodeid in cl.list(): try: proplist.append(cl.get(nodeid, propname)) except KeyError: raise UsageError, _('%(classname)s has no property ' '"%(propname)s"')%locals() print self.separator.join(proplist) else: # create a list of index id's since user didn't specify # otherwise print self.separator.join(cl.list()) else: for nodeid in cl.list(): try: value = cl.get(nodeid, propname) except KeyError: raise UsageError, _('%(classname)s has no property ' '"%(propname)s"')%locals() print _('%(nodeid)4s: %(value)s')%locals() return 0 def do_table(self, args): ""'''Usage: table classname [property[,property]*] List the instances of a class in tabular form. Lists all instances of the given class. If the properties are not specified, all properties are displayed. By default, the column widths are the width of the largest value. The width may be explicitly defined by defining the property as "name:width". For example:: roundup> table priority id,name:10 Id Name 1 fatal-bug 2 bug 3 usability 4 feature Also to make the width of the column the width of the label, leave a trailing : without a width on the property. For example:: roundup> table priority id,name: Id Name 1 fata 2 bug 3 usab 4 feat will result in a the 4 character wide "Name" column. ''' if len(args) < 1: raise UsageError, _('Not enough arguments supplied') classname = args[0] # get the class cl = self.get_class(classname) # figure the property names to display if len(args) > 1: prop_names = args[1].split(',') all_props = cl.getprops() for spec in prop_names: if ':' in spec: try: propname, width = spec.split(':') except (ValueError, TypeError): raise UsageError, _('"%(spec)s" not name:width')%locals() else: propname = spec if not all_props.has_key(propname): raise UsageError, _('%(classname)s has no property ' '"%(propname)s"')%locals() else: prop_names = cl.getprops().keys() # now figure column widths props = [] for spec in prop_names: if ':' in spec: name, width = spec.split(':') if width == '': props.append((name, len(spec))) else: props.append((name, int(width))) else: # this is going to be slow maxlen = len(spec) for nodeid in cl.list(): curlen = len(str(cl.get(nodeid, spec))) if curlen > maxlen: maxlen = curlen props.append((spec, maxlen)) # now display the heading print ' '.join([name.capitalize().ljust(width) for name,width in props]) # and the table data for nodeid in cl.list(): l = [] for name, width in props: if name != 'id': try: value = str(cl.get(nodeid, name)) except KeyError: # we already checked if the property is valid - a # KeyError here means the node just doesn't have a # value for it value = '' else: value = str(nodeid) f = '%%-%ds'%width l.append(f%value[:width]) print ' '.join(l) return 0 def do_history(self, args): ""'''Usage: history designator Show the history entries of a designator. Lists the journal entries for the node identified by the designator. ''' if len(args) < 1: raise UsageError, _('Not enough arguments supplied') try: classname, nodeid = hyperdb.splitDesignator(args[0]) except hyperdb.DesignatorError, message: raise UsageError, message try: print self.db.getclass(classname).history(nodeid) except KeyError: raise UsageError, _('no such class "%(classname)s"')%locals() except IndexError: raise UsageError, _('no such %(classname)s node "%(nodeid)s"')%locals() return 0 def do_commit(self, args): ""'''Usage: commit Commit changes made to the database during an interactive session. The changes made during an interactive session are not automatically written to the database - they must be committed using this command. One-off commands on the command-line are automatically committed if they are successful. ''' self.db.commit() return 0 def do_rollback(self, args): ""'''Usage: rollback Undo all changes that are pending commit to the database. The changes made during an interactive session are not automatically written to the database - they must be committed manually. This command undoes all those changes, so a commit immediately after would make no changes to the database. ''' self.db.rollback() return 0 def do_retire(self, args): ""'''Usage: retire designator[,designator]* Retire the node specified by designator. This action indicates that a particular node is not to be retrieved by the list or find commands, and its key value may be re-used. ''' if len(args) < 1: raise UsageError, _('Not enough arguments supplied') designators = args[0].split(',') for designator in designators: try: classname, nodeid = hyperdb.splitDesignator(designator) except hyperdb.DesignatorError, message: raise UsageError, message try: self.db.getclass(classname).retire(nodeid) except KeyError: raise UsageError, _('no such class "%(classname)s"')%locals() except IndexError: raise UsageError, _('no such %(classname)s node "%(nodeid)s"')%locals() return 0 def do_restore(self, args): ""'''Usage: restore designator[,designator]* Restore the retired node specified by designator. The given nodes will become available for users again. ''' if len(args) < 1: raise UsageError, _('Not enough arguments supplied') designators = args[0].split(',') for designator in designators: try: classname, nodeid = hyperdb.splitDesignator(designator) except hyperdb.DesignatorError, message: raise UsageError, message try: self.db.getclass(classname).restore(nodeid) except KeyError: raise UsageError, _('no such class "%(classname)s"')%locals() except IndexError: raise UsageError, _('no such %(classname)s node "%(nodeid)s"')%locals() return 0 def do_export(self, args, export_files=True): ""'''Usage: export [[-]class[,class]] export_dir Export the database to colon-separated-value files. To exclude the files (e.g. for the msg or file class), use the exporttables command. Optionally limit the export to just the named classes or exclude the named classes, if the 1st argument starts with '-'. This action exports the current data from the database into colon-separated-value files that are placed in the nominated destination directory. ''' # grab the directory to export to if len(args) < 1: raise UsageError, _('Not enough arguments supplied') dir = args[-1] # get the list of classes to export if len(args) == 2: if args[0].startswith('-'): classes = [ c for c in self.db.classes.keys() if not c in args[0][1:].split(',') ] else: classes = args[0].split(',') else: classes = self.db.classes.keys() class colon_separated(csv.excel): delimiter = ':' # make sure target dir exists if not os.path.exists(dir): os.makedirs(dir) # do all the classes specified for classname in classes: cl = self.get_class(classname) if not export_files and hasattr(cl, 'export_files'): sys.stdout.write('Exporting %s WITHOUT the files\r\n'% classname) f = open(os.path.join(dir, classname+'.csv'), 'wb') writer = csv.writer(f, colon_separated) properties = cl.getprops() propnames = cl.export_propnames() fields = propnames[:] fields.append('is retired') writer.writerow(fields) # all nodes for this class for nodeid in cl.getnodeids(): if self.verbose: sys.stdout.write('Exporting %s - %s\r'%(classname, nodeid)) sys.stdout.flush() if self.verbose: sys.stdout.write('Exporting %s - %s\r'%(classname, nodeid)) sys.stdout.flush() writer.writerow(cl.export_list(propnames, nodeid)) if export_files and hasattr(cl, 'export_files'): cl.export_files(dir, nodeid) # close this file f.close() # export the journals jf = open(os.path.join(dir, classname+'-journals.csv'), 'wb') if self.verbose: sys.stdout.write("\nExporting Journal for %s\n" % classname) sys.stdout.flush() journals = csv.writer(jf, colon_separated) map(journals.writerow, cl.export_journals()) jf.close() return 0 def do_exporttables(self, args): ""'''Usage: exporttables [[-]class[,class]] export_dir Export the database to colon-separated-value files, excluding the files below $TRACKER_HOME/db/files/ (which can be archived separately). To include the files, use the export command. Optionally limit the export to just the named classes or exclude the named classes, if the 1st argument starts with '-'. This action exports the current data from the database into colon-separated-value files that are placed in the nominated destination directory. ''' return self.do_export(args, export_files=False) def do_import(self, args): ""'''Usage: import import_dir Import a database from the directory containing CSV files, two per class to import. The files used in the import are: <class>.csv This must define the same properties as the class (including having a "header" line with those property names.) <class>-journals.csv This defines the journals for the items being imported. The imported nodes will have the same nodeid as defined in the import file, thus replacing any existing content. The new nodes are added to the existing database - if you want to create a new database using the imported data, then create a new database (or, tediously, retire all the old data.) ''' if len(args) < 1: raise UsageError, _('Not enough arguments supplied') from roundup import hyperdb # directory to import from dir = args[0] class colon_separated(csv.excel): delimiter = ':' # import all the files for file in os.listdir(dir): classname, ext = os.path.splitext(file) # we only care about CSV files if ext != '.csv' or classname.endswith('-journals'): continue cl = self.get_class(classname) # ensure that the properties and the CSV file headings match f = open(os.path.join(dir, file), 'r') reader = csv.reader(f, colon_separated) file_props = None maxid = 1 # loop through the file and create a node for each entry for n, r in enumerate(reader): if file_props is None: file_props = r continue if self.verbose: sys.stdout.write('Importing %s - %s\r'%(classname, n)) sys.stdout.flush() # do the import and figure the current highest nodeid nodeid = cl.import_list(file_props, r) if hasattr(cl, 'import_files'): cl.import_files(dir, nodeid) maxid = max(maxid, int(nodeid)) print f.close() # import the journals f = open(os.path.join(args[0], classname + '-journals.csv'), 'r') reader = csv.reader(f, colon_separated) cl.import_journals(reader) f.close() # set the id counter print 'setting', classname, maxid+1 self.db.setid(classname, str(maxid+1)) return 0 def do_pack(self, args): ""'''Usage: pack period | date Remove journal entries older than a period of time specified or before a certain date. A period is specified using the suffixes "y", "m", and "d". The suffix "w" (for "week") means 7 days. "3y" means three years "2y 1m" means two years and one month "1m 25d" means one month and 25 days "2w 3d" means two weeks and three days Date format is "YYYY-MM-DD" eg: 2001-01-01 ''' if len(args) <> 1: raise UsageError, _('Not enough arguments supplied') # are we dealing with a period or a date value = args[0] date_re = re.compile(r''' (?P<date>\d\d\d\d-\d\d?-\d\d?)? # yyyy-mm-dd (?P<period>(\d+y\s*)?(\d+m\s*)?(\d+d\s*)?)? ''', re.VERBOSE) m = date_re.match(value) if not m: raise ValueError, _('Invalid format') m = m.groupdict() if m['period']: pack_before = date.Date(". - %s"%value) elif m['date']: pack_before = date.Date(value) self.db.pack(pack_before) return 0 def do_reindex(self, args, desre=re.compile('([A-Za-z]+)([0-9]+)')): ""'''Usage: reindex [classname|designator]* Re-generate a tracker's search indexes. This will re-generate the search indexes for a tracker. This will typically happen automatically. ''' if args: for arg in args: m = desre.match(arg) if m: cl = self.get_class(m.group(1)) try: cl.index(m.group(2)) except IndexError: raise UsageError, _('no such item "%(designator)s"')%{ 'designator': arg} else: cl = self.get_class(arg) self.db.reindex(arg) else: self.db.reindex(show_progress=True) return 0 def do_security(self, args): ""'''Usage: security [Role name] Display the Permissions available to one or all Roles. ''' if len(args) == 1: role = args[0] try: roles = [(args[0], self.db.security.role[args[0]])] except KeyError: print _('No such Role "%(role)s"')%locals() return 1 else: roles = self.db.security.role.items() role = self.db.config.NEW_WEB_USER_ROLES if ',' in role: print _('New Web users get the Roles "%(role)s"')%locals() else: print _('New Web users get the Role "%(role)s"')%locals() role = self.db.config.NEW_EMAIL_USER_ROLES if ',' in role: print _('New Email users get the Roles "%(role)s"')%locals() else: print _('New Email users get the Role "%(role)s"')%locals() roles.sort() for rolename, role in roles: print _('Role "%(name)s":')%role.__dict__ for permission in role.permissions: d = permission.__dict__ if permission.klass: if permission.properties: print _(' %(description)s (%(name)s for "%(klass)s"' ': %(properties)s only)')%d else: print _(' %(description)s (%(name)s for "%(klass)s" ' 'only)')%d else: print _(' %(description)s (%(name)s)')%d return 0 def run_command(self, args): '''Run a single command ''' command = args[0] # handle help now if command == 'help': if len(args)>1: self.do_help(args[1:]) return 0 self.do_help(['help']) return 0 if command == 'morehelp': self.do_help(['help']) self.help_commands() self.help_all() return 0 if command == 'config': self.do_config(args[1:]) return 0 # figure what the command is try: functions = self.commands.get(command) except KeyError: # not a valid command print _('Unknown command "%(command)s" ("help commands" for a ' 'list)')%locals() return 1 # check for multiple matches if len(functions) > 1: print _('Multiple commands match "%(command)s": %(list)s')%{'command': command, 'list': ', '.join([i[0] for i in functions])} return 1 command, function = functions[0] # make sure we have a tracker_home while not self.tracker_home: self.tracker_home = raw_input(_('Enter tracker home: ')).strip() # before we open the db, we may be doing an install or init if command == 'initialise': try: return self.do_initialise(self.tracker_home, args) except UsageError, message: print _('Error: %(message)s')%locals() return 1 elif command == 'install': try: return self.do_install(self.tracker_home, args) except UsageError, message: print _('Error: %(message)s')%locals() return 1 # get the tracker try: tracker = roundup.instance.open(self.tracker_home) except ValueError, message: self.tracker_home = '' print _("Error: Couldn't open tracker: %(message)s")%locals() return 1 # only open the database once! if not self.db: self.db = tracker.open('admin') # do the command ret = 0 try: ret = function(args[1:]) except UsageError, message: print _('Error: %(message)s')%locals() print print function.__doc__ ret = 1 except: import traceback traceback.print_exc() ret = 1 return ret def interactive(self): '''Run in an interactive mode ''' print _('Roundup %s ready for input.\nType "help" for help.' % roundup_version) try: import readline except ImportError: print _('Note: command history and editing not available') while 1: try: command = raw_input(_('roundup> ')) except EOFError: print _('exit...') break if not command: continue args = token.token_split(command) if not args: continue if args[0] in ('quit', 'exit'): break self.run_command(args) # exit.. check for transactions if self.db and self.db.transactions: commit = raw_input(_('There are unsaved changes. Commit them (y/N)? ')) if commit and commit[0].lower() == 'y': self.db.commit() return 0 def main(self): try: opts, args = getopt.getopt(sys.argv[1:], 'i:u:hcdsS:vV') except getopt.GetoptError, e: self.usage(str(e)) return 1 # handle command-line args self.tracker_home = os.environ.get('TRACKER_HOME', '') # TODO: reinstate the user/password stuff (-u arg too) name = password = '' if os.environ.has_key('ROUNDUP_LOGIN'): l = os.environ['ROUNDUP_LOGIN'].split(':') name = l[0] if len(l) > 1: password = l[1] self.separator = None self.print_designator = 0 self.verbose = 0 for opt, arg in opts: if opt == '-h': self.usage() return 0 elif opt == '-v': print '%s (python %s)'%(roundup_version, sys.version.split()[0]) return 0 elif opt == '-V': self.verbose = 1 elif opt == '-i': self.tracker_home = arg elif opt == '-c': if self.separator != None: self.usage('Only one of -c, -S and -s may be specified') return 1 self.separator = ',' elif opt == '-S': if self.separator != None: self.usage('Only one of -c, -S and -s may be specified') return 1 self.separator = arg elif opt == '-s': if self.separator != None: self.usage('Only one of -c, -S and -s may be specified') return 1 self.separator = ' ' elif opt == '-d': self.print_designator = 1 # if no command - go interactive # wrap in a try/finally so we always close off the db ret = 0 try: if not args: self.interactive() else: ret = self.run_command(args) if self.db: self.db.commit() return ret finally: if self.db: self.db.close() if __name__ == '__main__': tool = AdminTool() sys.exit(tool.main()) # vim: set filetype=python sts=4 sw=4 et si :