#!/usr/bin/env python # # Copyright (C) 2009 W. Trevor King # # 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., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. """ Provide and email interface to the distributed bugtracker Bugs Everywhere. Recieves incoming email via procmail. Provides an interface similar to the Debian Bug Tracker. There are currently three distinct email types: submits, comments, and controls. The email types are differentiated by tags in the email subject. See SUBJECT_TAG* for the current values. Submit emails create a bug (and optionally add some intitial comments). The post-tag subject is used as the bug summary, and the email body is parsed for a pseudo-header. Any text after the psuedo-header but before a possible line starting with BREAK is added as the initial bug comment. Comment emails... Control emails... Any changes made to the repository are commited after the email is executed, with the email's post-tag subject as the commit message. """ import codecs import cStringIO as StringIO import email from email.mime.multipart import MIMEMultipart import email.utils import os import os.path import re import shlex import sys import time import traceback import doctest import unittest from becommands import subscribe import libbe.cmdutil, libbe.encoding, libbe.utility, libbe.bugdir import libbe.diff import send_pgp_mime THIS_SERVER = u"thor.physics.drexel.edu" THIS_ADDRESS = u"BE Bugs " _THIS_DIR = os.path.abspath(os.path.dirname(__file__)) BE_DIR = _THIS_DIR LOGPATH = os.path.join(_THIS_DIR, u"be-handle-mail.log") LOGFILE = None # Tag strings generated by generate_global_tags() SUBJECT_TAG_BASE = u"be-bug" SUBJECT_TAG_RESPONSE = None SUBJECT_TAG_START = None SUBJECT_TAG_NEW = None SUBJECT_TAG_COMMENT = None SUBJECT_TAG_CONTROL = None BREAK = u"--" NEW_REQUIRED_PSEUDOHEADERS = [u"Version"] NEW_OPTIONAL_PSEUDOHEADERS = [u"Reporter", u"Assign", u"Depend", u"Severity", u"Status", u"Tag", u"Target"] CONTROL_COMMENT = u"#" ALLOWED_COMMANDS = [u"assign", u"comment", u"commit", u"depend", u"help", u"list", u"merge", u"new", u"open", u"severity", u"show", u"status", u"tag", u"target"] AUTOCOMMIT = True libbe.encoding.ENCODING = u"utf-8" # force default encoding ENCODING = libbe.encoding.get_encoding() class InvalidEmail (ValueError): def __init__(self, msg, message): ValueError.__init__(self, message) self.msg = msg def response(self): header = self.msg.response_header body = [u"Error processing email:\n", self.response_body(), u""] response_generator = \ send_pgp_mime.PGPMimeMessageFactory(u"\n".join(body)) response = MIMEMultipart() response.attach(response_generator.plain()) response.attach(self.msg.msg) ret = send_pgp_mime.attach_root(header, response) return ret def response_body(self): err_text = [unicode(self)] return u"\n".join(err_text) class InvalidSubject (InvalidEmail): def __init__(self, msg, message=None): if message == None: message = u"Invalid subject" InvalidEmail.__init__(self, msg, message) def response_body(self): err_text = u"\n".join([unicode(self), u"", u"full subject was:", self.msg.subject()]) return err_text class InvalidPseudoHeader (InvalidEmail): def response_body(self): err_text = [u"Invalid pseudo-header:\n", unicode(self)] return u"\n".join(err_text) class InvalidCommand (InvalidEmail): def __init__(self, msg, command, message=None): bigmessage = u"Invalid execution command '%s'" % command if message != None: bigmessage += u"\n%s" % message InvalidEmail.__init__(self, msg, bigmessage) self.command = command class InvalidOption (InvalidCommand): def __init__(self, msg, option, message=None): bigmessage = u"Invalid option '%s'" % (option) if message != None: bigmessage += u"\n%s" % message InvalidCommand.__init__(self, msg, info, command, bigmessage) self.option = option class NotificationFailed (Exception): def __init__(self, msg): bigmessage = "Notification failed: %s" % msg Exception.__init__(self, bigmessage) self.short_msg = msg class ID (object): """ Sometimes you want to reference the output of a command that hasn't been executed yet. ID is there for situations like > a = Command(msg, "new", ["create a bug"]) > b = Command(msg, "comment", [ID(a), "and comment on it"]) """ def __init__(self, command): self.command = command def extract_id(self): if hasattr(self, "cached_id"): return self.cached_id assert self.command.ret == 0, self.command.ret if self.command.command == u"new": regexp = re.compile(u"Created bug with ID (.*)") else: raise NotImplementedError, self.command.command match = regexp.match(self.command.stdout) assert len(match.groups()) == 1, str(match.groups()) self.cached_id = match.group(1) return self.cached_id def __str__(self): if self.command.ret != 0: return "" % repr(self.command) return "" % self.extract_id() class Command (object): """ A becommands command wrapper. Doesn't validate input, so do that before initializing. Initialize with Command(msg, command, args=None, stdin=None) where msg: the Message instance prompting this command command: name of becommand to execute, e.g. "new" args: list of arguments to pass to the command stdin: if non-null, a string to pipe into the command's stdin """ def __init__(self, msg, command, args=None, stdin=None): self.msg = msg self.command = command if args == None: self.args = [] else: self.args = args self.stdin = stdin self.ret = None self.stdout = None self.stderr = None self.err = None def __str__(self): return "" % (self.command, " ".join([str(s) for s in self.args])) def normalize_args(self): """ Expand any ID placeholders in self.args. """ for i,arg in enumerate(self.args): if isinstance(arg, ID): self.args[i] = arg.extract_id() def run(self): """ Attempt to execute the command whose info is given in the dictionary info. Returns the exit code, stdout, and stderr produced by the command. """ if self.command in [None, u""]: # don't accept blank commands raise InvalidCommand(self.msg, self, "Blank") elif self.command not in ALLOWED_COMMANDS: raise InvalidCommand(self.msg, self, "Not allowed") assert self.ret == None, u"running %s twice!" % unicode(self) self.normalize_args() # set stdin and catch stdout and stderr if self.stdin != None: new_stdin = StringIO.StringIO(self.stdin) orig___stdin = sys.__stdin__ sys.__stdin__ = new_stdin orig_stdin = sys.stdin sys.stdin = new_stdin new_stdout = codecs.getwriter(ENCODING)(StringIO.StringIO()) new_stderr = codecs.getwriter(ENCODING)(StringIO.StringIO()) orig_stdout = sys.stdout orig_stderr = sys.stderr sys.stdout = new_stdout sys.stderr = new_stderr # run the command os.chdir(BE_DIR) try: self.ret = libbe.cmdutil.execute(self.command, self.args, manipulate_encodings=False) except libbe.cmdutil.GetHelp: print libbe.cmdutil.help(command) except libbe.cmdutil.GetCompletions: self.err = InvalidOption(self.msg, self.command, u"--complete") except libbe.cmdutil.UsageError, e: self.err = InvalidCommand(self.msg, self, "%s\n%s" % (type(e), unicode(e))) except libbe.cmdutil.UserError, e: self.err = InvalidCommand(self.msg, self, "%s\n%s" % (type(e), unicode(e))) # restore stdin, stdout, and stderr if self.stdin != None: sys.__stdin__ = new_stdin sys.__stdin__ = orig___stdin sys.stdin = orig_stdin sys.stdout.flush() sys.stderr.flush() sys.stdout = orig_stdout sys.stderr = orig_stderr self.stdout = codecs.decode(new_stdout.getvalue(), ENCODING) self.stderr = codecs.decode(new_stderr.getvalue(), ENCODING) if self.err != None: raise self.err return (self.ret, self.stdout, self.stderr) def response_msg(self): response_body = [u"Results of running: (exit code %d)" % self.ret, u" %s %s" % (self.command, u" ".join(self.args))] if self.stdout != None and len(self.stdout) > 0: response_body.extend([u"", u"stdout:", u"", self.stdout]) if self.stderr != None and len(self.stderr) > 0: response_body.extend([u"", u"stderr:", u"", self.stderr]) response_body.append(u"") # trailing endline response_generator = \ send_pgp_mime.PGPMimeMessageFactory(u"\n".join(response_body)) return response_generator.plain() class DiffTree (libbe.diff.DiffTree): def report_string(self): return send_pgp_mime.flatten(self.report(), to_unicode=True) def make_root(self): return MIMEMultipart() def join(self, root, part): if part != None: root.attach(send_pgp_mime.encodedMIMEText(part)) def data_string(self, depth, indent=False): return libbe.diff.DiffTree.data_string(self, depth, indent=indent) class Diff (libbe.diff.Diff): def bug_add_string(self, bug): return bug.string(show_comments=True) def comment_summary_string(self, comment): return comment.string() class Message (object): def __init__(self, email_text): self.text = email_text p=email.Parser.Parser() self.msg=p.parsestr(self.text) if LOGFILE != None: LOGFILE.write(u"handling %s\n" % self.author_addr()) LOGFILE.write(u"\n%s\n\n" % self.text) def author_tuple(self): """ Extract and normalize the sender's email address. Returns a (name, email) tuple. """ if not hasattr(self, "author_tuple_cache"): self.author_tuple_cache = \ send_pgp_mime.source_email(self.msg, return_realname=True) return self.author_tuple_cache def author_addr(self): return email.utils.formataddr(self.author_tuple()) def author_name(self): return self.author_tuple()[0] def author_email(self): return self.author_tuple()[1] def default_msg_attribute_access(self, attr_name, default=None): if attr_name in self.msg: return self.msg[attr_name] return default def message_id(self, default=None): return self.default_msg_attribute_access("message-id", default=default) def subject(self): if "subject" not in self.msg: raise InvalidSubject(self, u"Email must contain a subject") return self.msg["subject"] def _split_subject(self): """ Returns (tag, subject), with missing values replaced by None. """ if hasattr(self, "_split_subject_cache"): return self._split_subject_cache args = self.subject().split(u"]",1) if len(args) < 1: self._split_subject_cache = (None, None) elif len(args) < 2: self._split_subject_cache = (args[0]+u"]", None) else: self._split_subject_cache = (args[0]+u"]", args[1].strip()) return self._split_subject_cache def _subject_tag_type(self): """ Parse subject tag, return (type, value), where type is one of None, "new", "comment", or "control"; and value is None except in the case of "comment", in which case it's the bug ID/shortname. """ tag,subject = self._split_subject() type = None value = None if tag == SUBJECT_TAG_NEW: type = u"new" elif tag == SUBJECT_TAG_CONTROL: type = u"control" else: match = SUBJECT_TAG_COMMENT.match(tag) if len(match.groups()) == 1: type = u"comment" value = match.group(1) return (type, value) def validate_subject(self): """ Validate the subject line. """ tag,subject = self._split_subject() if not tag.startswith(SUBJECT_TAG_START): raise InvalidSubject( self, u"Subject must start with '%s'" % SUBJECT_TAG_START) tag_type,value = self._subject_tag_type() if tag_type == None: raise InvalidSubject(self, u"Invalid tag '%s'" % tag) elif tag_type == u"new" and len(subject) == 0: raise InvalidSubject(self, u"Cannot create a bug with blank title") elif tag_type == u"comment" and len(value) == 0: raise InvalidSubject(self, u"Must specify a bug ID to comment") def _get_bodies_and_mime_types(self): """ Traverse the email message returning (body, mime_type) for each non-mulitpart portion of the message. """ for part in self.msg.walk(): if part.is_multipart(): continue body,mime_type=(part.get_payload(decode=1),part.get_content_type()) yield (body, mime_type) def _parse_body_pseudoheaders(self, body, required, optional, dictionary=None): """ Grab any pseudo-headers from the beginning of body. Raise InvalidPseudoHeader on errors. Returns the body text after the pseudo-header and a dictionary of set options. If you like, you can initialize the dictionary with some defaults and pass your initialized dict in as dictionary. """ if dictionary == None: dictionary = {} body_lines = body.splitlines() all = required+optional for i,line in enumerate(body_lines): line = line.strip() if len(line) == 0: break key,value = line.split(":", 1) value = value.strip() if key not in all: raise InvalidPseudoHeader(self, key) if len(value) == 0: raise InvalidEmail( self, u"Blank value for: %s" % key) dictionary[key] = value missing = [] for key in required: if key not in dictionary: missing.append(key) if len(missing) > 0: raise InvalidPseudoHeader(self, u"Missing required pseudo-headers:\n%s" % u", ".join(missing)) remaining_body = u"\n".join(body_lines[i:]).strip() return (remaining_body, dictionary) def _strip_footer(self, body): body_lines = body.splitlines() for i,line in enumerate(body_lines): if line.startswith(BREAK): break return u"\n".join(body_lines[:i]).strip() def parse(self): """ Parse the commands given in the email. Raises assorted subclasses of InvalidEmail in the case of invalid messages, otherwise returns a list of suggested commands to run. """ self.validate_subject() tag_type,value = self._subject_tag_type() commands = [] if tag_type == u"new": command = u"new" tag,subject = self._split_subject() summary = subject options = {u"Reporter": self.author_addr()} body,mime_type = list(self._get_bodies_and_mime_types())[0] comment_body,options = \ self._parse_body_pseudoheaders(body, NEW_REQUIRED_PSEUDOHEADERS, NEW_OPTIONAL_PSEUDOHEADERS, options) args = [u"--reporter", options[u"Reporter"]] args.append(summary) commands.append(Command(self, command, args)) comment_body = self._strip_footer(comment_body) id = ID(commands[0]) if len(comment_body) > 0: command = u"comment" comment = u"Version: %s\n\n"%options[u"Version"] + comment_body args = [u"--author", self.author_addr(), u"--alt-id", self.message_id(), u"--content-type", mime_type] args.append(id) args.append(u"-") commands.append(Command(self, u"comment", args, stdin=comment)) for key,value in options.items(): if key in [u"Version", u"Reporter"]: continue # we've already handled this option command = key.lower() args = [id, value] commands.append(Command(self, command, args)) elif tag_type == u"comment": command = u"comment" bug_id = value author = self.author_addr() alt_id = self.message_id() body,mime_type = list(self._get_bodies_and_mime_types())[0] if mime_type == "text/plain": body = self._strip_footer(body) content_type = mime_type args = [u"--author", author, u"--alt-id", alt_id, u"--content-type", content_type, bug_id, u"-"] commands.append(Command(self, command, args, stdin=body)) elif tag_type == u"control": body,mime_type = list(self._get_bodies_and_mime_types())[0] for line in body.splitlines(): line = line.strip() if line.startswith(CONTROL_COMMENT) or len(line) == 0: continue if line.startswith(BREAK): break fields = shlex.split(line) command,args = (fields[0], fields[1:]) commands.append(Command(self, command, args)) if len(commands) == 0: raise InvalidEmail(self, u"No commands in control email.") else: raise Exception, u"Unrecognized tag type '%s'" % tag_type return commands def run(self): self._begin_response() commands = self.parse() try: for command in commands: command.run() self._add_response(command.response_msg()) finally: if AUTOCOMMIT == True: tag,subject = self._split_subject() self.commit_command = Command(self, "commit", [subject]) self.commit_command.run() if LOGFILE != None: LOGFILE.write("Autocommit:\n%s\n\n" % send_pgp_mime.flatten(self.commit_command.response_msg(), to_unicode=True)) def _begin_response(self): tag,subject = self._split_subject() response_header = [u"From: %s" % THIS_ADDRESS, u"To: %s" % self.author_addr(), u"Date: %s" % libbe.utility.time_to_str(time.time()), u"Subject: %s Re: %s"%(SUBJECT_TAG_RESPONSE,subject) ] if self.message_id() != None: response_header.append(u"In-reply-to: %s" % self.message_id()) self.response_header = \ send_pgp_mime.header_from_text(text=u"\n".join(response_header)) self._response_messages = [] def _add_response(self, response_message): self._response_messages.append(response_message) def response_email(self): assert len(self._response_messages) > 0 if len(self._response_messages) == 1: response_body = self._response_messages[0] else: response_body = MIMEMultipart() for message in self._response_messages: response_body.attach(message) return send_pgp_mime.attach_root(self.response_header, response_body) def subscriber_emails(self): if AUTOCOMMIT != True: # no way to tell what's changed raise NotificationFailed("Autocommit dissabled") assert len(self._response_messages) > 0 if self.commit_command.ret != 0: # commit failed. Error already logged. raise NotificationFailed("Commit failed") # read only bugdir. bd = libbe.bugdir.BugDir(from_disk=True, manipulate_encodings=False) if bd.rcs.versioned == False: # no way to tell what's changed raise NotificationFailed("Not versioned") subscribers = subscribe.get_bugdir_subscribers(bd, THIS_SERVER) if len(subscribers) == 0: return [] before_bd, after_bd = self._get_before_and_after_bugdirs(bd) diff = Diff(before_bd, after_bd) diff_tree = diff.report_tree(diff_tree=DiffTree) bug_index = {} for child in diff_tree.child_by_path("/bugs/new"): bug_index[child.name] = ("added", child) for child in diff_tree.child_by_path("/bugs/mod"): bug_index[child.name] = ("modified", child) for child in diff_tree.child_by_path("/bugs/rem"): bug_index[child.name] = ("removed", child) header = self._subscriber_header(bd) emails = [] for subscriber,subscriptions in subscribers.items(): header.replace_header("to", subscriber) parts = [] for id,types in subscriptions.items(): if id == "DIR": if subscribe.BUGDIR_TYPE_ALL in types: parts.append(diff_tree.report()) break if subscribe.BUGDIR_TYPE_NEW in types: new = diff_tree.child_by_path("/bugs/new") parts.append(new.report()) continue # move on to next id assert types == [subscribe.BUG_TYPE_ALL], types type,bug_root = bug_index[id] parts.append(bug_root.report()) if len(parts) == 0: continue # no email to this subscriber elif len(parts) == 1: root = parts[0] else: # join subscription parts into a single body root = MIMEMultipart() for part in parts: root.attach(part) emails.append(send_pgp_mime.attach_root(header, root)) if LOGFILE != None: LOGFILE.write("Notfying %s of changes\n" % subscriber) return emails def _get_before_and_after_bugdirs(self, bd): commit_msg = self.commit_command.stdout assert commit_msg.startswith("Committed "), commit_msg after_revision = commit_msg[len("Committed "):] before_revision = bd.rcs.revision_id(-2) if before_revision == None: # this commit was the initial commit before_bd = libbe.bugdir.BugDir(from_disk=False, manipulate_encodings=False) else: before_bd = bd.duplicate_bugdir(before_revision) #after_bd = bd.duplicate_bugdir(after_revision) after_bd = bd # assume no changes since commit a few cycles ago return (before_bd, after_bd) def _subscriber_header(self, bd): root_dir = os.path.basename(bd.root) subject = "Changes to %s on %s by %s" \ % (root_dir, THIS_SERVER, self.author_addr()) header = [u"From: %s" % THIS_ADDRESS, u"To: %s" % u"DUMMY-AUTHOR", u"Date: %s" % libbe.utility.time_to_str(time.time()), u"Subject: %s Re: %s" % (SUBJECT_TAG_RESPONSE, subject) ] return send_pgp_mime.header_from_text(text=u"\n".join(header)) def generate_global_tags(tag_base=u"be-bug"): """ Generate a series of tags from a base tag string. """ global SUBJECT_TAG_BASE, SUBJECT_TAG_START, SUBJECT_TAG_RESPONSE, \ SUBJECT_TAG_NEW, SUBJECT_TAG_COMMENT, SUBJECT_TAG_CONTROL SUBJECT_TAG_BASE = tag_base SUBJECT_TAG_START = u"[%s" % tag_base SUBJECT_TAG_RESPONSE = u"[%s]" % tag_base SUBJECT_TAG_NEW = u"[%s:submit]" % tag_base SUBJECT_TAG_COMMENT = re.compile(u"\[%s:([\-0-9a-z]*)]" % tag_base) SUBJECT_TAG_CONTROL = SUBJECT_TAG_RESPONSE def open_logfile(logpath=None): """ If logpath=None, default to global LOGPATH. Special logpath strings: "-" set LOGFILE to sys.stderr "none" disable logging Relative logpaths are expanded relative to _THIS_DIR """ global LOGPATH, LOGFILE if logpath != None: if logpath == u"-": LOGPATH = u"stderr" LOGFILE = sys.stderr elif logpath == u"none": LOGPATH = u"none" LOGFILE = None elif os.path.isabs(logpath): LOGPATH = logpath else: LOGPATH = os.path.join(_THIS_DIR, logpath) if LOGFILE == None and LOGPATH != u"none": LOGFILE = codecs.open(LOGPATH, u"a+", ENCODING) LOGFILE.write(u"Default encoding: %s\n" % ENCODING) def close_logfile(): if LOGFILE != None and LOGPATH not in [u"stderr", u"none"]: LOGFILE.close() def test(): unitsuite = unittest.TestLoader().loadTestsFromModule(sys.modules[__name__]) suite = unittest.TestSuite([unitsuite, doctest.DocTestSuite()]) result = unittest.TextTestRunner(verbosity=2).run(suite) num_errors = len(result.errors) num_failures = len(result.failures) num_bad = num_errors + num_failures return num_bad def main(): from optparse import OptionParser global AUTOCOMMIT, BE_DIR usage="be-handle-mail [options]\n\n%s" % (__doc__) parser = OptionParser(usage=usage) parser.add_option('-b', '--be-dir', dest='be_dir', default=BE_DIR, metavar="DIR", help='Select the BE directory to serve (%default).') parser.add_option('-t', '--tag-base', dest='tag_base', default=SUBJECT_TAG_BASE, metavar="TAG", help='Set the subject tag base (%default).') parser.add_option('-o', '--output', dest='output', action='store_true', help="Don't mail the generated message, print it to stdout instead. Useful for testing be-handle-mail functionality without the whole mail transfer agent and procmail setup.") parser.add_option('-l', '--logfile', dest='logfile', metavar='LOGFILE', help='Set the logfile to LOGFILE. Relative paths are relative to the location of this be-handle-mail file (%s). The special value of "-" directs the log output to stderr, and "none" disables logging.' % _THIS_DIR) parser.add_option('-a', '--disable-autocommit', dest='autocommit', default=True, action='store_false', help='Disable the autocommit after parsing the email.') parser.add_option('-s', '--disable-subscribers', dest='subscribers', default=True, action='store_false', help='Disable subscriber notification emails.') parser.add_option('--test', dest='test', action='store_true', help='Run internal unit-tests and exit.') options,args = parser.parse_args() if options.test == True: num_bad = test() if num_bad > 126: num_bad = 1 sys.exit(num_bad) BE_DIR = options.be_dir AUTOCOMMIT = options.autocommit generate_global_tags(options.tag_base) msg_text = sys.stdin.read() libbe.encoding.set_IO_stream_encodings(ENCODING) # _after_ reading message open_logfile(options.logfile) if len(msg_text.strip()) == 0: # blank email!? if LOGFILE != None: LOGFILE.write(u"Blank email!\n") close_logfile() sys.exit(1) try: m = Message(msg_text) m.run() except InvalidEmail, e: response = e.response() except Exception, e: if LOGFILE != None: LOGFILE.write(u"Uncaught exception:\n%s\n" % (e,)) traceback.print_tb(sys.exc_traceback, file=LOGFILE) close_logfile() sys.exit(1) else: response = m.response_email() if options.output == True: print send_pgp_mime.flatten(response, to_unicode=True) else: if LOGFILE != None: LOGFILE.write(u"sending response to %s\n" % m.author_addr()) LOGFILE.write(u"\n%s\n\n" % send_pgp_mime.flatten(response, to_unicode=True)) send_pgp_mime.mail(response, send_pgp_mime.sendmail) if options.subscribers == True: LOGFILE.write(u"Checking for subscribers\n") try: emails = m.subscriber_emails() except NotificationFailed, e: LOGFILE.write(unicode(e) + u"\n") else: for msg in emails: if options.output == True: print send_pgp_mime.flatten(msg, to_unicode=True) else: send_pgp_mime.mail(msg, send_pgp_mime.sendmail) close_logfile() class GenerateGlobalTagsTestCase (unittest.TestCase): def setUp(self): super(GenerateGlobalTagsTestCase, self).setUp() self.save_global_tags() def tearDown(self): self.restore_global_tags() super(GenerateGlobalTagsTestCase, self).tearDown() def save_global_tags(self): self.saved_globals = [SUBJECT_TAG_BASE, SUBJECT_TAG_START, SUBJECT_TAG_RESPONSE, SUBJECT_TAG_NEW, SUBJECT_TAG_COMMENT, SUBJECT_TAG_CONTROL] def restore_global_tags(self): global SUBJECT_TAG_BASE, SUBJECT_TAG_START, SUBJECT_TAG_RESPONSE, \ SUBJECT_TAG_NEW, SUBJECT_TAG_COMMENT, SUBJECT_TAG_CONTROL SUBJECT_TAG_BASE, SUBJECT_TAG_START, SUBJECT_TAG_RESPONSE, \ SUBJECT_TAG_NEW, SUBJECT_TAG_COMMENT, SUBJECT_TAG_CONTROL = \ self.saved_globals def test_restore_global_tags(self): "Test global tag restoration by teardown function." global SUBJECT_TAG_BASE self.failUnlessEqual(SUBJECT_TAG_BASE, u"be-bug") SUBJECT_TAG_BASE = "projectX-bug" self.failUnlessEqual(SUBJECT_TAG_BASE, u"projectX-bug") self.restore_global_tags() self.failUnlessEqual(SUBJECT_TAG_BASE, u"be-bug") def test_subject_tag_base(self): "Should set SUBJECT_TAG_BASE global correctly" generate_global_tags(u"projectX-bug") self.failUnlessEqual(SUBJECT_TAG_BASE, u"projectX-bug") def test_subject_tag_start(self): "Should set SUBJECT_TAG_START global correctly" generate_global_tags(u"projectX-bug") self.failUnlessEqual(SUBJECT_TAG_START, u"[projectX-bug") def test_subject_tag_response(self): "Should set SUBJECT_TAG_RESPONSE global correctly" generate_global_tags(u"projectX-bug") self.failUnlessEqual(SUBJECT_TAG_RESPONSE, u"[projectX-bug]") def test_subject_tag_new(self): "Should set SUBJECT_TAG_NEW global correctly" generate_global_tags(u"projectX-bug") self.failUnlessEqual(SUBJECT_TAG_NEW, u"[projectX-bug:submit]") def test_subject_tag_control(self): "Should set SUBJECT_TAG_CONTROL global correctly" generate_global_tags(u"projectX-bug") self.failUnlessEqual(SUBJECT_TAG_CONTROL, u"[projectX-bug]") def test_subject_tag_comment(self): "Should set SUBJECT_TAG_COMMENT global correctly" generate_global_tags(u"projectX-bug") m = SUBJECT_TAG_COMMENT.match("[projectX-bug:xyz-123]") self.failUnlessEqual(len(m.groups()), 1) self.failUnlessEqual(m.group(1), u"xyz-123") if __name__ == "__main__": main()