Mercurial > p > roundup > code
view roundup/backends/sessions_rdbms.py @ 7399:deb8e7e6d66d
Skip redis tests if unable to communicate with the server.
If the redis module is in the test environment, the redis tests will
not be skipped. If connecting to redis during testing fails with a
ConnectionError because there is no redis server at localhost, or if
it fails with an AuthenticationError, you would fail a slew of tests.
This causes the tests to report as skipped if either of the two errors
occurs. It is very inefficient as it fails in setup() for the tests,
but at least it does report skipping the tests.
Also documented how to pass the redis password to the tests in the
test part of the install docs. Future note: running tests needs proper
docs in development.txt (including database setup) and a link left to
that doc in installation.txt.
| author | John Rouillard <rouilj@ieee.org> |
|---|---|
| date | Wed, 24 May 2023 12:52:53 -0400 |
| parents | fe0091279f50 |
| children | ee17f62c8341 |
line wrap: on
line source
"""This module defines a very basic store that's used by the CGI interface to store session and one-time-key information. Yes, it's called "sessions" - because originally it only defined a session class. It's now also used for One Time Key handling too. """ __docformat__ = 'restructuredtext' import time from roundup.anypy.html import html_escape as escape from roundup.backends.sessions_common import SessionCommon class BasicDatabase(SessionCommon): ''' Provide a nice encapsulation of an RDBMS table. Keys are id strings, values are automatically marshalled data. ''' name = None def __init__(self, db): self.db = db self.conn, self.cursor = self.db.sql_open_connection() def clear(self): self.cursor.execute('delete from %ss' % self.name) def exists(self, infoid): n = self.name self.cursor.execute('select count(*) from %ss where %s_key=%s' % (n, n, self.db.arg), (infoid,)) return int(self.cursor.fetchone()[0]) _marker = [] def get(self, infoid, value, default=_marker): n = self.name self.cursor.execute('select %s_value from %ss where %s_key=%s' % (n, n, n, self.db.arg), (infoid,)) res = self.cursor.fetchone() if not res: if default != self._marker: return default raise KeyError('No such %s "%s"' % (self.name, escape(infoid))) values = eval(res[0]) return values.get(value, None) def getall(self, infoid): n = self.name self.cursor.execute('select %s_value from %ss where %s_key=%s' % (n, n, n, self.db.arg), (infoid,)) res = self.cursor.fetchone() if not res: raise KeyError('No such %s "%s"' % (self.name, escape(infoid))) return eval(res[0]) def set(self, infoid, **newvalues): """ Store all newvalues under key infoid with a timestamp in database. If newvalues['__timestamp'] exists and is representable as a floating point number (i.e. could be generated by time.time()), that value is used for the <name>_time column in the database. """ c = self.cursor n = self.name a = self.db.arg c.execute('select %s_value from %ss where %s_key=%s' % (n, n, n, a), (infoid,)) res = c.fetchone() timestamp = time.time() if res: values = eval(res[0]) else: values = {} if '__timestamp' in newvalues: try: # __timestamp must be representable as a float. Check it. timestamp = float(newvalues['__timestamp']) except ValueError: if res: # keep the original timestamp del(newvalues['__timestamp']) else: # here timestamp is the new timestamp newvalues['__timestamp'] = timestamp values.update(newvalues) if res: sql = ('update %ss set %s_value=%s, %s_time=%s ' 'where %s_key=%s' % (n, n, a, n, a, n, a)) args = (repr(values), timestamp, infoid) else: sql = 'insert into %ss (%s_key, %s_time, %s_value) '\ 'values (%s, %s, %s)' % (n, n, n, n, a, a, a) args = (infoid, timestamp, repr(values)) c.execute(sql, args) def list(self): c = self.cursor n = self.name c.execute('select %s_key from %ss' % (n, n)) return [res[0] for res in c.fetchall()] def destroy(self, infoid): self.cursor.execute('delete from %ss where %s_key=%s' % (self.name, self.name, self.db.arg), (infoid,)) def updateTimestamp(self, infoid): """ don't update every hit - once a minute should be OK """ now = time.time() self.cursor.execute('''update %ss set %s_time=%s where %s_key=%s ''' '''and %s_time < %s''' % (self.name, self.name, self.db.arg, self.name, self.db.arg, self.name, self.db.arg), (now, infoid, now-60)) def clean(self): ''' Remove session records that haven't been used for a week. ''' now = time.time() week = 60*60*24*7 old = now - week self.cursor.execute('delete from %ss where %s_time < %s' % (self.name, self.name, self.db.arg), (old, )) def commit(self): self.log_info('commit %s' % self.name) self.conn.commit() self.cursor = self.conn.cursor() def lifetime(self, item_lifetime=0): """Return the proper timestamp for a key with key_lifetime specified in seconds. Default lifetime is 0. """ now = time.time() week = 60*60*24*7 return now - week + item_lifetime def close(self): self.conn.close() class Sessions(BasicDatabase): name = 'session' class OneTimeKeys(BasicDatabase): name = 'otk' # vim: set et sts=4 sw=4 :