import types
import os
import re
import logging
import urllib
import hmac
import hashlib
from urlparse import urlparse
from email import header
from datetime import timedelta, datetime
from hashlib import sha256
import iso8601
import pymongo
from pylons import c, g, request
from ming import schema as S
from ming import Field, collection
from ming.orm import session, state
from ming.orm import FieldProperty, RelationProperty, ForeignIdProperty
from ming.orm.declarative import MappedClass
import allura.tasks.mail_tasks
from allura.lib import helpers as h
from allura.lib import plugin
from .session import main_orm_session, main_doc_session
from .session import project_orm_session
from .timeline import ActivityNode, ActivityObject
log = logging.getLogger(__name__)
def smart_str(s, encoding='utf-8', strings_only=False, errors='strict'):
"""
Returns a bytestring version of 's', encoded as specified in 'encoding'.
If strings_only is True, don't convert (some) non-string-like objects.
This function was borrowed from Django
"""
if strings_only and isinstance(s, (types.NoneType, int)):
return s
elif not isinstance(s, basestring):
try:
return str(s)
except UnicodeEncodeError:
if isinstance(s, Exception):
# An Exception subclass containing non-ASCII data that doesn't
# know how to print itself properly. We shouldn't raise a
# further exception.
return ' '.join([smart_str(arg, encoding, strings_only,
errors) for arg in s])
return unicode(s).encode(encoding, errors)
elif isinstance(s, unicode):
r = s.encode(encoding, errors)
return r
elif s and encoding != 'utf-8':
return s.decode('utf-8', errors).encode(encoding, errors)
else:
return s
def generate_smart_str(params):
for (key, value) in params:
yield smart_str(key), smart_str(value)
def urlencode(params):
"""
A version of Python's urllib.urlencode() function that can operate on
unicode strings. The parameters are first case to UTF-8 encoded strings and
then encoded as per normal.
"""
return urllib.urlencode([i for i in generate_smart_str(params)])
class ApiAuthMixIn(object):
def authenticate_request(self, path, params):
try:
# Validate timestamp
timestamp = iso8601.parse_date(params['api_timestamp'])
timestamp_utc = timestamp.replace(tzinfo=None) - timestamp.utcoffset()
if abs(datetime.utcnow() - timestamp_utc) > timedelta(minutes=10):
return False
# Validate signature
api_signature = params['api_signature']
params = sorted((k,v) for k,v in params.iteritems() if k != 'api_signature')
string_to_sign = path + '?' + urlencode(params)
digest = hmac.new(self.secret_key, string_to_sign, hashlib.sha256)
return digest.hexdigest() == api_signature
except KeyError:
return False
def sign_request(self, path, params):
if hasattr(params, 'items'): params = params.items()
has_api_key = has_api_timestamp = has_api_signature = False
for k,v in params:
if k == 'api_key': has_api_key = True
if k == 'api_timestamp': has_api_timestamp = True
if k == 'api_signature': has_api_signature = True
if not has_api_key:
params.append(('api_key', self.api_key))
if not has_api_timestamp:
params.append(('api_timestamp', datetime.utcnow().isoformat()))
if not has_api_signature:
string_to_sign = urllib.quote(path) + '?' + urlencode(sorted(params))
digest = hmac.new(self.secret_key, string_to_sign, hashlib.sha256)
params.append(('api_signature', digest.hexdigest()))
return params
def get_capability(self, key):
return None
class ApiToken(MappedClass, ApiAuthMixIn):
class __mongometa__:
name='api_token'
session = main_orm_session
unique_indexes = [ 'user_id' ]
_id = FieldProperty(S.ObjectId)
user_id = ForeignIdProperty('User')
api_key = FieldProperty(str, if_missing=lambda:h.nonce(20))
secret_key = FieldProperty(str, if_missing=h.cryptographic_nonce)
user = RelationProperty('User')
@classmethod
def get(cls, api_key):
return cls.query.get(api_key=api_key)
class ApiTicket(MappedClass, ApiAuthMixIn):
class __mongometa__:
name='api_ticket'
session = main_orm_session
PREFIX = 'tck'
_id = FieldProperty(S.ObjectId)
user_id = ForeignIdProperty('User')
api_key = FieldProperty(str, if_missing=lambda: ApiTicket.PREFIX + h.nonce(20))
secret_key = FieldProperty(str, if_missing=h.cryptographic_nonce)
expires = FieldProperty(datetime, if_missing=None)
capabilities = FieldProperty({str:None})
mod_date = FieldProperty(datetime, if_missing=datetime.utcnow)
user = RelationProperty('User')
@classmethod
def get(cls, api_ticket):
if not api_ticket.startswith(cls.PREFIX):
return None
return cls.query.get(api_key=api_ticket)
def authenticate_request(self, path, params):
if self.expires and datetime.utcnow() > self.expires:
return False
return ApiAuthMixIn.authenticate_request(self, path, params)
def get_capability(self, key):
return self.capabilities.get(key)
class EmailAddress(MappedClass):
re_format = re.compile('^.* <(.*)>$')
class __mongometa__:
name='email_address'
session = main_orm_session
indexes = [
'claimed_by_user_id']
_id = FieldProperty(str)
claimed_by_user_id=FieldProperty(S.ObjectId, if_missing=None)
confirmed = FieldProperty(bool)
nonce = FieldProperty(str)
def claimed_by_user(self):
return User.query.get(_id=self.claimed_by_user_id)
@classmethod
def upsert(cls, addr):
addr = cls.canonical(addr)
result = cls.query.get(_id=addr)
if not result:
result = cls(_id=addr)
return result
@classmethod
def canonical(cls, addr):
mo = cls.re_format.match(addr)
if mo:
addr = mo.group(1)
if '@' in addr:
user, domain = addr.split('@')
return '%s@%s' % (user, domain.lower())
else:
return 'nobody@example.com'
def send_verification_link(self):
self.nonce = sha256(os.urandom(10)).hexdigest()
log.info('Sending verification link to %s', self._id)
text = '''
To verify the email address %s belongs to the user %s,
please visit the following URL:
%s
''' % (self._id, self.claimed_by_user().username, g.url('/auth/verify_addr', a=self.nonce))
log.info('Verification email:\n%s', text)
allura.tasks.mail_tasks.sendmail.post(
destinations=[self._id],
fromaddr=self._id,
reply_to='',
subject='Email address verification',
message_id=h.gen_message_id(),
text=text)
class OpenId(MappedClass):
class __mongometa__:
name='openid'
session = main_orm_session
_id = FieldProperty(str)
claimed_by_user_id=FieldProperty(S.ObjectId, if_missing=None)
display_identifier=FieldProperty(str)
@classmethod
def upsert(cls, url, display_identifier):
result = cls.query.get(_id=url)
if not result:
result = cls(
_id=url,
display_identifier=display_identifier)
return result
def claimed_by_user(self):
if self.claimed_by_user_id:
result = User.query.get(_id=self.claimed_by_user_id)
else: # pragma no cover
result = User.register(
dict(username=None, password=None,
display_name=self.display_identifier,
open_ids=[self._id]),
make_project=False)
self.claimed_by_user_id = result._id
return result
class AuthGlobals(MappedClass):
class __mongometa__:
name='auth_globals'
session = main_orm_session
_id = FieldProperty(int)
next_uid = FieldProperty(int, if_missing=10000)
@classmethod
def upsert(cls):
r = cls.query.get()
if r is not None: return r
try:
r = cls(_id=0)
session(r).flush(r)
return r
except pymongo.errors.DuplicateKeyError: # pragma no cover
session(r).flush(r)
r = cls.query.get()
return r
@classmethod
def get_next_uid(cls):
cls.upsert()
g = cls.query.find_and_modify(
query={}, update={'$inc':{'next_uid': 1}},
new=True)
return g.next_uid
class User(MappedClass, ActivityNode, ActivityObject):
SALT_LEN=8
class __mongometa__:
name='user'
session = main_orm_session
indexes = [ 'tool_data.sfx.userid' ]
unique_indexes = [ 'username' ]
_id=FieldProperty(S.ObjectId)
sfx_userid=FieldProperty(S.Deprecated)
username=FieldProperty(str)
open_ids=FieldProperty([str])
email_addresses=FieldProperty([str])
password=FieldProperty(str)
projects=FieldProperty(S.Deprecated)
tool_preferences=FieldProperty({str:{str:None}}) # full mount point: prefs dict
tool_data = FieldProperty({str:{str:None}}) # entry point: prefs dict
# Don't use directly, use get/set_pref() instead
display_name=FieldProperty(str)
preferences=FieldProperty(dict(
results_per_page=int,
email_address=str,
email_format=str))
@property
def activity_name(self):
return self.display_name or self.username
def get_pref(self, pref_name):
return plugin.UserPreferencesProvider.get().get_pref(self, pref_name)
def set_pref(self, pref_name, pref_value):
return plugin.UserPreferencesProvider.get().set_pref(self, pref_name, pref_value)
def url(self):
return plugin.AuthenticationProvider.get(request).project_url(self)
def icon_url(self):
icon_url = None
if self.private_project() and self.private_project().icon:
icon_url = self.url()+'user_icon'
elif self.preferences.email_address:
icon_url = g.gravatar(self.preferences.email_address, default=None)
return icon_url
@classmethod
def upsert(cls, username):
u = cls.query.get(username=username)
if u is not None: return u
try:
u = cls(username=username)
session(u).flush(u)
except pymongo.errors.DuplicateKeyError:
session(u).expunge(u)
u = cls.query.get(username=username)
return u
@classmethod
def by_email_address(cls, addr):
ea = EmailAddress.query.get(_id=addr)
if ea is None: return None
return ea.claimed_by_user()
@classmethod
def by_username(cls, name):
if not name:
return cls.anonymous()
user = cls.query.get(username=name)
if user:
return user
return plugin.AuthenticationProvider.get(request).by_username(name)
@classmethod
def by_display_name(cls, name):
return plugin.UserPreferencesProvider.get().find_by_display_name(name)
def get_tool_data(self, tool, key, default=None):
return self.tool_data.get(tool, {}).get(key, None)
def set_tool_data(self, tool, **kw):
d = self.tool_data.setdefault(tool, {})
d.update(kw)
state(self).soil()
def address_object(self, addr):
return EmailAddress.query.get(_id=addr, claimed_by_user_id=self._id)
def openid_object(self, oid):
return OpenId.query.get(_id=oid, claimed_by_user_id=self._id)
def claim_openid(self, oid_url):
oid_obj = OpenId.upsert(oid_url, self.get_pref('display_name'))
oid_obj.claimed_by_user_id = self._id
if oid_url in self.open_ids: return
self.open_ids.append(oid_url)
def claim_address(self, email_address):
addr = EmailAddress.canonical(email_address)
email_addr = EmailAddress.upsert(addr)
email_addr.claimed_by_user_id = self._id
if addr in self.email_addresses: return
self.email_addresses.append(addr)
def claim_only_addresses(self, *addresses):
'''Claims the listed addresses and no others, setting the confirmed
attribute to True on all.
'''
self.email_addresses = [
EmailAddress.canonical(a) for a in addresses ]
addresses = set(self.email_addresses)
for addr in EmailAddress.query.find(
dict(claimed_by_user_id=self._id)):
if addr._id in addresses:
if not addr.confirmed: addr.confirmed = True
addresses.remove(addr._id)
else:
addr.delete()
for a in addresses:
addr = EmailAddress.upsert(a)
addr.claimed_by_user_id = self._id
addr.confirmed = True
@classmethod
def register(cls, doc, make_project=True):
from allura import model as M
from forgewiki import model as WM
user = plugin.AuthenticationProvider.get(request).register_user(doc)
if user and 'display_name' in doc:
user.set_pref('display_name', doc['display_name'])
if user and make_project:
n = M.Neighborhood.query.get(name='Users')
p = n.register_project('u/' + user.username, user=user, user_project=True)
# Allow for special user-only tools
p._extra_tool_status = ['user']
# add user project informative text to home
home_app = p.app_instance('wiki')
home_page = WM.Page.query.get(app_config_id=home_app.config._id)
home_page.text = ("This is the personal project of %s."
" This project is created automatically during user registration"
" as an easy place to store personal data that doesn't need its own"
" project such as cloned repositories.") % user.display_name
return user
def private_project(self):
'''
Returns the personal user-project for the user
'''
from .project import Project
try:
return Project.query.get(shortname='u/%s' % self.username, deleted=False)
except S.Invalid:
log.exception('Error retrieving private_project for %s', self.username)
return None
@property
def script_name(self):
return '/u/' + self.username + '/'
def my_projects(self):
'''Find the projects for which this user has a named role.'''
reaching_role_ids = g.credentials.user_roles(user_id=self._id).reaching_ids_set
reaching_roles = [ ProjectRole.query.get(_id=i) for i in reaching_role_ids ]
named_roles = [ r for r in reaching_roles
if r.name and r.project and not r.project.deleted ]
seen_project_ids = set()
for r in named_roles:
if r.project_id in seen_project_ids: continue
seen_project_ids.add(r.project_id)
yield r.project
def project_role(self, project=None):
if project is None: project = c.project
if self._id is None:
return ProjectRole.anonymous(project)
else:
return ProjectRole.upsert(user_id=self._id, project_id=project.root_project._id)
def set_password(self, new_password):
return plugin.AuthenticationProvider.get(request).set_password(
self, self.password, new_password)
@classmethod
def anonymous(cls):
return User.query.get(_id=None)
def email_address_header(self):
h = header.Header()
h.append(u'"%s" ' % self.get_pref('display_name'))
h.append(u'<%s>' % self.get_pref('email_address'))
return h
class OldProjectRole(MappedClass):
class __mongometa__:
session = project_orm_session
name='user'
unique_indexes = [ ('user_id', 'project_id', 'name') ]
class ProjectRole(MappedClass):
"""
Per-project roles, called "Groups" in the UI.
This can be a proxy for a single user. It can also inherit roles.
:var user_id: used if this role is for a single user
:var project_id:
:var name:
:var roles: a list of other ProjectRole objectids
"""
class __mongometa__:
session = main_orm_session
name='project_role'
unique_indexes = [ ('user_id', 'project_id', 'name') ]
indexes = [
('user_id',),
('project_id',),
('roles',)
]
_id = FieldProperty(S.ObjectId)
user_id = ForeignIdProperty('User', if_missing=None)
project_id = ForeignIdProperty('Project', if_missing=None)
name = FieldProperty(str)
roles = FieldProperty([S.ObjectId])
user = RelationProperty('User')
project = RelationProperty('Project')
def __init__(self, **kw):
assert 'project_id' in kw, 'Project roles must specify a project id'
super(ProjectRole, self).__init__(**kw)
def display(self):
if self.name: return self.name
if self.user_id:
u = self.user
if u.username: uname = u.username
elif u.get_pref('display_name'): uname = u.get_pref('display_name')
else: uname = u._id
return '*user-%s' % uname
return '**unknown name role: %s' % self._id # pragma no cover
@classmethod
def by_user(cls, user=None, project=None):
if user is None and project is None:
return c.user.current_project_role
if user is None: user = c.user
if project is None: project = c.project
pr = cls.query.get(
user_id=user._id,
project_id=project.root_project._id)
if pr is None:
pr = cls.query.get(
user_id=user._id,
project_id={'$exists':False})
return pr
@classmethod
def by_name(cls, name, project=None):
if project is None: project = c.project
if hasattr(project, 'root_project'):
project = project.root_project
if hasattr(project, '_id'):
project_id = project._id
else:
project_id = project
role = cls.query.get(
name=name,
project_id=project_id)
return role
@classmethod
def anonymous(cls, project=None):
return cls.by_name('*anonymous', project)
@classmethod
def authenticated(cls, project=None):
return cls.by_name('*authenticated', project)
@classmethod
def upsert(cls, **kw):
obj = cls.query.get(**kw)
if obj is not None: return obj
try:
obj = cls(**kw)
session(obj).insert_now(obj, state(obj))
except pymongo.errors.DuplicateKeyError:
session(obj).expunge(obj)
obj = cls.query.get(**kw)
return obj
@property
def special(self):
if self.name:
return '*' == self.name[0]
if self.user_id:
return True
return False # pragma no cover
@property
def user(self):
if (self.user_id is None
and self.name
and self.name != '*anonymous'):
return None
return User.query.get(_id=self.user_id)
@property
def settings_href(self):
if self.name in ('Admin', 'Developer', 'Member'):
return None
return self.project.url() + 'admin/groups/' + str(self._id) + '/'
def parent_roles(self):
return self.query.find({'roles': self._id}).all()
def child_roles(self):
to_check = []+self.roles
found_roles = []
while to_check:
checking = to_check.pop()
for role in self.query.find({'_id': checking}).all():
if role not in found_roles:
found_roles.append(role)
to_check=to_check+role.roles
return found_roles
def users_with_role(self, project=None):
if not project:
project = c.project
return self.query.find(dict(project_id=project._id,
user_id={'$ne': None}, roles=self._id)).all()
audit_log = collection(
'audit_log', main_doc_session,
Field('_id', S.ObjectId()),
Field('project_id', S.ObjectId, if_missing=None),
Field('user_id', S.ObjectId, if_missing=None),
Field('timestamp', datetime, if_missing=datetime.utcnow),
Field('url', str),
Field('message', str))
class AuditLog(object):
@property
def timestamp_str(self):
return self.timestamp.strftime('%Y-%m-%d %H:%M:%S')
@property
def url_str(self):
scheme, netloc, path, params, query, fragment = urlparse(self.url)
s = path
if params:
s += ';' + params
if query:
s += '?' + query
if fragment:
s += '#' + fragment
return s
@classmethod
def log(cls, message, *args, **kwargs):
project = kwargs.pop('project', c.project)
user = kwargs.pop('user', c.user)
url = kwargs.pop('url', request.url)
if args:
message = message % args
elif kwargs:
message = message % kwargs
return cls(project_id=project._id, user_id=user._id, url=url, message=message)
main_orm_session.mapper(AuditLog, audit_log, properties=dict(
project_id=ForeignIdProperty('Project'),
project=RelationProperty('Project'),
user_id=ForeignIdProperty('User'),
user=RelationProperty('User')))