Python library for integrating with Microsoft Active Directory
Project description
ms_active_directory - A Library for Integrating with Microsoft Active Directory
This is a library for integrating with Microsoft Active Directory domains.
It supports a variety of common, critical functionality for integration of computers into a domain, including the ability to discover domain resources, optimize communication for speed, join a computer to the domain, and look up information about users and groups in the domain.
It primarily builds on the LDAP protocol, and supports LDAP over TLS with channel bindings,
and all LDAP basic, NTLM, and SASL authentication mechanisms (e.g. Kerberos) supported by the
ldap3
python library.
For more detailed documentation, please see the docs at:
https://ms-active-directory.readthedocs.io/
Author: Azaria Zornberg
Email: a.zornberg96@gmail.com
Key Features
- Joining a computer to a domain, either by creating a new computer account or taking over an existing account.
- Discovering domain resources and properties, optimizing domain communication for the network
- Discovering trusted domains, including MIT Kerberos domains and trusted Active Directory domains, and their attributes (e.g. are the trusts transitive? is SID filtering used? what direction is the trust?)
- Transferring authenticated sessions from one domain to its trusted domains, allowing for easy querying capability across domains for widely trusted users. This can be used to trace foreign security principals across domains without needing to spin up and manage new domain objects for each.
- Finding users, computers, and groups based on a variety of properties (e.g. name, SID, user-specified properties)
- Querying information about users, computers, groups, and generic objects
- Looking up user, computer, and group memberships
- Looking up members of groups, regardless of type, and their attributes. This can also be done with auto-recursion for nested groups.
- Adding and removing users, computers, and groups to and from other groups
- Account management functionality for both users and computers, such as password changes/resets, enabling, disabling, and unlocking accounts
- Looking up information about the permissions set on a user, computer, group, or generic object
- Adding permissions to the security descriptor for a user, computer, group, or generic object
- Support for updating attributes of users, computers, groups, and generic objects. Support exists for atomically appending or overwriting values.
- Support for finding policies within a domain, and for finding the policies directly attached to any given object.
Examples
Discovering a domain
The library supports discovering LDAP and Kerberos servers within a domain using special DNS entries defined for Active Directory.
Smart Defaults
By default, it will use the system DNS configuration, find LDAP servers that support TLS, and sort LDAP and Kerberos servers by the RTT to communicate with them.
from ms_active_directory import ADDomain
example_domain_dns_name = 'example.com'
domain = ADDomain(example_domain_dns_name)
ldap_servers = domain.get_ldap_uris()
kerberos_servers = domain.get_kerberos_uris()
# re-discover servers in dns and sort them by RTT again at a later time to pick up changes
domain.refresh_ldap_server_discovery()
domain.refresh_kerberos_server_discovery()
Site Awareness and Flexible DNS
The library also supports site awareness, which will result in only discovering servers within a specified Active Directory Site. You can also specify alternative DNS nameservers to use instead of the system ones.
from ms_active_directory import ADDomain
example_domain_dns_name = 'example.com'
site_name = 'us-eastern-datacenter'
domain = ADDomain(example_domain_dns_name, site=site_name,
dns_nameservers=['eastern-private-dns-01.local'])
Network Multi-Tenancy and Security Support
You can also specify exactly which LDAP or Kerberos servers should be used, and skip discovery. Additional configurations are available such as configuring the CA file path to use for trust, and the source IP to use for outbound traffic to the domain, which is helpful when there are firewall rules in place, or when a machine has both private and public IP addresses.
from ms_active_directory import ADDomain
example_domain_dns_name = 'example.com'
local_machine_ip = '10.251.12.1'
local_ldap_ip = '10.251.12.30'
public_machine_ip = '194.32.21.30'
# the servers that live on the public internet use well-known public
# CAs for trust, but we have a local CA for the private network servers
private_securing_cas = '/etc/internal-ca.cert'
# set up an object for the local domain in the same network as this machine,
# but also have an instance that can be used to make instances to reach out
# to the rest of the domain outside of the local private network
local_domain = ADDomain(example_domain_dns_name, ldap_servers_or_uris=[local_ldap_ip],
source_ip=local_ldap_ip, ca_certificates_file_path=private_securing_cas)
global_domain = ADDomain(example_domain_dns_name, source_ip=public_machine_ip)
Establishing a session with a domain
You can establish a session with the AD Domain on behalf of either a user or computer.
Broadly, any keyword arguments that would normally be supported when creating a Connection
with the ldap3
library are supported when creating a session, allowing
for flexibility while still providing an "it just works" option for
most users.
Support for Computer Authentication
Computers default to using Kerberos SASL authentication, as SIMPLE authentication is
not support for computers with Active Directory.
To use kerberos, either gssapi
or winkerberos
must be
installed.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
# when using kerberos auth, the default is to use the kerberos
# credential cache on the machine, so no password is needed
computer_name = 'machine01'
session1 = domain.create_session_as_computer(computer_name)
# but you can pass sasl credentials, and if you use gssapi you can
# specify a username and password
# see the ldap3 documentation for details on SASL credentials and other
# connection options
other_name = 'other-machine-identity'
password = 'password01'
session2 = domain.create_session_as_computer(other_name, sasl_credentials=('', other_name, password))
You can also use other authentication mechanisms like NTLM.
from ldap3 import NTLM
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
ntlm_name = 'EXAMPLE.COM\\computer01'
password = 'password1'
session = domain.create_session_as_computer(ntlm_name, password, authentication_mechanism=NTLM)
Support for User Authentication
You can authenticate as a user by using simple binds, or by using SASL mechanisms or NTLM as computers do. The default for users is simple binds.
from ldap3 import NTLM
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
ntlm_session = domain.create_session_as_user('username@example.com', 'password',
authentication_mechanism=NTLM)
Discovering additional domain resources
The library supports discovering a wide variety of information about the domain beyond the basics needed to communicate with it. This discovery doesn't require you to know any niche information about Active Directory.
Discoverable resources include but are not limited to:
- Supported SASL mechanisms, which is important for authentication
- The current domain time, which is important for NTP synchronization
- Domain Functional Level, which governs things like support encryption types
- DNS servers
- Issuing certificates for CAs in the domain
Finding supported SASL mechanisms
Discovering SASL mechanisms can be done without needing to create a session with a domain, as it's needed before authentication in many cases.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
# might print "['EXTERNAL', 'DIGEST-MD5']"
print(domain.find_supported_sasl_mechanisms())
Finding the current domain time
Discovering the domain time can be done without needing to create a session with a domain, as time synchronization is necessary for kerberos authentication to succeed and can impact TLS negotiation as well.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
# returns a python datetime object in utc time
curr_time = domain.find_current_time()
# allowed drift defaults to 5 minutes which is the kerberos standard,
# but we can use a shorter window to detect drift before it causes an
# outage. this returns a boolean
synced = domain.is_close_in_time_to_localhost(allowed_drift_seconds=60)
Finding the domain functional level
Discovering the domain time can be done without needing to create a session with a domain, as it can inform us as to what encryption types and TLS versions/ciphers will be supported by the domain.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
# find_functional_level returns an enum indicating the level.
# decision making based on level should be done based on the
# needs of your application
print(domain.find_functional_level())
Finding DNS servers
Discovering DNS servers requires an authenticated session with the domain, as searching the records within the domain for computers that run a DNS service is privileged.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
# returns a map that maps server hostnames -> ip addresses, where
# the hostnames are computers running dns services
dns_map = session.find_dns_servers_for_domain()
ip_addrs = dns_map.values()
hostnames = dns_map.keys()
Finding CA certificates
Discovering DNS servers requires an authenticated session with the domain, as searching the records within the domain for records that are indicated as being certificate authorities is privileged.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
# returns a list of PEM-formatted strings representing the signing certificates
# of all certificate authorities in the domain
pem_certs = session.find_certificate_authorities_for_domain()
# you can also get the certificates in DER format, which might be
# preferred on windows
der_certs = session.find_certificate_authorities_for_domain(pem_format=False)
Joining an Active Directory domain
The action of joining a computer to a domain is not a well-defined operation, and so the exact mechanics of how you utilize the domain joining functionality and how its outputs are integrated with the rest of your system will vary depending on your use case.
This will try to cover some common examples.
Join the domain with default configurations for everything
The default behavior requires only the domain name and the credentials of a user with sufficient administrative rights to create computers within the domain.
from ms_active_directory import join_ad_domain
comp = join_ad_domain('example.com', 'Administrator@example.com', 'example-password')
The join_ad_domain
function returns a ManagedADComputer
object with many helpful functions
describing properties of the created computer.
This will use the local hostname of the machine running this code as the computer name.
It will create the computer in AD's default Computers
container.
It enables AES256-SHA1
as an encryption type for both receiving and initiating kerberos
contexts, and it configures <local hostname>.<domain dns name>
as the hostname of the
computer in AD and registers the default HOST
service.
It then writes kerberos keys for the new computer account to /etc/krb5.keytab
, which is
the default location for kerberos keytabs.
This all enables the account to be used for authenticating with other domain resources as a client
over protocols like SMB and LDAP using kerberos, as well as receiving incoming kerberos authentication
as a server for things like SSH. This is because the HOST
service encapsulates many standard services
in the domain.
However, it is still up to the caller to do things like configure sshd to utilize the keytab.
Join the domain with customization of the account for security reasons
A number of customizations exist for security reasons.
You can change things like the encryption types enabled on the account to support older clients. You can also change location where the account is created when joining a domain in order to use a less privileged user for the act of joining. Locations can be LDAP distinguished names or windows path style canonical names.
You can also set the computer name if you have a desired naming scheme. This will impact the hostnames configured in the domain for the computer.
from ms_active_directory import join_ad_domain, ADEncryptionType
domain = 'example.com'
less_privileged_user = 'ops-manager@example.com'
password = 'password2'
# ldap-style relative distinguished name of a location
less_privileged_loc = 'OU=service-machines,OU=ops'
computer_name = 'workstation10'
legacy_enc_type = ADEncryptionType.RC4_HMAC
new_enc_type = ADEncryptionType.AES256_CTS_HMAC_SHA1_96
comp = join_ad_domain(domain, less_privileged_user, password, computer_name=computer_name,
computer_location=less_privileged_loc, computer_encryption_types=[legacy_enc_type, new_enc_type])
alt_format_loc = '/ops/service-machines'
comp = join_ad_domain(domain, less_privileged_user, password, computer_name=computer_name,
computer_location=alt_format_loc, computer_encryption_types=[legacy_enc_type, new_enc_type])
You can also manually set the computer password. The default is to generate a random 120 character password, but if you want to share this computer across services, and some cannot interact with the generated kerberos keys, then you may wish to set a password manually.
You can also change where the kerberos keys are written to.
from ms_active_directory import join_ad_domain
domain = 'example.com'
user = 'ops-manager@example.com'
password = 'password2'
kerberos_key_location = '/usr/shared/keys/workstation-key.keytab'
computer_name = 'workstation10'
computer_password = 'workstation-shared-pw'
comp = join_ad_domain(domain, user, password, computer_key_file_path=kerberos_key_location,
computer_name=computer_name, computer_password=computer_password)
Join the domain with different network or service settings
You can configure different hostnames for your computer when joining the domain. This is useful when you have multiple different hostnames for a single device, or want to use a computer name that doesn't match your network name.
You can also configure services in order to restrict or broaden what is
supported by the computer when acting as a server (e.g. you can add nfs
if the machine will be an nfs server).
Joining will fail if another computer in the domain is using the services you specify on any of the hostnames you specify in order to avoid conflicts that cause undefined behavior.
from ms_active_directory import join_ad_domain
domain = 'example.com'
user = 'ops-manager@example.com'
password = 'password2'
services = ['HOST', 'nfs', 'cifs', 'HTTP']
computer_name = 'workstation10'
computer_host1 = 'central-mount-point.example.com'
computer_host2 = 'example-web-server.example.com'
comp = join_ad_domain(domain, user, password, computer_name=computer_name,
computer_hostnames=[computer_host1, computer_host2],
computer_services=services)
Join using a domain object
You can use an ADDomain
object to join the domain as well, using a join
function.
This allows you to combine all of the functionality mentioned earlier around site-awareness,
server preferences, TLS settings, and network multi-tenancy with the domain joining
functionality mentioned in this section.
The parameters are all the same, except the domain need not be provided when using an
ADDomain
object, so it just adds more functionality in exchange for a slightly less simple
workflow.
from ms_active_directory import ADDomain
domain = ADDomain('example.com', site='us-eastern-dc',
source_ip='10.25.21.30', dns_nameservers=['10.25.21.20'])
user = 'ops-manager@example.com'
password = 'password2'
less_privileged_loc = 'OU=service-machines,OU=ops'
services = ['HOST', 'nfs', 'cifs', 'HTTP']
computer_name = 'workstation10'
comp = domain.join(user, password, computer_hostnames=[computer_host1, computer_host2],
computer_services=services, computer_location=less_privileged_loc)
Join the domain by taking over an existing account
For some setups, accounts may be pre-created and then taken over by the computers that will use them.
This can be done in order to greatly restrict the permissions of the user that is used for joining,
as they only need RESET PASSWORD
permissions on the computer account, or CHANGE PASSWORD
if
the current computer password is provided.
from ms_active_directory import ADDomain, join_ad_domain_by_taking_over_existing_computer
domain_dns_name = 'example.com'
site = 'us-eastern-dc'
existing_computer_name = 'precreated-comp'
user = 'single-account-admin@example.com'
password = 'password2'
computer_obj = join_ad_domain_by_taking_over_existing_computer(domain_dns_name, user, password,
ad_site=site, computer_name=existing_computer_name)
# or use a domain object to use various power-user domain features
domain = ADDomain(domain_dns_name, site=site,
source_ip='10.25.21.30', dns_nameservers=['10.25.21.20'])
domain.join_by_taking_over_existing_computer(user, password, computer_name=existing_computer_name)
Managing users, computers, and groups
The library provides a number of different functions for finding users, computers, and groups by different identifiers, and for querying information about them. It also has functions for checking their memberships and adding or removing users, computers, and groups to or from groups.
Looking up users, computers, groups, and information about them
Users, computers, and groups can both be looked up by one of:
- sAMAccountName
- distinguished name
- common name
- a generic "name" that will attempt the above 3
- an attribute
Look up by sAMAccountName
A sAMAccountName
is unique within a domain, and so looking up users or
groups by sAMAccountName
returns a single result.
sAMAccountName
was a user's windows logon name in older versions of windows,
and may be referred to as such in some documentation.
For computers, the standard convention is for their sAMAccountName
to end with
a $
, but many tools/docs leave that out. So if a sAMAccountName
is specified
that does not end with a $
and cannot be found, a lookup will also be
attempted after adding a $
to the end.
When looking up users, computers, and groups, you can also query for additional information about them by specifying a list of LDAP attributes.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
user = session.find_user_by_sam_name('user1', ['employeeID'])
group = session.find_group_by_sam_name('group1', ['gidNumber'])
# users and groups support a generic "get" for any attributes queried
print(user.get('employeeID'))
print(group.get('gidNumber'))
Look up by distinguished name
A distinguished name is unique within a forest, and so looking up users or groups by it returns a single result. A distinguished name should not be escaped when provided to the search function.
When looking up users, computers, and groups, you can also query for additional information about them by specifying a list of LDAP attributes.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
user_dn = 'CN=user one,CN=Users,DC=example,DC=com'
user = session.find_user_by_distinguished_name(user_dn, ['employeeID'])
group_dn = 'CN=group one,OU=employee-groups,DC=example,DC=com'
group = session.find_group_by_distinguished_name(group_dn, ['gidNumber'])
# users and groups support a generic "get" for any attributes queried
print(user.get('employeeID'))
print(group.get('gidNumber'))
Look up by common name
A common name is not unique within a domain, and so looking up users or groups by it returns a list of results, which may have 0 or more entries.
When looking up users, computers, and groups, you can also query for additional information about them by specifying a list of LDAP attributes.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
user_cn = 'John Doe'
users = session.find_users_by_common_name(user_cn, ['employeeID'])
group_dn = 'operations managers'
groups = session.find_groups_by_common_name(group_dn, ['gidNumber'])
# users and groups support a generic "get" for any attributes queried
for user in users:
print(user.get('employeeID'))
for group in groups:
print(group.get('gidNumber'))
Look up by generic name
You can also query by a generic "name", and the library will attempt to find a
unique user or group with that name. The library will either lookup by DN or will
attempt sAMAccountName
and common name lookups depending on the name format.
If more than one result is found by common name and no result is found by
sAMAccountName
then this will produce an error.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
user_name = 'John Doe'
user = session.find_user_by_name(user_name, ['employeeID'])
group_name = 'operations managers'
groups = session.find_groups_by_name(group_name, ['gidNumber'])
# users and groups support a generic "get" for any attributes queried
print(user.get('employeeID'))
print(group.get('gidNumber'))
Look up by attribute
You can also query for users, computers, or groups that possess a certain value for a specified attribute. This can produce any number of results, so a list is returned.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
desired_employee_type = 'temporary'
users = session.find_users_by_attribute('employeeType', desired_employee_type, ['employeeID'])
desired_group_manager = 'Alice P Hacker'
groups = session.find_groups_by_attribute('managedBy', desired_group_manager, ['gidNumber'])
# users and groups support a generic "get" for any attributes queried
for user in users:
print(user.distinguished_name)
print(user.get('employeeID'))
for group in groups:
print(group.distinguished_name)
print(group.get('gidNumber'))
Querying user, computer, and group membership
You can also look up the groups that a user belongs to, the groups that a computer belongs to,
or the groups that a group belongs to. Active Directory supports nested groups, which is why
there's user->groups
, computer->groups
, and group->groups
mapping capability.
When querying the membership information for users or groups, the input type for any
user or group must either be a string name identifying the user, computer, or group as described in the prior
section, or must be an ADUser
, ADComputer
, or ADGroup
object returned by one of the functions described
in the prior section.
Similarly to looking up users, computers, and groups, you can query for attributes of the parent groups by providing a list of LDAP attributes to look up for them.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
user_sam_account_name = 'user-sam-1'
user_dn = 'CN=user sam 1,CN=users,DC=example,DC=com'
user_cn = 'user same 1'
desired_group_attrs = ['gidNumber', 'managedBy']
# all 3 of these do the same thing, and internally map the different
# name types to a user object
groups_res1 = session.find_groups_for_user(user_sam_account_name, desired_group_attrs)
groups_res2 = session.find_groups_for_user(user_dn, desired_group_attrs)
groups_res3 = session.find_groups_for_user(user_cn, desired_group_attrs)
# you can also directly use a user object to query groups
user_obj = session.find_user_by_name(user_sam_account_name)
groups_res4 = session.find_groups_for_user(user_obj, desired_group_attrs)
# you can also look up the parents of groups in the same way
example_group_obj = groups_res4[0]
example_group_dn = example_group_obj.distinguished_name
# these both work. sAMAccountName could also be used, etc.
second_level_groups_res1 = session.find_groups_for_group(example_group_obj, desired_group_attrs)
second_level_groups_res2 = session.find_groups_for_group(example_group_dn, desired_group_attrs)
You can also query users->groups
, computers->groups
, and groups->groups
to find the memberships of multiple
users, computers, and groups, and the library will make a minimal number of queries to determine membership;
it will be more efficient that doing a user->groups
for each user (or similar for computers and groups).
The result will be a map that maps the input users or groups to lists of parent groups.
The input lists' elements must be the same format as what's provided when looking up group memberships for a single user or group.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
user1_name = 'user1'
user2_name = 'user2'
users = [user1_name, user2_name]
desired_group_attrs = ['gidNumber', 'managedBy']
user_group_map = session.find_groups_for_users(users, desired_group_attrs)
# the dictionary result keys are the users from the input
user1_groups = user_group_map[user1_name]
user2_groups = user_group_map[user2_name]
# you can use the groups->groups mapping functionality to enumerate the
# full tree of a users' group memberships (or a groups' group memberships)
user1_second_level_groups_map = session.find_groups_for_groups(user1_groups, desired_group_attrs)
all_second_level_groups = []
for group_list in user1_second_level_groups_map.values():
for group in group_list:
if group not in all_second_level_groups:
all_second_level_groups.append(group)
all_user1_groups_in_2_levels = user1_groups + all_second_level_groups
Finding the members of groups
You can look up the members of one or more groups and get attributes about those members.
from ms_active_directory import ADDomain, ADUser, ADGroup
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
# get emails of users and groups that are members
desired_attrs = ['mail']
# look up members of a single group
single_group_member_list = session.find_members_of_group('group1', desired_attrs)
# look up members of multiple groups at once
groups = ['group1', 'group2']
group_to_member_list_map = session.find_members_of_groups(groups, desired_attrs)
group2_member_list = group_to_member_list_map['group2']
group2_user_members = [mem for mem in group2_member_list if isintance(mem, ADUser)]
group2_group_members = [mem for mem in group2_member_list if isintance(mem, ADGroup)]
You can also look up members recursively to handle nesting. A maximum depth for lookups may be specified, but by default all nesting will be enumerated.
from ms_active_directory import ADDomain, ADUser, ADGroup
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
# get emails of users and groups that are members
desired_attrs = ['mail']
group_name = 'has-groups-as-members'
groups_to_member_lists_maps = session.find_members_of_groups_recursive(group_name, desired_attrs)
Adding users to groups
You can add users to groups by specifying a list of ADUser
objects or string names of
AD users to be added to the groups, and a list of ADGroup
objects or string names of AD
groups to add the users to.
If string names are specified, they'll be mapped to users/groups using the functions discussed in the prior sections.
If a user is already in a group, this is idempotent and will not re-add them.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
user1_name = 'user1'
user2_name = 'user2'
group1_name = 'target-group1'
group2_name = 'target-group2'
session.add_users_to_groups([user1_name, user2_name],
[group1_name, group2_name])
By default, if we fail to add users to one of the groups specified, we'll attempt to rollback and remove users from any groups they were added to. You can choose to forgo this and a list of groups that users were successfully added to will be returned instead.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
user1_name = 'user1'
user2_name = 'user2'
group1_name = 'target-group1'
group2_name = 'target-group2'
privileged_group = 'group-that-will-fail'
succeeeded = session.add_users_to_groups([user1_name, user2_name],
[group1_name, group2_name, privileged_group],
stop_and_rollback_on_error=False)
# this will print "['target-group1', 'target-group2']" assuming that
# adding users to 'group-that-will-fail' failed
print(succeeeded)
Adding groups to groups
Adding groups to other groups works exactly the same way as adding users to groups, but
the function is called add_groups_to_groups
and both inputs are lists of groups.
Adding computers to groups
Adding computers to groups works exactly the same way as adding users to groups, but
the function is called add_computers_to_groups
and the first input is a list of computers.
Removing users, computers, or groups from groups
Removing users, computers, or groups from groups works identically to adding users, computers, or groups to groups,
including input format, idempotency, and rollback functionality.
The only difference is that the functions are called remove_users_from_groups
, remove_computers_from_groups
, and
remove_groups_from_groups
instead.
Updating user, computer, or group attributes.
You can use this library to modify the values of various LDAP attributes on users, computers, groups, or generic objects.
Users, computers, and groups provide the convenient name lookup functionality mentioned above,
while for generic objects you either need to pass an ADObject
or a distinguished name.
Appending to one or more attributes
You can atomically append values to multi-valued attributes, such as accountNameHistory
.
This allows you to update their values without needing to know the current value or worry
about race conditions, as it's handled server-side.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
user_name = 'sarah1'
previous_account_name = 'sarah'
success = session.atomic_append_to_attribute_for_user(user_name, 'accountNameHistory',
previous_account_name)
# you can also append multiple values at once, or append to multiple
# attributes at once
user_name = 'monica pham-chen'
previous_account_names = ['monica pham', 'monica chen']
previous_uid = 'mpham'
update_map = {
'accountNameHistory': previous_account_names,
'uid': previous_uid
}
success = session.atomic_append_to_attributes_for_user(user_name, update_map)
You can also perform these actions on groups and objects using the similarly named
functions atomic_append_to_attribute_for_group
, atomic_append_to_attributes_for_group
,
atomic_append_to_attribute_for_computer
, atomic_append_to_attributes_for_computer
,
atomic_append_to_attribute_for_object
, and atomic_append_to_attributes_for_object
.
Overwriting one or more attributes
If you want to totally replace the value of an attribute, that's supported as well. This can be done for single-valued or multi-valued attributes.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
user_name = 'arjun'
new_uid_number = 1093
success = session.overwrite_attribute_for_user(user_name, 'uidNumber',
new_uid_number)
# just like appending, we can do multiple attributes at once atomically
user_name = 'nikita'
new_employee_type = 'Director'
new_gid = 0
new_addresses = [
'123 mulberry lane',
'456 vacation home drive'
]
new_value_map = {
'employeeType': new_employee_type,
'gidNumber': new_gid,
'postalAddress': new_addresses
}
success = session.overwrite_attributes_for_user(user_name, new_value_map)
You can also perform these actions on groups and objects using the similarly named functions, just like with appending.
Discovering and Managing Trusted Domains
You can discover trusted domains using a session, and check properties about them.
from ms_active_directory import ADDomain
domain = ADDomain('example.com')
session = domain.create_session_as_user('username@example.com', 'password')
trusted_domains = session.find_trusted_domains_for_domain()
# split domains up based on trust type
trusted_mit_domains = [dom for dom in trusted_domains if dom.is_mit_trust()]
trusted_ad_domains = [dom for dom in trusted_domains if dom.is_active_directory_domain_trust()]
# print a few attributes that may be relevant
for ad_dom in trusted_ad_domains:
print('FQDN: {}'.format(ad_dom.get_netbios_name()))
print('Netbios name: {}'.format(ad_dom.get_netbios_name()))
print('Disabled: {}'.format(ad_dom.is_disabled())
print('Bi-directional: {}'.format(ad_dom.is_bidirectional_trust())
print('Transitive: {}'.format(ad_dom.is_transitive_trust())
You can also convert AD domains that are trusted into fully usable ADDomain
objects for the purpose of creating sessions and looking up information there.
from ms_active_directory import ADDomain
from ldap3 import NTLM
domain = ADDomain('example.com')
widely_trusted_user = 'example.com\\org-admin'
password = 'password'
primary_session = domain.create_session_as_user(widely_trusted_user, password,
authentication_mechanism=NTLM)
# get our trusted AD domains
trusted_domains = session.find_trusted_domains_for_domain()
trusted_ad_domains = [dom for dom in trusted_domains if dom.is_active_directory_domain_trust()]
# convert them into domains where our user should be trusted
domains_our_user_can_auth_with = []
for trusted_dom in trusted_ad_domains:
if trusted_dom.trusts_primary_domain() and not trusted_dom.is_disabled():
full_domain = trusted_dom.convert_to_ad_domain()
domains_our_user_can_auth_with.append(full_domain)
# create sessions so we can search across many domains
all_user_sessions = [primary_session]
for dom in domains_our_user_can_auth_with:
# SASL is needed for cross-domain authentication in general
session = dom.create_session_as_user(widely_trusted_user, password,
authentication_mechanism=NTLM)
all_user_sessions.append(session)
You can convert an existing authenticated session with one domain into an authenticated session with a trusted AD domain that trusts the first domain.
from ms_active_directory import ADDomain
from ldap3 import NTLM
domain = ADDomain('example.com')
widely_trusted_user = 'example.com\\org-admin'
password = 'password'
primary_session = domain.create_session_as_user(widely_trusted_user, password,
authentication_mechanism=NTLM)
# get our trusted AD domains
trusted_domains = session.find_trusted_domains_for_domain()
# filter for a domain being AD and it trusting the primary domain
trusted_ad_domains = [dom for dom in trusted_domains if dom.is_active_directory_domain_trust()
and dom.trusts_primary_domain()]
# create a new session with the trusted domain using our existing primary domain session,
# and use it to look up users/groups/etc. in the other domain
transferred_session = trusted_ad_domains[0].create_transfer_session_to_trusted_domain(primary_session)
transferred_session.find_user_by_name('other-domain-user')
You can also automatically have a session create sessions for all its trusted domains that trust the session's domain.
from ms_active_directory import ADDomain
from ldap3 import NTLM
domain = ADDomain('example.com')
widely_trusted_user = 'example.com\\org-admin'
password = 'password'
primary_session = domain.create_session_as_user(widely_trusted_user, password,
authentication_mechanism=NTLM)
# find a user that we know exists somewhere, but not the primary domain
user_to_find = 'some-lost-user'
# by default this filters to AD domains, and further filters to domains that trust the session's domain
# if the user used for the session is from the session's domain (which they are in this
# example)
trust_sessions = primary_session.create_transfer_sessions_to_all_trusted_domains()
user = None
for session in trust_sessions:
user = session.find_user_by_name(user_to_find)
if user is not None:
print('Found user in {}'.format(session.get_domain_dns_name()))
break
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