#!/usr/bin/python # -*- coding: utf-8 -*- # Copyright: Ansible Project # GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt) from __future__ import absolute_import, division, print_function __metaclass__ = type ANSIBLE_METADATA = { 'metadata_version': '1.1', 'status': ['stableinterface'], 'supported_by': 'community' } DOCUMENTATION = ''' --- module: postgresql_user short_description: Adds or removes a users (roles) from a PostgreSQL database. description: - Add or remove PostgreSQL users (roles) from a remote host and, optionally, grant the users access to an existing database or tables. - The fundamental function of the module is to create, or delete, roles from a PostgreSQL cluster. Privilege assignment, or removal, is an optional step, which works on one database at a time. This allows for the module to be called several times in the same module to modify the permissions on different databases, or to grant permissions to already existing users. - A user cannot be removed until all the privileges have been stripped from the user. In such situation, if the module tries to remove the user it will fail. To avoid this from happening the fail_on_user option signals the module to try to remove the user, but if not possible keep going; the module will report if changes happened and separately if the user was removed or not. version_added: "0.6" options: name: description: - Name of the user (role) to add or remove. required: true password: description: - Set the user's password, before 1.4 this was required. - Password can be passed unhashed or hashed (MD5-hashed). - Unhashed password will automatically be hashed when saved into the database if C(encrypted) parameter is set, otherwise it will be save in plain text format. - When passing a hashed password it must be generated with the format C('str["md5"] + md5[ password + username ]'), resulting in a total of 35 characters. An easy way to do this is C(echo "md5$(echo -n 'verysecretpasswordJOE' | md5sum | awk '{print $1}')"). - Note that if the provided password string is already in MD5-hashed format, then it is used as-is, regardless of C(encrypted) parameter. db: description: - Name of database where permissions will be granted. fail_on_user: description: - If C(yes), fail when user can't be removed. Otherwise just log and continue. default: 'yes' type: bool port: description: - Database port to connect to. default: 5432 login_user: description: - User (role) used to authenticate with PostgreSQL. default: postgres login_password: description: - Password used to authenticate with PostgreSQL. login_host: description: - Host running PostgreSQL. default: localhost login_unix_socket: description: - Path to a Unix domain socket for local connections. priv: description: - "PostgreSQL privileges string in the format: C(table:priv1,priv2)." role_attr_flags: description: - "PostgreSQL role attributes string in the format: CREATEDB,CREATEROLE,SUPERUSER." - Note that '[NO]CREATEUSER' is deprecated. choices: ["[NO]SUPERUSER", "[NO]CREATEROLE", "[NO]CREATEDB", "[NO]INHERIT", "[NO]LOGIN", "[NO]REPLICATION", "[NO]BYPASSRLS"] state: description: - The user (role) state. default: present choices: ["present", "absent"] encrypted: description: - Whether the password is stored hashed in the database. Passwords can be passed already hashed or unhashed, and postgresql ensures the stored password is hashed when C(encrypted) is set. - "Note: Postgresql 10 and newer doesn't support unhashed passwords." - Previous to Ansible 2.6, this was C(no) by default. default: 'yes' type: bool version_added: '1.4' expires: description: - The date at which the user's password is to expire. - If set to C('infinity'), user's password never expire. - Note that this value should be a valid SQL date and time type. version_added: '1.4' no_password_changes: description: - If C(yes), don't inspect database for password changes. Effective when C(pg_authid) is not accessible (such as AWS RDS). Otherwise, make password changes as necessary. default: 'no' type: bool version_added: '2.0' ssl_mode: description: - Determines whether or with what priority a secure SSL TCP/IP connection will be negotiated with the server. - See U(https://www.postgresql.org/docs/current/static/libpq-ssl.html) for more information on the modes. - Default of C(prefer) matches libpq default. default: prefer choices: ["disable", "allow", "prefer", "require", "verify-ca", "verify-full"] version_added: '2.3' ssl_rootcert: description: - Specifies the name of a file containing SSL certificate authority (CA) certificate(s). If the file exists, the server's certificate will be verified to be signed by one of these authorities. version_added: '2.3' conn_limit: description: - Specifies the user connection limit. version_added: '2.4' notes: - The default authentication assumes that you are either logging in as or sudo'ing to the postgres account on the host. - This module uses psycopg2, a Python PostgreSQL database adapter. You must ensure that psycopg2 is installed on the host before using this module. If the remote host is the PostgreSQL server (which is the default case), then PostgreSQL must also be installed on the remote host. For Ubuntu-based systems, install the postgresql, libpq-dev, and python-psycopg2 packages on the remote host before using this module. - If you specify PUBLIC as the user, then the privilege changes will apply to all users. You may not specify password or role_attr_flags when the PUBLIC user is specified. - The ssl_rootcert parameter requires at least Postgres version 8.4 and I(psycopg2) version 2.4.3. requirements: [ psycopg2 ] author: "Ansible Core Team" ''' EXAMPLES = ''' # Create django user and grant access to database and products table - postgresql_user: db: acme name: django password: ceec4eif7ya priv: "CONNECT/products:ALL" # Create rails user, set its password (MD5-hashed) and grant privilege to create other # databases and demote rails from super user status - postgresql_user: name: rails password: md59543f1d82624df2b31672ec0f7050460 role_attr_flags: CREATEDB,NOSUPERUSER # Remove test user privileges from acme - postgresql_user: db: acme name: test priv: "ALL/products:ALL" state: absent fail_on_user: no # Remove test user from test database and the cluster - postgresql_user: db: test name: test priv: ALL state: absent # Set user's password with no expire date - postgresql_user: db: acme name: django password: mysupersecretword priv: "CONNECT/products:ALL" expire: infinity # Example privileges string format # INSERT,UPDATE/table:SELECT/anothertable:ALL # Remove an existing user's password - postgresql_user: db: test user: test password: "" ''' import itertools import re import traceback from hashlib import md5 try: import psycopg2 import psycopg2.extras except ImportError: postgresqldb_found = False else: postgresqldb_found = True from ansible.module_utils.basic import AnsibleModule from ansible.module_utils.database import pg_quote_identifier, SQLParseError from ansible.module_utils._text import to_bytes, to_native from ansible.module_utils.six import iteritems FLAGS = ('SUPERUSER', 'CREATEROLE', 'CREATEDB', 'INHERIT', 'LOGIN', 'REPLICATION') FLAGS_BY_VERSION = {'BYPASSRLS': 90500} VALID_PRIVS = dict(table=frozenset(('SELECT', 'INSERT', 'UPDATE', 'DELETE', 'TRUNCATE', 'REFERENCES', 'TRIGGER', 'ALL')), database=frozenset( ('CREATE', 'CONNECT', 'TEMPORARY', 'TEMP', 'ALL')), ) # map to cope with idiosyncracies of SUPERUSER and LOGIN PRIV_TO_AUTHID_COLUMN = dict(SUPERUSER='rolsuper', CREATEROLE='rolcreaterole', CREATEDB='rolcreatedb', INHERIT='rolinherit', LOGIN='rolcanlogin', REPLICATION='rolreplication', BYPASSRLS='rolbypassrls') class InvalidFlagsError(Exception): pass class InvalidPrivsError(Exception): pass # =========================================== # PostgreSQL module specific support methods. # def user_exists(cursor, user): # The PUBLIC user is a special case that is always there if user == 'PUBLIC': return True query = "SELECT rolname FROM pg_roles WHERE rolname=%(user)s" cursor.execute(query, {'user': user}) return cursor.rowcount > 0 def user_add(cursor, user, password, role_attr_flags, encrypted, expires, conn_limit): """Create a new database user (role).""" # Note: role_attr_flags escaped by parse_role_attrs and encrypted is a # literal query_password_data = dict(password=password, expires=expires) query = ['CREATE USER %(user)s' % {"user": pg_quote_identifier(user, 'role')}] if password is not None and password != '': query.append("WITH %(crypt)s" % {"crypt": encrypted}) query.append("PASSWORD %(password)s") if expires is not None: query.append("VALID UNTIL %(expires)s") if conn_limit is not None: query.append("CONNECTION LIMIT %(conn_limit)s" % {"conn_limit": conn_limit}) query.append(role_attr_flags) query = ' '.join(query) cursor.execute(query, query_password_data) return True def user_should_we_change_password(current_role_attrs, user, password, encrypted): """Check if we should change the user's password. Compare the proposed password with the existing one, comparing hashes if encrypted. If we can't access it assume yes. """ if current_role_attrs is None: # on some databases, E.g. AWS RDS instances, there is no access to # the pg_authid relation to check the pre-existing password, so we # just assume password is different return True # Do we actually need to do anything? pwchanging = False if password is not None: # Empty password means that the role shouldn't have a password, which # means we need to check if the current password is None. if password == '': if current_role_attrs['rolpassword'] is not None: pwchanging = True # 32: MD5 hashes are represented as a sequence of 32 hexadecimal digits # 3: The size of the 'md5' prefix # When the provided password looks like a MD5-hash, value of # 'encrypted' is ignored. elif (password.startswith('md5') and len(password) == 32 + 3) or encrypted == 'UNENCRYPTED': if password != current_role_attrs['rolpassword']: pwchanging = True elif encrypted == 'ENCRYPTED': hashed_password = 'md5{0}'.format(md5(to_bytes(password) + to_bytes(user)).hexdigest()) if hashed_password != current_role_attrs['rolpassword']: pwchanging = True return pwchanging def user_alter(db_connection, module, user, password, role_attr_flags, encrypted, expires, no_password_changes, conn_limit): """Change user password and/or attributes. Return True if changed, False otherwise.""" changed = False cursor = db_connection.cursor(cursor_factory=psycopg2.extras.DictCursor) # Note: role_attr_flags escaped by parse_role_attrs and encrypted is a # literal if user == 'PUBLIC': if password is not None: module.fail_json(msg="cannot change the password for PUBLIC user") elif role_attr_flags != '': module.fail_json(msg="cannot change the role_attr_flags for PUBLIC user") else: return False # Handle passwords. if not no_password_changes and (password is not None or role_attr_flags != '' or expires is not None or conn_limit is not None): # Select password and all flag-like columns in order to verify changes. try: select = "SELECT * FROM pg_authid where rolname=%(user)s" cursor.execute(select, {"user": user}) # Grab current role attributes. current_role_attrs = cursor.fetchone() except psycopg2.ProgrammingError: current_role_attrs = None db_connection.rollback() pwchanging = user_should_we_change_password(current_role_attrs, user, password, encrypted) if current_role_attrs is None: try: # AWS RDS instances does not allow user to access pg_authid # so try to get current_role_attrs from pg_roles tables select = "SELECT * FROM pg_roles where rolname=%(user)s" cursor.execute(select, {"user": user}) # Grab current role attributes from pg_roles current_role_attrs = cursor.fetchone() except psycopg2.ProgrammingError as e: db_connection.rollback() module.fail_json(msg="Failed to get role details for current user %s: %s" % (user, e)) role_attr_flags_changing = False if role_attr_flags: role_attr_flags_dict = {} for r in role_attr_flags.split(' '): if r.startswith('NO'): role_attr_flags_dict[r.replace('NO', '', 1)] = False else: role_attr_flags_dict[r] = True for role_attr_name, role_attr_value in role_attr_flags_dict.items(): if current_role_attrs[PRIV_TO_AUTHID_COLUMN[role_attr_name]] != role_attr_value: role_attr_flags_changing = True if expires is not None: cursor.execute("SELECT %s::timestamptz;", (expires,)) expires_with_tz = cursor.fetchone()[0] expires_changing = expires_with_tz != current_role_attrs.get('rolvaliduntil') else: expires_changing = False conn_limit_changing = (conn_limit is not None and conn_limit != current_role_attrs['rolconnlimit']) if not pwchanging and not role_attr_flags_changing and not expires_changing and not conn_limit_changing: return False alter = ['ALTER USER %(user)s' % {"user": pg_quote_identifier(user, 'role')}] if pwchanging: if password != '': alter.append("WITH %(crypt)s" % {"crypt": encrypted}) alter.append("PASSWORD %(password)s") else: alter.append("WITH PASSWORD NULL") alter.append(role_attr_flags) elif role_attr_flags: alter.append('WITH %s' % role_attr_flags) if expires is not None: alter.append("VALID UNTIL %(expires)s") if conn_limit is not None: alter.append("CONNECTION LIMIT %(conn_limit)s" % {"conn_limit": conn_limit}) query_password_data = dict(password=password, expires=expires) try: cursor.execute(' '.join(alter), query_password_data) changed = True except psycopg2.InternalError as e: if e.pgcode == '25006': # Handle errors due to read-only transactions indicated by pgcode 25006 # ERROR: cannot execute ALTER ROLE in a read-only transaction changed = False module.fail_json(msg=e.pgerror, exception=traceback.format_exc()) return changed else: raise psycopg2.InternalError(e) elif no_password_changes and role_attr_flags != '': # Grab role information from pg_roles instead of pg_authid select = "SELECT * FROM pg_roles where rolname=%(user)s" cursor.execute(select, {"user": user}) # Grab current role attributes. current_role_attrs = cursor.fetchone() role_attr_flags_changing = False if role_attr_flags: role_attr_flags_dict = {} for r in role_attr_flags.split(' '): if r.startswith('NO'): role_attr_flags_dict[r.replace('NO', '', 1)] = False else: role_attr_flags_dict[r] = True for role_attr_name, role_attr_value in role_attr_flags_dict.items(): if current_role_attrs[PRIV_TO_AUTHID_COLUMN[role_attr_name]] != role_attr_value: role_attr_flags_changing = True if not role_attr_flags_changing: return False alter = ['ALTER USER %(user)s' % {"user": pg_quote_identifier(user, 'role')}] if role_attr_flags: alter.append('WITH %s' % role_attr_flags) try: cursor.execute(' '.join(alter)) except psycopg2.InternalError as e: if e.pgcode == '25006': # Handle errors due to read-only transactions indicated by pgcode 25006 # ERROR: cannot execute ALTER ROLE in a read-only transaction changed = False module.fail_json(msg=e.pgerror, exception=traceback.format_exc()) return changed else: raise psycopg2.InternalError(e) # Grab new role attributes. cursor.execute(select, {"user": user}) new_role_attrs = cursor.fetchone() # Detect any differences between current_ and new_role_attrs. changed = current_role_attrs != new_role_attrs return changed def user_delete(cursor, user): """Try to remove a user. Returns True if successful otherwise False""" cursor.execute("SAVEPOINT ansible_pgsql_user_delete") try: cursor.execute("DROP USER %s" % pg_quote_identifier(user, 'role')) except: cursor.execute("ROLLBACK TO SAVEPOINT ansible_pgsql_user_delete") cursor.execute("RELEASE SAVEPOINT ansible_pgsql_user_delete") return False cursor.execute("RELEASE SAVEPOINT ansible_pgsql_user_delete") return True def has_table_privileges(cursor, user, table, privs): """ Return the difference between the privileges that a user already has and the privileges that they desire to have. :returns: tuple of: * privileges that they have and were requested * privileges they currently hold but were not requested * privileges requested that they do not hold """ cur_privs = get_table_privileges(cursor, user, table) have_currently = cur_privs.intersection(privs) other_current = cur_privs.difference(privs) desired = privs.difference(cur_privs) return (have_currently, other_current, desired) def get_table_privileges(cursor, user, table): if '.' in table: schema, table = table.split('.', 1) else: schema = 'public' query = '''SELECT privilege_type FROM information_schema.role_table_grants WHERE grantee=%s AND table_name=%s AND table_schema=%s''' cursor.execute(query, (user, table, schema)) return frozenset([x[0] for x in cursor.fetchall()]) def grant_table_privileges(cursor, user, table, privs): # Note: priv escaped by parse_privs privs = ', '.join(privs) query = 'GRANT %s ON TABLE %s TO %s' % ( privs, pg_quote_identifier(table, 'table'), pg_quote_identifier(user, 'role')) cursor.execute(query) def revoke_table_privileges(cursor, user, table, privs): # Note: priv escaped by parse_privs privs = ', '.join(privs) query = 'REVOKE %s ON TABLE %s FROM %s' % ( privs, pg_quote_identifier(table, 'table'), pg_quote_identifier(user, 'role')) cursor.execute(query) def get_database_privileges(cursor, user, db): priv_map = { 'C': 'CREATE', 'T': 'TEMPORARY', 'c': 'CONNECT', } query = 'SELECT datacl FROM pg_database WHERE datname = %s' cursor.execute(query, (db,)) datacl = cursor.fetchone()[0] if datacl is None: return set() r = re.search(r'%s\\?"?=(C?T?c?)/[^,]+,?' % user, datacl) if r is None: return set() o = set() for v in r.group(1): o.add(priv_map[v]) return normalize_privileges(o, 'database') def has_database_privileges(cursor, user, db, privs): """ Return the difference between the privileges that a user already has and the privileges that they desire to have. :returns: tuple of: * privileges that they have and were requested * privileges they currently hold but were not requested * privileges requested that they do not hold """ cur_privs = get_database_privileges(cursor, user, db) have_currently = cur_privs.intersection(privs) other_current = cur_privs.difference(privs) desired = privs.difference(cur_privs) return (have_currently, other_current, desired) def grant_database_privileges(cursor, user, db, privs): # Note: priv escaped by parse_privs privs = ', '.join(privs) if user == "PUBLIC": query = 'GRANT %s ON DATABASE %s TO PUBLIC' % ( privs, pg_quote_identifier(db, 'database')) else: query = 'GRANT %s ON DATABASE %s TO %s' % ( privs, pg_quote_identifier(db, 'database'), pg_quote_identifier(user, 'role')) cursor.execute(query) def revoke_database_privileges(cursor, user, db, privs): # Note: priv escaped by parse_privs privs = ', '.join(privs) if user == "PUBLIC": query = 'REVOKE %s ON DATABASE %s FROM PUBLIC' % ( privs, pg_quote_identifier(db, 'database')) else: query = 'REVOKE %s ON DATABASE %s FROM %s' % ( privs, pg_quote_identifier(db, 'database'), pg_quote_identifier(user, 'role')) cursor.execute(query) def revoke_privileges(cursor, user, privs): if privs is None: return False revoke_funcs = dict(table=revoke_table_privileges, database=revoke_database_privileges) check_funcs = dict(table=has_table_privileges, database=has_database_privileges) changed = False for type_ in privs: for name, privileges in iteritems(privs[type_]): # Check that any of the privileges requested to be removed are # currently granted to the user differences = check_funcs[type_](cursor, user, name, privileges) if differences[0]: revoke_funcs[type_](cursor, user, name, privileges) changed = True return changed def grant_privileges(cursor, user, privs): if privs is None: return False grant_funcs = dict(table=grant_table_privileges, database=grant_database_privileges) check_funcs = dict(table=has_table_privileges, database=has_database_privileges) changed = False for type_ in privs: for name, privileges in iteritems(privs[type_]): # Check that any of the privileges requested for the user are # currently missing differences = check_funcs[type_](cursor, user, name, privileges) if differences[2]: grant_funcs[type_](cursor, user, name, privileges) changed = True return changed def parse_role_attrs(cursor, role_attr_flags): """ Parse role attributes string for user creation. Format: attributes[,attributes,...] Where: attributes := CREATEDB,CREATEROLE,NOSUPERUSER,... [ "[NO]SUPERUSER","[NO]CREATEROLE", "[NO]CREATEDB", "[NO]INHERIT", "[NO]LOGIN", "[NO]REPLICATION", "[NO]BYPASSRLS" ] Note: "[NO]BYPASSRLS" role attribute introduced in 9.5 Note: "[NO]CREATEUSER" role attribute is deprecated. """ flags = frozenset(role.upper() for role in role_attr_flags.split(',') if role) valid_flags = frozenset(itertools.chain(FLAGS, get_valid_flags_by_version(cursor))) valid_flags = frozenset(itertools.chain(valid_flags, ('NO%s' % flag for flag in valid_flags))) if not flags.issubset(valid_flags): raise InvalidFlagsError('Invalid role_attr_flags specified: %s' % ' '.join(flags.difference(valid_flags))) return ' '.join(flags) def normalize_privileges(privs, type_): new_privs = set(privs) if 'ALL' in new_privs: new_privs.update(VALID_PRIVS[type_]) new_privs.remove('ALL') if 'TEMP' in new_privs: new_privs.add('TEMPORARY') new_privs.remove('TEMP') return new_privs def parse_privs(privs, db): """ Parse privilege string to determine permissions for database db. Format: privileges[/privileges/...] Where: privileges := DATABASE_PRIVILEGES[,DATABASE_PRIVILEGES,...] | TABLE_NAME:TABLE_PRIVILEGES[,TABLE_PRIVILEGES,...] """ if privs is None: return privs o_privs = { 'database': {}, 'table': {} } for token in privs.split('/'): if ':' not in token: type_ = 'database' name = db priv_set = frozenset(x.strip().upper() for x in token.split(',') if x.strip()) else: type_ = 'table' name, privileges = token.split(':', 1) priv_set = frozenset(x.strip().upper() for x in privileges.split(',') if x.strip()) if not priv_set.issubset(VALID_PRIVS[type_]): raise InvalidPrivsError('Invalid privs specified for %s: %s' % (type_, ' '.join(priv_set.difference(VALID_PRIVS[type_])))) priv_set = normalize_privileges(priv_set, type_) o_privs[type_][name] = priv_set return o_privs def get_valid_flags_by_version(cursor): """ Some role attributes were introduced after certain versions. We want to compile a list of valid flags against the current Postgres version. """ current_version = cursor.connection.server_version return [ flag for flag, version_introduced in FLAGS_BY_VERSION.items() if current_version >= version_introduced ] # =========================================== # Module execution. # def main(): module = AnsibleModule( argument_spec=dict( login_user=dict(default="postgres"), login_password=dict(default="", no_log=True), login_host=dict(default=""), login_unix_socket=dict(default=""), user=dict(required=True, aliases=['name']), password=dict(default=None, no_log=True), state=dict(default="present", choices=["absent", "present"]), priv=dict(default=None), db=dict(default=''), port=dict(default='5432'), fail_on_user=dict(type='bool', default='yes'), role_attr_flags=dict(default=''), encrypted=dict(type='bool', default='yes'), no_password_changes=dict(type='bool', default='no'), expires=dict(default=None), ssl_mode=dict(default='prefer', choices=[ 'disable', 'allow', 'prefer', 'require', 'verify-ca', 'verify-full']), ssl_rootcert=dict(default=None), conn_limit=dict(default=None) ), supports_check_mode=True ) user = module.params["user"] password = module.params["password"] state = module.params["state"] fail_on_user = module.params["fail_on_user"] db = module.params["db"] if db == '' and module.params["priv"] is not None: module.fail_json(msg="privileges require a database to be specified") privs = parse_privs(module.params["priv"], db) no_password_changes = module.params["no_password_changes"] if module.params["encrypted"]: encrypted = "ENCRYPTED" else: encrypted = "UNENCRYPTED" expires = module.params["expires"] sslrootcert = module.params["ssl_rootcert"] conn_limit = module.params["conn_limit"] if not postgresqldb_found: module.fail_json(msg="the python psycopg2 module is required") # To use defaults values, keyword arguments must be absent, so # check which values are empty and don't include in the **kw # dictionary params_map = { "login_host": "host", "login_user": "user", "login_password": "password", "port": "port", "db": "database", "ssl_mode": "sslmode", "ssl_rootcert": "sslrootcert" } kw = dict((params_map[k], v) for (k, v) in iteritems(module.params) if k in params_map and v != "" and v is not None) # If a login_unix_socket is specified, incorporate it here. is_localhost = "host" not in kw or kw["host"] == "" or kw["host"] == "localhost" if is_localhost and module.params["login_unix_socket"] != "": kw["host"] = module.params["login_unix_socket"] if psycopg2.__version__ < '2.4.3' and sslrootcert is not None: module.fail_json( msg='psycopg2 must be at least 2.4.3 in order to user the ssl_rootcert parameter') try: db_connection = psycopg2.connect(**kw) cursor = db_connection.cursor( cursor_factory=psycopg2.extras.DictCursor) except TypeError as e: if 'sslrootcert' in e.args[0]: module.fail_json( msg='Postgresql server must be at least version 8.4 to support sslrootcert') module.fail_json(msg="unable to connect to database: %s" % to_native(e), exception=traceback.format_exc()) except Exception as e: module.fail_json(msg="unable to connect to database: %s" % to_native(e), exception=traceback.format_exc()) try: role_attr_flags = parse_role_attrs(cursor, module.params["role_attr_flags"]) except InvalidFlagsError as e: module.fail_json(msg=to_native(e), exception=traceback.format_exc()) kw = dict(user=user) changed = False user_removed = False if state == "present": if user_exists(cursor, user): try: changed = user_alter(db_connection, module, user, password, role_attr_flags, encrypted, expires, no_password_changes, conn_limit) except SQLParseError as e: module.fail_json(msg=to_native(e), exception=traceback.format_exc()) else: try: changed = user_add(cursor, user, password, role_attr_flags, encrypted, expires, conn_limit) except psycopg2.ProgrammingError as e: module.fail_json(msg="Unable to add user with given requirement " "due to : %s" % to_native(e), exception=traceback.format_exc()) except SQLParseError as e: module.fail_json(msg=to_native(e), exception=traceback.format_exc()) try: changed = grant_privileges(cursor, user, privs) or changed except SQLParseError as e: module.fail_json(msg=to_native(e), exception=traceback.format_exc()) else: if user_exists(cursor, user): if module.check_mode: changed = True kw['user_removed'] = True else: try: changed = revoke_privileges(cursor, user, privs) user_removed = user_delete(cursor, user) except SQLParseError as e: module.fail_json(msg=to_native(e), exception=traceback.format_exc()) changed = changed or user_removed if fail_on_user and not user_removed: msg = "unable to remove user" module.fail_json(msg=msg) kw['user_removed'] = user_removed if changed: if module.check_mode: db_connection.rollback() else: db_connection.commit() kw['changed'] = changed module.exit_json(**kw) if __name__ == '__main__': main()