def post(self):
logger.debug("top of POST /ldaps")
validator = RequestValidator(utils.spec)
result = validator.validate(FlaskOpenAPIRequest(request))
if result.errors:
raise errors.ResourceError(msg=f'Invalid POST data: {result.errors}.')
validated_params = result.parameters
validated_body = result.body
logger.debug(f"validated_body: {dir(validated_body)}")
ldap = LDAPConnection(ldap_id=validated_body.ldap_id,
url=validated_body.url,
port=validated_body.port,
use_ssl=validated_body.use_ssl,
user_dn=validated_body.user_dn,
bind_dn=validated_body.bind_dn,
bind_credential=validated_body.bind_credential,
account_type=validated_body.account_type,
create_time=datetime.datetime.utcnow(),
last_update_time = datetime.datetime.utcnow())
db.session.add(ldap)
try:
db.session.commit()
except (sqlalchemy.exc.SQLAlchemyError, sqlalchemy.exc.DBAPIError) as e:
msg = utils.get_message_from_sql_exc(e)
raise errors.ResourceError(f"Invalid POST data; {msg}")
return utils.ok(result=ldap.serialize,
msg="LDAP object created successfully.")
def post(self):
logger.debug("top of POST /tokens")
validator = RequestValidator(utils.spec)
validated = validator.validate(FlaskOpenAPIRequest(request))
if validated.errors:
raise errors.ResourceError(msg=f'Invalid POST data: {validated.errors}.')
validated_body = validated.body
# this raises an exception if the claims are invalid -
if hasattr(validated_body, 'claims'):
check_extra_claims(request.json.get('claims'))
# set it to the raw request's claims object which is an arbitrary python dictionary
validated_body.claims = request.json.get('claims')
try:
token_data = TapisAccessToken.get_derived_values(validated_body)
except Exception as e:
logger.error(f"Got exception trying to compute get_derived_values() for validated body; e: {e}")
raise errors.AuthenticationError("Unable to create token. Please contact system administrator.")
access_token = TapisAccessToken(**token_data)
try:
access_token.sign_token()
except Exception as e:
logger.error(f"Got exception trying to sign token! Exception: {e}")
raise errors.AuthenticationError("Unable to sign token. Please contact system administrator.")
result = {'access_token': access_token.serialize}
# refresh token --
if hasattr(validated_body, 'generate_refresh_token') and validated_body.generate_refresh_token:
if hasattr(validated_body, 'refresh_token_ttl'):
token_data['refresh_token_ttl'] = validated_body.refresh_token_ttl
refresh_token = TokensResource.get_refresh_from_access_token_data(token_data, access_token)
result['refresh_token'] = refresh_token.serialize
return utils.ok(result=result, msg="Token generation successful.")
def put(self):
logger.debug("top of PUT /tokens/keys")
validator = RequestValidator(utils.spec)
validated = validator.validate(FlaskOpenAPIRequest(request))
if validated.errors:
raise errors.ResourceError(msg=f'Invalid PUT data: {validated.errors}.')
tenant_id = validated.body.tenant_id
logger.debug(f"calling check_authz_private_keypair with tenant_id {tenant_id}")
check_authz_private_keypair(tenant_id)
logger.debug("returned from check_authz_private_keypair; updating keys...")
private_key, public_key = generate_private_keypair_in_sk(tenant_id)
# update the tenant definition with the new public key
logger.debug(f"making request to update tenant {tenant_id} with new public key.")
try:
t.tenants.update_tenant(tenant_id=tenant_id, public_key=public_key)
except Exception as e:
logger.error(f"Got exception trying to update tenant with new public key. Tenants API"
f"and SK are now out of sync!! SHOULD BE LOOKED AT IMMEDIATELY. "
f"Exception: {e}")
raise errors.ResourceError(msg=f'Unable to update tenant definition with new public key'
f'Please contact system administrators.')
logger.info(f"tenant {tenant_id} has been updated with the new public key.")
# update token's tenant cache with this private key for signing:
logger.debug("updating token cache...")
for tenant in tenants.tenants:
if tenant.tenant_id == tenant_id:
tenant.private_key = private_key
result = {'public_key': public_key}
return utils.ok(result=result, msg="Tenant signing keys update successful.")
def post(self):
logger.debug("top of POST /sites")
validator = RequestValidator(utils.spec)
result = validator.validate(FlaskOpenAPIRequest(request))
logger.debug(f"just got result {result.parameters}")
if result.errors:
logger.debug(f"error in results!!!!!!!!")
raise errors.ResourceError(msg=f'Invalid POST data: {result.errors}')
validated_params = result.parameters
logger.debug('got validated params')
validated_body = result.body
logger.debug(f'got validated body {dir(validated_body)}')
try:
# request is trying to create the primary site:
if validated_body.primary:
logger.debug('checks for primary site')
primary_site = Site.query.filter_by(primary=True).first()
if primary_site:
raise errors.ResourceError("Invalid site description: a primary site already exists.")
if not validated_body.tenant_base_url_template:
raise errors.ResourceError("Invalid site description: tenant_base_url_template is required for primary site.")
site = Site(site_id=validated_body.site_id,
primary=validated_body.primary,
base_url=validated_body.base_url,
tenant_base_url_template=validated_body.tenant_base_url_template,
site_admin_tenant_id=validated_body.site_admin_tenant_id,
services=validated_body.services,
create_time=datetime.datetime.utcnow(),
created_by=f'{g.username}@{g.tenant_id}',
last_updated_by=f'{g.username}@{g.tenant_id}',
last_update_time=datetime.datetime.utcnow())
# request if for an associate site:
else:
logger.debug(f'checks for associate site.')
if hasattr(validated_body, 'tenant_base_url_template') and validated_body.tenant_base_url_template:
raise errors.ResourceError("Invalid site description; "
"the tenant_base_url_template property only applies to primary sites.")
site = Site(site_id=validated_body.site_id,
primary=False,
base_url=validated_body.base_url,
site_admin_tenant_id=validated_body.site_admin_tenant_id,
services=validated_body.services,
create_time=datetime.datetime.utcnow(),
created_by=f'{g.username}@{g.tenant_id}',
last_updated_by=f'{g.username}@{g.tenant_id}',
last_update_time=datetime.datetime.utcnow())
logger.info(f'creating site {validated_body.site_id}')
except Exception as e:
raise errors.ResourceError(f"Invalid POST data; {e}")
db.session.add(site)
try:
db.session.commit()
except (sqlalchemy.exc.SQLAlchemyError, sqlalchemy.exc.DBAPIError) as e:
msg = utils.get_message_from_sql_exc(e)
raise errors.ResourceError(f"Invalid POST data; {msg}")
logger.info(f"site {validated_body.site_id} saved in db.")
return utils.ok(result=site.serialize,
msg="Site object created successfully.")
def delete(self, email):
logger.debug(f"top of DELETE /owners/{email}")
owner = TenantOwner.query.filter_by(email=email).first()
if not owner:
raise errors.ResourceError(msg=f'No owner object found with email {email}.')
db.session.delete(owner)
db.session.commit()
return utils.ok(result=None, msg=f'Owner object {owner} deleted successfully.')
def get(self, tenant_id):
logger.debug(f"top of GET /tenants/{tenant_id}/history")
tenant = Tenant.query.filter_by(tenant_id=tenant_id).first()
if not tenant:
raise errors.ResourceError(msg=f'No tenant found with tenant_id {tenant_id}.')
tenant_history_list = TenantHistory.query.filter_by(tenant_id=tenant_id).all()
return utils.ok(result=[t.serialize for t in tenant_history_list], msg='Tenant history retrieved successfully.')
def delete(self, site_id):
logger.debug(f"top of DELETE /sites/{site_id}")
site = Site.query.filter_by(site_id=site_id).first()
if not site:
logger.debug(f"Did not find a site with id {site_id}. Returning an error.")
raise errors.ResourceError(msg=f'No site found with site_id {site_id}.')
logger.debug("site found; issuing delete and commit.")
db.session.delete(site)
db.session.commit()
return utils.ok(result=None, msg=f'Site {site_id} deleted successfully.')
def get(self):
logger.debug(f"top of GET /tenants")
show_draft = request.args.get('show_draft', False)
show_inactive = request.args.get('show_inactive', False)
logger.debug(request.args)
logger.debug(f"show_draft: {show_draft}; show_inactive: {show_inactive}")
# get select parameter for only returning certain fields
select_str = request.args.get('select', '')
# these are the fields that can be selected from the tenants model
selected_fields = []
# iterate through the comma-separated list of selected attributes provided by the user to determine which
# are selectable.
if select_str:
select_list = select_str.split(',')
for attribute in select_list:
if attribute.strip() in Tenant.selectable_fields:
# create the argument to the with_entities() sqlalchemy function; this is a list of
# the form Tenant.<field>
selected_fields.append(getattr(Tenant, attribute.strip()))
logger.debug(f"selected_fields: {selected_fields}")
if show_draft and show_inactive:
logger.debug("getting all")
if len(selected_fields) > 0:
tenants = [Tenant(**t) for t in Tenant.query.with_entities(*selected_fields).all()]
else:
tenants = Tenant.query.all()
elif show_draft:
logger.debug("getting active or draft")
if len(selected_fields) > 0:
tenants = [Tenant(**t) for t in db.session.query(Tenant).filter(
sqlalchemy.or_(Tenant.status == 'active', Tenant.status == 'draft')).with_entities(*selected_fields).all()]
else:
tenants = db.session.query(Tenant).filter(sqlalchemy.or_(Tenant.status=='active', Tenant.status=='draft')).all()
elif show_inactive:
logger.debug("getting active or inactive")
if len(selected_fields) > 0:
tenants = [Tenant(**t) for t in db.session.query(Tenant).filter(
sqlalchemy.or_(Tenant.status=='active', Tenant.status=='inactive')).with_entities(*selected_fields).all()]
else:
tenants = db.session.query(Tenant).filter(sqlalchemy.or_(Tenant.status == 'active', Tenant.status == 'inactive')).all()
else:
logger.debug("getting active")
if len(selected_fields) > 0:
tenants = [Tenant(**t) for t in db.session.query(Tenant).filter(Tenant.status=='active').with_entities(*selected_fields).all()]
else:
tenants = db.session.query(Tenant).filter(Tenant.status == 'active').all()
return utils.ok(result=[t.serialize for t in tenants], msg="Tenants retrieved successfully.")
def put(self):
logger.debug("top of PUT /tokens")
validator = RequestValidator(utils.spec)
validated = validator.validate(FlaskOpenAPIRequest(request))
if validated.errors:
raise errors.ResourceError(msg=f'Invalid PUT data: {validated.errors}.')
refresh_token = validated.body.refresh_token
logger.debug(f"type(refresh_token) = {type(refresh_token)}")
try:
refresh_token_data = auth.validate_token(refresh_token)
except errors.AuthenticationError:
raise errors.ResourceError(msg=f'Invalid PUT data: {request}.')
# get the original access_token data from within the decoded refresh_token
token_data = refresh_token_data['tapis/access_token']
token_data.pop('tapis/token_type')
token_data['exp'] = TapisAccessToken.compute_exp(token_data['ttl'])
token_data['jti'] = str(uuid.uuid4())
# create a dictionary of data that can be used to instantiate access and refresh tokens; the constructors
# require variable names that do not include the Tapis prefix, so we need to remove that -
new_token_data = { 'jti': token_data.pop('jti'),
'iss': token_data.pop('iss'),
'sub': token_data.pop('sub'),
'tenant_id': token_data.pop('tapis/tenant_id'),
'username': token_data.pop('tapis/username'),
'account_type': token_data.pop('tapis/account_type'),
'ttl': token_data.pop('ttl'),
'exp': token_data.pop('exp'),
'delegation': token_data.pop('tapis/delegation'),
'delegation_sub': token_data.pop('tapis/delegation_sub', None),
'extra_claims': token_data
}
access_token = TapisAccessToken(**new_token_data)
access_token.sign_token()
# add the original refresh token's initial_ttl claim as the ttl for the new refresh token
new_token_data['refresh_token_ttl'] = refresh_token_data['tapis/initial_ttl']
refresh_token = TokensResource.get_refresh_from_access_token_data(new_token_data, access_token)
result = {'access_token': access_token.serialize,
'refresh_token': refresh_token.serialize
}
return utils.ok(result=result, msg="Token generation successful.")
def delete(self, ldap_id):
logger.debug(f"top of DELETE /ldaps/{ldap_id}")
ldap = LDAPConnection.query.filter_by(ldap_id=ldap_id).first()
if not ldap:
raise errors.ResourceError(msg=f'No LDAP object found with id {ldap_id}.')
# ensure ldap is not references by existing tenant:
tenants = Tenant.query.filter_by(service_ldap_connection_id=ldap_id).first()
if tenants:
logger.info("LDAP currently in use by tenants.")
raise errors.ResourceError(msg='This LDAP is in use by existing tenants; delete the tenants firts.')
tenants = Tenant.query.filter_by(user_ldap_connection_id=ldap_id).first()
if tenants:
logger.info("LDAP currently in use by tenants.")
raise errors.ResourceError(msg='This LDAP is in use by existing tenants; delete the tenants firts.')
try:
db.session.delete(ldap)
db.session.commit()
except (sqlalchemy.exc.SQLAlchemyError, sqlalchemy.exc.DBAPIError) as e:
msg = utils.get_message_from_sql_exc(e)
raise errors.ResourceError(f"Invalid POST data; {msg}")
return utils.ok(result=None, msg=f'LDAP object {ldap_id} deleted successfully.')
def post(self):
logger.debug(f"top of POST /owners")
validator = RequestValidator(utils.spec)
result = validator.validate(FlaskOpenAPIRequest(request))
if result.errors:
raise errors.ResourceError(msg=f'Invalid POST data: {result.errors}.')
validated_params = result.parameters
validated_body = result.body
owner = TenantOwner(name=validated_body.name,
email=validated_body.email,
institution=validated_body.institution,
create_time=datetime.datetime.utcnow(),
last_update_time=datetime.datetime.utcnow()
)
db.session.add(owner)
try:
db.session.commit()
except (sqlalchemy.exc.SQLAlchemyError, sqlalchemy.exc.DBAPIError) as e:
msg = utils.get_message_from_sql_exc(e)
raise errors.ResourceError(f"Invalid POST data; {msg}")
return utils.ok(result=owner.serialize,
msg="Owner object created successfully.")
def get(self, email):
logger.debug(f"top of GET /owners/{email}")
owner = TenantOwner.query.filter_by(email=email).first()
if not owner:
raise errors.ResourceError(msg=f'No owner object found with email {email}.')
return utils.ok(result=owner.serialize, msg='Owner object retrieved successfully.')
def get(self, site_id):
logger.debug(f"top of GET /sites/{site_id}")
site = Site.query.filter_by(site_id=site_id).first()
if not site:
raise errors.ResourceError(msg=f'No site found with site_id {site_id}.')
return utils.ok(result=site.serialize, msg='Site retrieved successfully.')
def put(self, tenant_id):
logger.debug(f"top of PUT /tenants/{tenant_id}")
tenant = Tenant.query.filter_by(tenant_id=tenant_id).first()
if not tenant:
raise errors.ResourceError(msg=f'No tenant found with tenant_id {tenant_id}.')
# additional authorization checks on update based on the tenant_id of the request:
check_authz_tenant_update(tenant_id)
validator = RequestValidator(utils.spec)
result = validator.validate(FlaskOpenAPIRequest(request))
if result.errors:
logger.debug(f"openapi_core validation failed. errors: {result.errors}")
raise errors.ResourceError(msg=f'Invalid PUT data: {result.errors}.')
validated_body = result.body
logger.debug(f"initial openapi_core validation passed. validated_body: {dir(validated_body)}")
# TODO --
# ------------------------- This DOES NOT WORK ------------------------------------
# the validated_body ONLY contains fields in the OAI spec; need to change this to look at the
# request body itself
if not getattr(validated_body, 'site_id', tenant.site_id) == tenant.site_id:
raise errors.ResourceError(msg=f'Invalid PUT data: cannot change site_id.')
if not getattr(validated_body, 'tenant_id', tenant.tenant_id) == tenant.tenant_id:
raise errors.ResourceError(msg=f'Invalid PUT data: cannot change tenant_id.')
if not getattr(validated_body, 'base_url', tenant.base_url) == tenant.base_url:
raise errors.ResourceError(msg=f'Invalid PUT data: cannot change base_url.')
# ------------------------------------------------------------------------------------
# validate the existence of the ldap and owner objects:
if getattr(validated_body, 'owner', None):
owner = TenantOwner.query.filter_by(email=validated_body.owner).first()
if not owner:
raise errors.ResourceError(msg=f'Invalid tenant description. Owner {validated_body.owner} not found.')
logger.debug("owner was valid.")
if getattr(validated_body, 'user_ldap_connection_id', None):
ldap = LDAPConnection.query.filter_by(ldap_id=validated_body.user_ldap_connection_id).first()
if not ldap:
raise errors.ResourceError(msg=f'Invalid tenant description. '
f'LDAP {validated_body.user_ldap_connection_id} not found.')
if getattr(validated_body, 'service_ldap_connection_id', None) and \
not validated_body.service_ldap_connection_id == getattr(validated_body, 'user_ldap_connection_id', None):
ldap = LDAPConnection.query.filter_by(ldap_id=validated_body.service_ldap_connection_id).first()
if not ldap:
raise errors.ResourceError(msg=f'Invalid tenant description. '
f'LDAP {validated_body.service_ldap_connection_id} not found.')
# overlay the tenant_current with the updates specified in the request body.
changes_dict = {}
# security_kernel
new_security_kernel = getattr(validated_body, 'security_kernel', None)
if new_security_kernel and not new_security_kernel == tenant.security_kernel:
changes_dict['security_kernel'] = {'prev': tenant.security_kernel, 'new': new_security_kernel}
tenant.security_kernel = new_security_kernel
# token_service
new_tokens_service = getattr(validated_body, 'token_service', None)
if new_tokens_service and not new_tokens_service == tenant.token_service:
changes_dict['tokens_service'] = {'prev': tenant.token_service, 'new': new_tokens_service}
tenant.token_service = new_tokens_service
# authenticator
new_authenticator = getattr(validated_body, 'authenticator', None)
if new_authenticator and not new_authenticator == tenant.authenticator:
changes_dict['authenticator'] = {'prev': tenant.authenticator, 'new': new_authenticator}
tenant.authenticator = new_authenticator
# admin_user
new_admin_user = getattr(validated_body, 'admin_user', None)
if new_admin_user and not new_admin_user == tenant.admin_user:
changes_dict['admin_user'] = {'prev': tenant.admin_user, 'new': new_admin_user}
tenant.admin_user = new_admin_user
# token_gen_services
new_token_gen_services = getattr(validated_body, 'token_gen_services', None)
if new_token_gen_services and not new_token_gen_services == tenant.token_gen_services:
changes_dict['token_gen_services'] = {'prev': tenant.token_gen_services, 'new': new_token_gen_services}
tenant.token_gen_services = new_token_gen_services
# service_ldap_connection_id
new_service_ldap_connection_id = getattr(validated_body, 'service_ldap_connection_id', None)
if new_service_ldap_connection_id and not new_service_ldap_connection_id == tenant.service_ldap_connection_id:
changes_dict['service_ldap_connection_id'] = {'prev': tenant.service_ldap_connection_id,
'new': new_service_ldap_connection_id}
tenant.service_ldap_connection_id = new_service_ldap_connection_id
# user_ldap_connection_id
new_user_ldap_connection_id = getattr(validated_body, 'user_ldap_connection_id', None)
if new_user_ldap_connection_id and not new_user_ldap_connection_id == tenant.user_ldap_connection_id:
changes_dict['user_ldap_connection_id'] = {'prev': tenant.user_ldap_connection_id,
'new': new_user_ldap_connection_id}
tenant.user_ldap_connection_id = new_user_ldap_connection_id
# public_key
new_public_key = getattr(validated_body, 'public_key', None)
if new_public_key and not new_public_key == tenant.public_key:
changes_dict['public_key'] = {'prev': tenant.public_key, 'new': new_public_key}
tenant.public_key = new_public_key
# status
new_status = getattr(validated_body, 'status', None)
if new_status and not new_status == tenant.status:
changes_dict['status'] = {'prev': tenant.status.serialize, 'new': new_status.upper()}
tenant.status = new_status
# description
new_description = getattr(validated_body, 'description', None)
if new_description and not new_description == tenant.description:
changes_dict['description'] = {'prev': tenant.description, 'new': new_description}
tenant.description = new_description
# owner
new_owner = getattr(validated_body, 'owner', None)
if new_owner and not new_owner == tenant.owner:
changes_dict['owner'] = {'prev': tenant.owner, 'new': new_owner}
tenant.owner = new_owner
# last_update_time and last_updated_by
update_time = datetime.datetime.utcnow()
updated_by = f'{g.username}@{g.tenant_id}'
tenant.last_update_time = update_time
tenant.last_updated_by = updated_by
# create the history record
tenant_history = TenantHistory(
tenant_id=tenant.tenant_id,
update_time=update_time,
updated_by=updated_by,
updates_as_json=json.dumps(changes_dict)
)
db.session.add(tenant_history)
try:
db.session.commit()
logger.info(f"update to tenant committed to db. tenant object: {tenant}")
except (sqlalchemy.exc.SQLAlchemyError, sqlalchemy.exc.DBAPIError) as e:
logger.debug(f"got exception trying to commit updated tenant object to db. Exception: {e}")
msg = utils.get_message_from_sql_exc(e)
logger.debug(f"returning msg: {msg}")
raise errors.ResourceError(f"Invalid PUT data; {msg}")
logger.debug("returning serialized tenant object.")
return utils.ok(result=tenant.serialize, msg="Tenant updated successfully.")
def get(self, tenant_id):
logger.debug(f"top of GET /tenants/{tenant_id}")
tenant = Tenant.query.filter_by(tenant_id=tenant_id).first()
if not tenant:
raise errors.ResourceError(msg=f'No tenant found with tenant_id {tenant_id}.')
return utils.ok(result=tenant.serialize, msg='Tenant retrieved successfully.')
def post(self):
logger.debug(f"top of POST /tenants")
validator = RequestValidator(utils.spec)
result = validator.validate(FlaskOpenAPIRequest(request))
if result.errors:
logger.debug(f"openapi_core validation failed. errors: {result.errors}")
raise errors.ResourceError(msg=f'Invalid POST data: {result.errors}.')
validated_body = result.body
logger.debug(f"initial openapi_core validation passed. validated_body: {dir(validated_body)}")
# check reserved words "owners" and "ldaps" -- these cannot be tenant id's:
try:
if validated_body.tenant_id.lower() == 'owners':
raise errors.ResourceError("Invalid tenant_id; 'owners' is a reserved keyword.")
if validated_body.tenant_id.lower() == 'ldaps':
raise errors.ResourceError("Invalid tenant_id; 'ldaps' is a reserved keyword.")
if validated_body.tenant_id.lower() == 'ready':
raise errors.ResourceError("Invalid tenant_id; 'ready' is a reserved keyword.")
if validated_body.tenant_id.lower() == 'hello':
raise errors.ResourceError("Invalid tenant_id; 'hello' is a reserved keyword.")
except Exception as e:
msg = f"Could not check tenant description for reserved words; Errors: {e}"
logger.error(msg)
raise errors.ResourceError(msg)
logger.debug("got past the reserved words check.")
# validate the existence of the site object:
try:
site_id = validated_body.site_id
site = Site.query.filter_by(site_id=site_id).first()
except Exception as e:
logger.error(f"Got exception trying to retrieve site; e: {e}")
raise errors.ResourceError(msg='Invalid tenant description; could not verify site_id.')
if not site:
raise errors.ResourceError(msg=f'Invalid tenant description. site {validated_body.site_id} not found.')
logger.debug(f"site_id {site_id} is ok.")
# validate the existence of the ldap and owner objects:
owner = TenantOwner.query.filter_by(email=validated_body.owner).first()
if not owner:
raise errors.ResourceError(msg=f'Invalid tenant description. Owner {validated_body.owner} not found.')
logger.debug("owner was valid.")
# ldap objects are optional:
if getattr(validated_body, 'user_ldap_connection_id', None):
ldap = LDAPConnection.query.filter_by(ldap_id=validated_body.user_ldap_connection_id).first()
if not ldap:
raise errors.ResourceError(msg=f'Invalid tenant description. '
f'LDAP {validated_body.user_ldap_connection_id} not found.')
if getattr(validated_body, 'service_ldap_connection_id', None) and \
not validated_body.service_ldap_connection_id == getattr(validated_body, 'user_ldap_connection_id', None):
ldap = LDAPConnection.query.filter_by(ldap_id=validated_body.service_ldap_connection_id).first()
if not ldap:
raise errors.ResourceError(msg=f'Invalid tenant description. '
f'LDAP {validated_body.service_ldap_connection_id} not found.')
logger.debug("ldap was valid; creating tenant record..")
# create the tenant record --
tenant = Tenant(tenant_id=validated_body.tenant_id,
base_url=validated_body.base_url,
site_id=validated_body.site_id,
status=validated_body.status,
public_key=getattr(validated_body, 'public_key', None),
token_service=validated_body.token_service,
security_kernel=validated_body.security_kernel,
authenticator=validated_body.authenticator,
owner=validated_body.owner,
admin_user=validated_body.admin_user,
token_gen_services=validated_body.token_gen_services,
service_ldap_connection_id=getattr(validated_body, 'service_ldap_connection_id', None),
user_ldap_connection_id=getattr(validated_body, 'user_ldap_connection_id', None),
description=getattr(validated_body, 'description', None),
create_time=datetime.datetime.utcnow(),
created_by=f'{g.username}@{g.tenant_id}',
last_updated_by=f'{g.username}@{g.tenant_id}',
last_update_time=datetime.datetime.utcnow())
db.session.add(tenant)
try:
db.session.commit()
logger.info(f"new tenant committed to db. tenant object: {tenant}")
except (sqlalchemy.exc.SQLAlchemyError, sqlalchemy.exc.DBAPIError) as e:
logger.debug(f"got exception trying to commit new tenant object to db. Exception: {e}")
msg = utils.get_message_from_sql_exc(e)
logger.debug(f"returning msg: {msg}")
raise errors.ResourceError(f"Invalid POST data; {msg}")
logger.debug("returning serialized tenant object.")
return utils.ok(result=tenant.serialize, msg="Tenant created successfully.")
def get(self):
logger.debug("top of GET /ldaps")
ldaps = LDAPConnection.query.all()
return utils.ok(result=[l.serialize for l in ldaps], msg="LDAPs retrieved successfully.")
def get(self, ldap_id):
logger.debug(f"top of GET /ldaps/{ldap_id}")
ldap = LDAPConnection.query.filter_by(ldap_id=ldap_id).first()
if not ldap:
raise errors.ResourceError(msg=f'No LDAP object found with id {ldap_id}.')
return utils.ok(result=ldap.serialize, msg='LDAP object retrieved successfully.')
def get(self):
logger.debug("top of GET /sites")
sites = Site.query.all()
return utils.ok(result=[s.serialize for s in sites], msg="Sites retrieved successfully.")
def get(self):
logger.debug(f"top of GET /owners")
owners = TenantOwner.query.all()
return utils.ok(result=[o.serialize for o in owners], msg="Owners retrieved successfully.")