def neutron_settings(): neutron_settings = {} if is_relation_made('neutron-api', 'neutron-plugin'): neutron_api_info = NeutronAPIContext()() neutron_settings.update({ # XXX: Rename these relations settings? 'quantum_plugin': neutron_api_info['neutron_plugin'], 'region': config('region'), 'quantum_security_groups': neutron_api_info['neutron_security_groups'], 'quantum_url': neutron_api_info['neutron_url'], }) else: neutron_settings.update({ # XXX: Rename these relations settings? 'quantum_plugin': neutron_plugin(), 'region': config('region'), 'quantum_security_groups': config('quantum-security-groups'), 'quantum_url': "{}:{}".format(canonical_url(CONFIGS, INTERNAL), str(api_port('neutron-server'))), }) neutron_url = urlparse(neutron_settings['quantum_url']) neutron_settings['quantum_host'] = neutron_url.hostname neutron_settings['quantum_port'] = neutron_url.port return neutron_settings
def __call__(self): ''' Extends the main charmhelpers HAProxyContext with a port mapping specific to this charm. Also used to extend nova.conf context with correct api_listening_ports ''' from nova_cc_utils import api_port ctxt = super(HAProxyContext, self).__call__() # determine which port api processes should bind to, depending # on existence of haproxy + apache frontends compute_api = determine_api_port(api_port('nova-api-os-compute'), singlenode_mode=True) ec2_api = determine_api_port(api_port('nova-api-ec2'), singlenode_mode=True) s3_api = determine_api_port(api_port('nova-objectstore'), singlenode_mode=True) # Apache ports a_compute_api = determine_apache_port(api_port('nova-api-os-compute'), singlenode_mode=True) a_ec2_api = determine_apache_port(api_port('nova-api-ec2'), singlenode_mode=True) a_s3_api = determine_apache_port(api_port('nova-objectstore'), singlenode_mode=True) # to be set in nova.conf accordingly. listen_ports = { 'osapi_compute_listen_port': compute_api, 'ec2_listen_port': ec2_api, 's3_listen_port': s3_api, } port_mapping = { 'nova-api-os-compute': [ api_port('nova-api-os-compute'), a_compute_api], 'nova-api-ec2': [ api_port('nova-api-ec2'), a_ec2_api], 'nova-objectstore': [ api_port('nova-objectstore'), a_s3_api], } # for haproxy.conf ctxt['service_ports'] = port_mapping # for nova.conf ctxt['listen_ports'] = listen_ports return ctxt
def nova_vmware_relation_joined(rid=None): rel_settings = {'network_manager': network_manager()} ks_auth = _auth_config() if ks_auth: rel_settings.update(ks_auth) rel_settings.update({ 'quantum_plugin': neutron_plugin(), 'quantum_security_groups': config('quantum-security-groups'), 'quantum_url': "{}:{}".format(canonical_url(CONFIGS, INTERNAL), str(api_port('neutron-server')))}) relation_set(relation_id=rid, **rel_settings)
def __call__(self): ''' Extends the main charmhelpers HAProxyContext with a port mapping specific to this charm. Also used to extend nova.conf context with correct api_listening_ports ''' from nova_cc_utils import api_port ctxt = super(HAProxyContext, self).__call__() # determine which port api processes should bind to, depending # on existence of haproxy + apache frontends compute_api = determine_api_port(api_port('nova-api-os-compute'), singlenode_mode=True) ec2_api = determine_api_port(api_port('nova-api-ec2'), singlenode_mode=True) s3_api = determine_api_port(api_port('nova-objectstore'), singlenode_mode=True) # Apache ports a_compute_api = determine_apache_port(api_port('nova-api-os-compute'), singlenode_mode=True) a_ec2_api = determine_apache_port(api_port('nova-api-ec2'), singlenode_mode=True) a_s3_api = determine_apache_port(api_port('nova-objectstore'), singlenode_mode=True) # to be set in nova.conf accordingly. listen_ports = { 'osapi_compute_listen_port': compute_api, 'ec2_listen_port': ec2_api, 's3_listen_port': s3_api, } port_mapping = { 'nova-api-os-compute': [api_port('nova-api-os-compute'), a_compute_api], 'nova-api-ec2': [api_port('nova-api-ec2'), a_ec2_api], 'nova-objectstore': [api_port('nova-objectstore'), a_s3_api], } # for haproxy.conf ctxt['service_ports'] = port_mapping # for nova.conf ctxt['listen_ports'] = listen_ports return ctxt
def nova_vmware_relation_joined(rid=None): rel_settings = {'network_manager': network_manager()} ks_auth = _auth_config() if ks_auth: rel_settings.update(ks_auth) rel_settings.update({ 'quantum_plugin': neutron_plugin(), 'quantum_security_groups': config('quantum-security-groups'), 'quantum_url': "{}:{}".format(canonical_url(CONFIGS, INTERNAL), str(api_port('neutron-server'))) }) relation_set(relation_id=rid, **rel_settings)
def keystone_compute_settings(): ks_auth_config = _auth_config() rel_settings = {} if network_manager() in ['quantum', 'neutron']: if ks_auth_config: rel_settings.update(ks_auth_config) rel_settings.update({ # XXX: Rename these relations settings? 'quantum_plugin': neutron_plugin(), 'region': config('region'), 'quantum_security_groups': config('quantum-security-groups'), 'quantum_url': (canonical_url(CONFIGS) + ':' + str(api_port('neutron-server'))), }) ks_ca = keystone_ca_cert_b64() if ks_auth_config and ks_ca: rel_settings['ca_cert'] = ks_ca return rel_settings
def __call__(self): ''' Extends the main charmhelpers HAProxyContext with a port mapping specific to this charm. Also used to extend nova.conf context with correct api_listening_ports ''' from nova_cc_utils import api_port ctxt = super(HAProxyContext, self).__call__() # determine which port api processes should bind to, depending # on existence of haproxy + apache frontends compute_api = determine_api_port(api_port('nova-api-os-compute'), singlenode_mode=True) ec2_api = determine_api_port(api_port('nova-api-ec2'), singlenode_mode=True) s3_api = determine_api_port(api_port('nova-objectstore'), singlenode_mode=True) neutron_api = determine_api_port(api_port('neutron-server'), singlenode_mode=True) # Apache ports a_compute_api = determine_apache_port(api_port('nova-api-os-compute'), singlenode_mode=True) a_ec2_api = determine_apache_port(api_port('nova-api-ec2'), singlenode_mode=True) a_s3_api = determine_apache_port(api_port('nova-objectstore'), singlenode_mode=True) a_neutron_api = determine_apache_port(api_port('neutron-server'), singlenode_mode=True) # to be set in nova.conf accordingly. listen_ports = { 'osapi_compute_listen_port': compute_api, 'ec2_listen_port': ec2_api, 's3_listen_port': s3_api, } port_mapping = { 'nova-api-os-compute': [ api_port('nova-api-os-compute'), a_compute_api], 'nova-api-ec2': [ api_port('nova-api-ec2'), a_ec2_api], 'nova-objectstore': [ api_port('nova-objectstore'), a_s3_api], } if not is_relation_made('neutron-api'): if neutron.network_manager() == 'neutron': port_mapping.update({ 'neutron-server': [ api_port('neutron-server'), a_neutron_api] }) # neutron.conf listening port, set separte from nova's. ctxt['neutron_bind_port'] = neutron_api # for haproxy.conf ctxt['service_ports'] = port_mapping # for nova.conf ctxt['listen_ports'] = listen_ports return ctxt
def __call__(self): ''' Extends the main charmhelpers HAProxyContext with a port mapping specific to this charm. Also used to extend nova.conf context with correct api_listening_ports ''' from nova_cc_utils import api_port ctxt = super(HAProxyContext, self).__call__() # determine which port api processes should bind to, depending # on existence of haproxy + apache frontends compute_api = determine_api_port(api_port('nova-api-os-compute'), singlenode_mode=True) ec2_api = determine_api_port(api_port('nova-api-ec2'), singlenode_mode=True) s3_api = determine_api_port(api_port('nova-objectstore'), singlenode_mode=True) nvol_api = determine_api_port(api_port('nova-api-os-volume'), singlenode_mode=True) neutron_api = determine_api_port(api_port('neutron-server'), singlenode_mode=True) # Apache ports a_compute_api = determine_apache_port(api_port('nova-api-os-compute'), singlenode_mode=True) a_ec2_api = determine_apache_port(api_port('nova-api-ec2'), singlenode_mode=True) a_s3_api = determine_apache_port(api_port('nova-objectstore'), singlenode_mode=True) a_nvol_api = determine_apache_port(api_port('nova-api-os-volume'), singlenode_mode=True) a_neutron_api = determine_apache_port(api_port('neutron-server'), singlenode_mode=True) # to be set in nova.conf accordingly. listen_ports = { 'osapi_compute_listen_port': compute_api, 'ec2_listen_port': ec2_api, 's3_listen_port': s3_api, } port_mapping = { 'nova-api-os-compute': [api_port('nova-api-os-compute'), a_compute_api], 'nova-api-ec2': [api_port('nova-api-ec2'), a_ec2_api], 'nova-objectstore': [api_port('nova-objectstore'), a_s3_api], } if relation_ids('nova-volume-service'): port_mapping.update({ 'nova-api-ec2': [api_port('nova-api-ec2'), a_nvol_api], }) listen_ports['osapi_volume_listen_port'] = nvol_api if not is_relation_made('neutron-api'): if neutron.network_manager() in ['neutron', 'quantum']: port_mapping.update({ 'neutron-server': [api_port('neutron-server'), a_neutron_api] }) # quantum/neutron.conf listening port, set separte from nova's. ctxt['neutron_bind_port'] = neutron_api # for haproxy.conf ctxt['service_ports'] = port_mapping # for nova.conf ctxt['listen_ports'] = listen_ports return ctxt
def __call__(self): ''' Extends the main charmhelpers HAProxyContext with a port mapping specific to this charm. Also used to extend nova.conf context with correct api_listening_ports ''' from nova_cc_utils import api_port ctxt = super(HAProxyContext, self).__call__() # determine which port api processes should bind to, depending # on existence of haproxy + apache frontends compute_api = determine_api_port(api_port('nova-api-os-compute')) ec2_api = determine_api_port(api_port('nova-api-ec2')) s3_api = determine_api_port(api_port('nova-objectstore')) nvol_api = determine_api_port(api_port('nova-api-os-volume')) neutron_api = determine_api_port(api_port('neutron-server')) # to be set in nova.conf accordingly. listen_ports = { 'osapi_compute_listen_port': compute_api, 'ec2_listen_port': ec2_api, 's3_listen_port': s3_api, } port_mapping = { 'nova-api-os-compute': [ determine_haproxy_port(api_port('nova-api-os-compute')), compute_api, ], 'nova-api-ec2': [ determine_haproxy_port(api_port('nova-api-ec2')), ec2_api, ], 'nova-objectstore': [ determine_haproxy_port(api_port('nova-objectstore')), s3_api, ], } if relation_ids('nova-volume-service'): port_mapping.update({ 'nova-api-ec2': [ determine_haproxy_port(api_port('nova-api-ec2')), nvol_api], }) listen_ports['osapi_volume_listen_port'] = nvol_api if neutron.network_manager() in ['neutron', 'quantum']: port_mapping.update({ 'neutron-server': [ determine_haproxy_port(api_port('neutron-server')), neutron_api] }) # quantum/neutron.conf listening port, set separte from nova's. ctxt['neutron_bind_port'] = neutron_api # for haproxy.conf ctxt['service_ports'] = port_mapping # for nova.conf ctxt['listen_ports'] = listen_ports return ctxt