def main(): argument_spec = mso_argument_spec() argument_spec.update( schema=dict(type='str', required=True), site=dict(type='str', required=True), template=dict(type='str', required=True), anp=dict(type='str', required=True), epg=dict(type='str', required=True), type=dict(type='str', default='port', choices=['port', 'vpc', 'dpc']), pod=dict(type='str' ), # This parameter is not required for querying all objects leaf=dict(type='str' ), # This parameter is not required for querying all objects fex=dict(type='str' ), # This parameter is not required for querying all objects path=dict(type='str' ), # This parameter is not required for querying all objects vlan=dict(type='int' ), # This parameter is not required for querying all objects primary_micro_segment_vlan=dict( type='int' ), # This parameter is not required for querying all objects deployment_immediacy=dict(type='str', default='lazy', choices=['immediate', 'lazy']), mode=dict(type='str', default='untagged', choices=['native', 'regular', 'untagged']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['type', 'pod', 'leaf', 'path', 'vlan']], ['state', 'present', ['type', 'pod', 'leaf', 'path', 'vlan']], ], ) schema = module.params.get('schema') site = module.params.get('site') template = module.params.get('template') anp = module.params.get('anp') epg = module.params.get('epg') path_type = module.params.get('type') pod = module.params.get('pod') leaf = module.params.get('leaf') fex = module.params.get('fex') path = module.params.get('path') vlan = module.params.get('vlan') primary_micro_segment_vlan = module.params.get( 'primary_micro_segment_vlan') deployment_immediacy = module.params.get('deployment_immediacy') mode = module.params.get('mode') state = module.params.get('state') if path_type == 'port' and fex is not None: # Select port path for fex if fex param is used portpath = 'topology/{0}/paths-{1}/extpaths-{2}/pathep-[{3}]'.format( pod, leaf, fex, path) elif path_type == 'vpc': portpath = 'topology/{0}/protpaths-{1}/pathep-[{2}]'.format( pod, leaf, path) else: portpath = 'topology/{0}/paths-{1}/pathep-[{2}]'.format( pod, leaf, path) mso = MSOModule(module) # Get schema_id schema_obj = mso.get_obj('schemas', displayName=schema) if not schema_obj: mso.fail_json( msg="Provided schema '{0}' does not exist".format(schema)) schema_path = 'schemas/{id}'.format(**schema_obj) schema_id = schema_obj.get('id') # Get template templates = [t.get('name') for t in schema_obj.get('templates')] if template not in templates: mso.fail_json( msg="Provided template '{0}' does not exist. Existing templates: {1}" .format(template, ', '.join(templates))) template_idx = templates.index(template) # Get site site_id = mso.lookup_site(site) # Get site_idx if 'sites' not in schema_obj: mso.fail_json( msg= "No site associated with template '{0}'. Associate the site with the template using mso_schema_site." .format(template)) sites = [(s.get('siteId'), s.get('templateName')) for s in schema_obj.get('sites')] sites_list = [ s.get('siteId') + '/' + s.get('templateName') for s in schema_obj.get('sites') ] if (site_id, template) not in sites: mso.fail_json( msg="Provided site/siteId/template '{0}/{1}/{2}' does not exist. " "Existing siteIds/templates: {3}".format(site, site_id, template, ', '.join(sites_list))) # Schema-access uses indexes site_idx = sites.index((site_id, template)) # Path-based access uses site_id-template site_template = '{0}-{1}'.format(site_id, template) payload = dict() ops = [] op_path = '' # Get ANP anp_ref = mso.anp_ref(schema_id=schema_id, template=template, anp=anp) anps = [a.get('anpRef') for a in schema_obj['sites'][site_idx]['anps']] anps_in_temp = [ a.get('name') for a in schema_obj['templates'][template_idx]['anps'] ] if anp not in anps_in_temp: mso.fail_json( msg="Provided anp '{0}' does not exist. Existing anps: {1}".format( anp, ', '.join(anps))) else: # Update anp index at template level template_anp_idx = anps_in_temp.index(anp) # If anp not at site level but exists at template level if anp_ref not in anps: op_path = '/sites/{0}/anps/-'.format(site_template) payload.update(anpRef=dict( schemaId=schema_id, templateName=template, anpName=anp, ), ) else: # Update anp index at site level anp_idx = anps.index(anp_ref) # Get EPG epg_ref = mso.epg_ref(schema_id=schema_id, template=template, anp=anp, epg=epg) # If anp exists at site level if 'anpRef' not in payload: epgs = [ e.get('epgRef') for e in schema_obj['sites'][site_idx]['anps'][anp_idx]['epgs'] ] # If anp already at site level AND if epg not at site level (or) anp not at site level if ('anpRef' not in payload and epg_ref not in epgs) or 'anpRef' in payload: epgs_in_temp = [ e.get('name') for e in schema_obj['templates'][template_idx] ['anps'][template_anp_idx]['epgs'] ] # If EPG not at template level - Fail if epg not in epgs_in_temp: mso.fail_json( msg= "Provided EPG '{0}' does not exist. Existing EPGs: {1} epgref {2}" .format(epg, ', '.join(epgs_in_temp), epg_ref)) # EPG at template level but not at site level. Create payload at site level for EPG else: new_epg = dict(epgRef=dict( schemaId=schema_id, templateName=template, anpName=anp, epgName=epg, )) # If anp not in payload then, anp already exists at site level. New payload will only have new EPG payload if 'anpRef' not in payload: op_path = '/sites/{0}/anps/{1}/epgs/-'.format( site_template, anp) payload = new_epg else: # If anp in payload, anp exists at site level. Update payload with EPG payload payload['epgs'] = [new_epg] # Update index of EPG at site level else: epg_idx = epgs.index(epg_ref) # Get Leaf # If anp at site level and epg is at site level if 'anpRef' not in payload and 'epgRef' not in payload: portpaths = [ p.get('path') for p in schema_obj.get('sites')[site_idx]['anps'] [anp_idx]['epgs'][epg_idx]['staticPorts'] ] if portpath in portpaths: portpath_idx = portpaths.index(portpath) port_path = '/sites/{0}/anps/{1}/epgs/{2}/staticPorts/{3}'.format( site_template, anp, epg, portpath_idx) mso.existing = schema_obj.get('sites')[site_idx]['anps'][anp_idx][ 'epgs'][epg_idx]['staticPorts'][portpath_idx] if state == 'query': if leaf is None or vlan is None: mso.existing = schema_obj.get('sites')[site_idx]['anps'][anp_idx][ 'epgs'][epg_idx]['staticPorts'] elif not mso.existing: mso.fail_json(msg="Static port '{portpath}' not found".format( portpath=portpath)) mso.exit_json() ports_path = '/sites/{0}/anps/{1}/epgs/{2}/staticPorts'.format( site_template, anp, epg) ops = [] new_leaf = dict( deploymentImmediacy=deployment_immediacy, mode=mode, path=portpath, portEncapVlan=vlan, type=path_type, microSegVlan=primary_micro_segment_vlan, ) # If payload is empty, anp and EPG already exist at site level if not payload: op_path = ports_path + '/-' payload = new_leaf # If payload exists else: # If anp already exists at site level if 'anpRef' not in payload: payload['staticPorts'] = [new_leaf] else: payload['epgs'][0]['staticPorts'] = [new_leaf] mso.previous = mso.existing if state == 'absent': if mso.existing: mso.sent = mso.existing = {} ops.append(dict(op='remove', path=port_path)) elif state == 'present': mso.sanitize(payload, collate=True) if mso.existing: ops.append(dict(op='replace', path=port_path, value=mso.sent)) else: ops.append(dict(op='add', path=op_path, value=mso.sent)) mso.existing = new_leaf if not module.check_mode: mso.request(schema_path, method='PATCH', data=ops) mso.exit_json()
def main(): argument_spec = mso_argument_spec() argument_spec.update( schema=dict(type='str', required=True), site=dict(type='str', required=True), template=dict(type='str', required=True), anp=dict(type='str', required=True), epg=dict(type='str', required=True), pod=dict(type='str' ), # This parameter is not required for querying all objects leaf=dict(type='str', aliases=['name']), vlan=dict(type='int'), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['pod', 'leaf', 'vlan']], ['state', 'present', ['pod', 'leaf', 'vlan']], ], ) schema = module.params['schema'] site = module.params['site'] template = module.params['template'] anp = module.params['anp'] epg = module.params['epg'] pod = module.params['pod'] leaf = module.params['leaf'] vlan = module.params['vlan'] state = module.params['state'] leafpath = 'topology/{0}/node-{1}'.format(pod, leaf) mso = MSOModule(module) # Get schema_id schema_obj = mso.get_obj('schemas', displayName=schema) if not schema_obj: mso.fail_json( msg="Provided schema '{0}' does not exist".format(schema)) schema_path = 'schemas/{id}'.format(**schema_obj) schema_id = schema_obj['id'] # Get site site_id = mso.lookup_site(site) # Get site_idx sites = [(s['siteId'], s['templateName']) for s in schema_obj['sites']] if (site_id, template) not in sites: mso.fail_json( msg= "Provided site/template '{0}-{1}' does not exist. Existing sites/templates: {2}" .format(site, template, ', '.join(sites))) # Schema-access uses indexes site_idx = sites.index((site_id, template)) # Path-based access uses site_id-template site_template = '{0}-{1}'.format(site_id, template) # Get ANP anp_ref = mso.anp_ref(schema_id=schema_id, template=template, anp=anp) anps = [a['anpRef'] for a in schema_obj['sites'][site_idx]['anps']] if anp_ref not in anps: mso.fail_json( msg="Provided anp '{0}' does not exist. Existing anps: {1}".format( anp, ', '.join(anps))) anp_idx = anps.index(anp_ref) # Get EPG epg_ref = mso.epg_ref(schema_id=schema_id, template=template, anp=anp, epg=epg) epgs = [ e['epgRef'] for e in schema_obj['sites'][site_idx]['anps'][anp_idx]['epgs'] ] if epg_ref not in epgs: mso.fail_json( msg="Provided epg '{0}' does not exist. Existing epgs: {1}".format( epg, ', '.join(epgs))) epg_idx = epgs.index(epg_ref) # Get Leaf leafs = [(l['path'], l['portEncapVlan']) for l in schema_obj['sites'] [site_idx]['anps'][anp_idx]['epgs'][epg_idx]['staticLeafs']] if (leafpath, vlan) in leafs: leaf_idx = leafs.index((leafpath, vlan)) # FIXME: Changes based on index are DANGEROUS leaf_path = '/sites/{0}/anps/{1}/epgs/{2}/staticLeafs/{3}'.format( site_template, anp, epg, leaf_idx) mso.existing = schema_obj['sites'][site_idx]['anps'][anp_idx]['epgs'][ epg_idx]['staticLeafs'][leaf_idx] if state == 'query': if leaf is None or vlan is None: mso.existing = schema_obj['sites'][site_idx]['anps'][anp_idx][ 'epgs'][epg_idx]['staticLeafs'] elif not mso.existing: mso.fail_json(msg="Static leaf '{leaf}/{vlan}' not found".format( leaf=leaf, vlan=vlan)) mso.exit_json() leafs_path = '/sites/{0}/anps/{1}/epgs/{2}/staticLeafs'.format( site_template, anp, epg) ops = [] mso.previous = mso.existing if state == 'absent': if mso.existing: mso.sent = mso.existing = {} ops.append(dict(op='remove', path=leaf_path)) elif state == 'present': payload = dict( path=leafpath, portEncapVlan=vlan, ) mso.sanitize(payload, collate=True) if mso.existing: ops.append(dict(op='replace', path=leaf_path, value=mso.sent)) else: ops.append(dict(op='add', path=leafs_path + '/-', value=mso.sent)) mso.existing = mso.proposed if not module.check_mode: mso.request(schema_path, method='PATCH', data=ops) mso.exit_json()
def main(): argument_spec = mso_argument_spec() argument_spec.update( schema=dict(type='str', required=True), site=dict(type='str', required=True), template=dict(type='str', required=True), anp=dict(type='str', required=True), epg=dict(type='str', required=True), domain_association_type=dict(type='str', choices=[ 'vmmDomain', 'l3ExtDomain', 'l2ExtDomain', 'physicalDomain', 'fibreChannelDomain' ]), domain_profile=dict(type='str'), deployment_immediacy=dict(type='str', choices=['immediate', 'lazy']), resolution_immediacy=dict( type='str', choices=['immediate', 'lazy', 'pre-provision']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), micro_seg_vlan_type=dict(type='str'), micro_seg_vlan=dict(type='int'), port_encap_vlan_type=dict(type='str'), port_encap_vlan=dict(type='int'), vlan_encap_mode=dict(type='str', choices=['static', 'dynamic']), allow_micro_segmentation=dict(type='bool'), switch_type=dict(type='str'), switching_mode=dict(type='str'), enhanced_lagpolicy_name=dict(type='str'), enhanced_lagpolicy_dn=dict(type='str'), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ [ 'state', 'absent', [ 'domain_association_type', 'domain_profile', 'deployment_immediacy', 'resolution_immediacy' ] ], [ 'state', 'present', [ 'domain_association_type', 'domain_profile', 'deployment_immediacy', 'resolution_immediacy' ] ], ], ) schema = module.params.get('schema') site = module.params.get('site') template = module.params.get('template') anp = module.params.get('anp') epg = module.params.get('epg') domain_association_type = module.params.get('domain_association_type') domain_profile = module.params.get('domain_profile') deployment_immediacy = module.params.get('deployment_immediacy') resolution_immediacy = module.params.get('resolution_immediacy') state = module.params.get('state') micro_seg_vlan_type = module.params.get('micro_seg_vlan_type') micro_seg_vlan = module.params.get('micro_seg_vlan') port_encap_vlan_type = module.params.get('port_encap_vlan_type') port_encap_vlan = module.params.get('port_encap_vlan') vlan_encap_mode = module.params.get('vlan_encap_mode') allow_micro_segmentation = module.params.get('allow_micro_segmentation') switch_type = module.params.get('switch_type') switching_mode = module.params.get('switching_mode') enhanced_lagpolicy_name = module.params.get('enhanced_lagpolicy_name') enhanced_lagpolicy_dn = module.params.get('enhanced_lagpolicy_dn') mso = MSOModule(module) # Get schema_id schema_obj = mso.get_obj('schemas', displayName=schema) if not schema_obj: mso.fail_json( msg="Provided schema '{0}' does not exist".format(schema)) schema_path = 'schemas/{id}'.format(**schema_obj) schema_id = schema_obj.get('id') # Get template templates = [t.get('name') for t in schema_obj.get('templates')] if template not in templates: mso.fail_json( msg="Provided template '{0}' does not exist. Existing templates: {1}" .format(template, ', '.join(templates))) template_idx = templates.index(template) # Get site site_id = mso.lookup_site(site) # Get site_idx if 'sites' not in schema_obj: mso.fail_json( msg= "No site associated with template '{0}'. Associate the site with the template using mso_schema_site." .format(template)) sites = [(s.get('siteId'), s.get('templateName')) for s in schema_obj.get('sites')] sites_list = [ s.get('siteId') + '/' + s.get('templateName') for s in schema_obj.get('sites') ] if (site_id, template) not in sites: mso.fail_json( msg="Provided site/siteId/template '{0}/{1}/{2}' does not exist. " "Existing siteIds/templates: {3}".format(site, site_id, template, ', '.join(sites_list))) # Schema-access uses indexes site_idx = sites.index((site_id, template)) # Path-based access uses site_id-template site_template = '{0}-{1}'.format(site_id, template) payload = dict() ops = [] op_path = '' # Get ANP anp_ref = mso.anp_ref(schema_id=schema_id, template=template, anp=anp) anps = [a.get('anpRef') for a in schema_obj['sites'][site_idx]['anps']] anps_in_temp = [ a.get('name') for a in schema_obj['templates'][template_idx]['anps'] ] if anp not in anps_in_temp: mso.fail_json( msg="Provided anp '{0}' does not exist. Existing anps: {1}".format( anp, ', '.join(anps))) else: # Update anp index at template level template_anp_idx = anps_in_temp.index(anp) # If anp not at site level but exists at template level if anp_ref not in anps: op_path = '/sites/{0}/anps/-'.format(site_template) payload.update(anpRef=dict( schemaId=schema_id, templateName=template, anpName=anp, ), ) else: # Update anp index at site level anp_idx = anps.index(anp_ref) # Get EPG epg_ref = mso.epg_ref(schema_id=schema_id, template=template, anp=anp, epg=epg) # If anp exists at site level if 'anpRef' not in payload: epgs = [ e.get('epgRef') for e in schema_obj['sites'][site_idx]['anps'][anp_idx]['epgs'] ] # If anp already at site level AND if epg not at site level (or) anp not at site level? if ('anpRef' not in payload and epg_ref not in epgs) or 'anpRef' in payload: epgs_in_temp = [ e.get('name') for e in schema_obj['templates'][template_idx] ['anps'][template_anp_idx]['epgs'] ] # If EPG not at template level - Fail if epg not in epgs_in_temp: mso.fail_json( msg= "Provided EPG '{0}' does not exist. Existing EPGs: {1} epgref {2}" .format(epg, ', '.join(epgs_in_temp), epg_ref)) # EPG at template level but not at site level. Create payload at site level for EPG else: new_epg = dict(epgRef=dict( schemaId=schema_id, templateName=template, anpName=anp, epgName=epg, )) # If anp not in payload then, anp already exists at site level. New payload will only have new EPG payload if 'anpRef' not in payload: op_path = '/sites/{0}/anps/{1}/epgs/-'.format( site_template, anp) payload = new_epg else: # If anp in payload, anp exists at site level. Update payload with EPG payload payload['epgs'] = [new_epg] # Update index of EPG at site level else: epg_idx = epgs.index(epg_ref) if domain_association_type == 'vmmDomain': domain_dn = 'uni/vmmp-VMware/dom-{0}'.format(domain_profile) elif domain_association_type == 'l3ExtDomain': domain_dn = 'uni/l3dom-{0}'.format(domain_profile) elif domain_association_type == 'l2ExtDomain': domain_dn = 'uni/l2dom-{0}'.format(domain_profile) elif domain_association_type == 'physicalDomain': domain_dn = 'uni/phys-{0}'.format(domain_profile) elif domain_association_type == 'fibreChannelDomain': domain_dn = 'uni/fc-{0}'.format(domain_profile) else: domain_dn = '' # Get Domains # If anp at site level and epg is at site level if 'anpRef' not in payload and 'epgRef' not in payload: domains = [ dom.get('dn') for dom in schema_obj['sites'][site_idx]['anps'] [anp_idx]['epgs'][epg_idx]['domainAssociations'] ] if domain_dn in domains: domain_idx = domains.index(domain_dn) domain_path = '/sites/{0}/anps/{1}/epgs/{2}/domainAssociations/{3}'.format( site_template, anp, epg, domain_idx) mso.existing = schema_obj['sites'][site_idx]['anps'][anp_idx][ 'epgs'][epg_idx]['domainAssociations'][domain_idx] if state == 'query': if domain_association_type is None or domain_profile is None: mso.existing = schema_obj.get('sites')[site_idx]['anps'][anp_idx][ 'epgs'][epg_idx]['domainAssociations'] elif not mso.existing: mso.fail_json( msg= "Domain association '{domain_association_type}/{domain_profile}' not found" .format(domain_association_type=domain_association_type, domain_profile=domain_profile)) mso.exit_json() domains_path = '/sites/{0}/anps/{1}/epgs/{2}/domainAssociations'.format( site_template, anp, epg) ops = [] new_domain = dict( dn=domain_dn, domainType=domain_association_type, deploymentImmediacy=deployment_immediacy, resolutionImmediacy=resolution_immediacy, ) if domain_association_type == 'vmmDomain': vmmDomainProperties = {} if micro_seg_vlan_type and micro_seg_vlan: microSegVlan = dict(vlanType=micro_seg_vlan_type, vlan=micro_seg_vlan) vmmDomainProperties['microSegVlan'] = microSegVlan elif not micro_seg_vlan_type and micro_seg_vlan: mso.fail_json( msg= "micro_seg_vlan_type is required when micro_seg_vlan is provided." ) elif micro_seg_vlan_type and not micro_seg_vlan: mso.fail_json( msg= "micro_seg_vlan is required when micro_seg_vlan_type is provided." ) if port_encap_vlan_type and port_encap_vlan: portEncapVlan = dict(vlanType=port_encap_vlan_type, vlan=port_encap_vlan) vmmDomainProperties['portEncapVlan'] = portEncapVlan elif not port_encap_vlan_type and port_encap_vlan: mso.fail_json( msg= "port_encap_vlan_type is required when port_encap_vlan is provided." ) elif port_encap_vlan_type and not port_encap_vlan: mso.fail_json( msg= "port_encap_vlan is required when port_encap_vlan_type is provided." ) if vlan_encap_mode: vmmDomainProperties['vlanEncapMode'] = vlan_encap_mode if allow_micro_segmentation: vmmDomainProperties[ 'allowMicroSegmentation'] = allow_micro_segmentation if switch_type: vmmDomainProperties['switchType'] = switch_type if switching_mode: vmmDomainProperties['switchingMode'] = switching_mode if enhanced_lagpolicy_name and enhanced_lagpolicy_dn: enhancedLagPol = dict(name=enhanced_lagpolicy_name, dn=enhanced_lagpolicy_dn) epgLagPol = dict(enhancedLagPol=enhancedLagPol) vmmDomainProperties['epgLagPol'] = epgLagPol elif not enhanced_lagpolicy_name and enhanced_lagpolicy_dn: mso.fail_json( msg= "enhanced_lagpolicy_name is required when enhanced_lagpolicy_dn is provided." ) elif enhanced_lagpolicy_name and not enhanced_lagpolicy_dn: mso.fail_json( msg= "enhanced_lagpolicy_dn is required when enhanced_lagpolicy_name is provided." ) if vmmDomainProperties: new_domain['vmmDomainProperties'] = vmmDomainProperties # If payload is empty, anp and EPG already exist at site level if not payload: op_path = domains_path + '/-' payload = new_domain # If payload exists else: # If anp already exists at site level...(AND payload != epg as well?) if 'anpRef' not in payload: payload['domainAssociations'] = [new_domain] else: payload['epgs'][0]['domainAssociations'] = [new_domain] mso.previous = mso.existing if state == 'absent': if mso.existing: mso.sent = mso.existing = {} ops.append(dict(op='remove', path=domain_path)) elif state == 'present': mso.sanitize(payload, collate=True) if mso.existing: ops.append(dict(op='replace', path=domain_path, value=mso.sent)) else: ops.append(dict(op='add', path=op_path, value=mso.sent)) mso.existing = new_domain if not module.check_mode: mso.request(schema_path, method='PATCH', data=ops) mso.exit_json()
def main(): argument_spec = mso_argument_spec() argument_spec.update( schema=dict(type='str', required=True), site=dict(type='str', required=True), template=dict(type='str', required=True), anp=dict(type='str', aliases=[ 'name' ]), # This parameter is not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['anp']], ['state', 'present', ['anp']], ], ) schema = module.params.get('schema') site = module.params.get('site') template = module.params.get('template').replace(' ', '') anp = module.params.get('anp') state = module.params.get('state') mso = MSOModule(module) # Get schema objects schema_id, schema_path, schema_obj = mso.query_schema(schema) # Get site site_id = mso.lookup_site(site) # Get site_idx if 'sites' not in schema_obj: mso.fail_json( msg= "No site associated with template '{0}'. Associate the site with the template using mso_schema_site." .format(template)) sites = [(s.get('siteId'), s.get('templateName')) for s in schema_obj.get('sites')] sites_list = [ s.get('siteId') + '/' + s.get('templateName') for s in schema_obj.get('sites') ] if (site_id, template) not in sites: mso.fail_json( msg="Provided site/siteId/template '{0}/{1}/{2}' does not exist. " "Existing siteIds/templates: {3}".format(site, site_id, template, ', '.join(sites_list))) # Schema-access uses indexes site_idx = sites.index((site_id, template)) # Path-based access uses site_id-template site_template = '{0}-{1}'.format(site_id, template) # Get ANP anp_ref = mso.anp_ref(schema_id=schema_id, template=template, anp=anp) anps = [a.get('anpRef') for a in schema_obj.get('sites')[site_idx]['anps']] if anp is not None and anp_ref in anps: anp_idx = anps.index(anp_ref) anp_path = '/sites/{0}/anps/{1}'.format(site_template, anp) mso.existing = schema_obj.get('sites')[site_idx]['anps'][anp_idx] if state == 'query': if anp is None: mso.existing = schema_obj.get('sites')[site_idx]['anps'] elif not mso.existing: mso.fail_json(msg="ANP '{anp}' not found".format(anp=anp)) mso.exit_json() anps_path = '/sites/{0}/anps'.format(site_template) ops = [] mso.previous = mso.existing if state == 'absent': if mso.existing: mso.sent = mso.existing = {} ops.append(dict(op='remove', path=anp_path)) elif state == 'present': payload = dict(anpRef=dict( schemaId=schema_id, templateName=template, anpName=anp, ), ) mso.sanitize(payload, collate=True) if mso.existing: ops.append(dict(op='replace', path=anp_path, value=mso.sent)) else: ops.append(dict(op='add', path=anps_path + '/-', value=mso.sent)) mso.existing = mso.proposed if not module.check_mode: mso.request(schema_path, method='PATCH', data=ops) mso.exit_json()
def main(): argument_spec = mso_argument_spec() argument_spec.update( schema=dict(type='str', required=True), site=dict(type='str', required=True), template=dict(type='str', required=True), anp=dict(type='str', aliases=[ 'name' ]), # This parameter is not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['anp']], ['state', 'present', ['anp']], ], ) schema = module.params['schema'] site = module.params['site'] template = module.params['template'] anp = module.params['anp'] state = module.params['state'] mso = MSOModule(module) # Get schema_id schema_obj = mso.get_obj('schemas', displayName=schema) if not schema_obj: mso.fail_json( msg="Provided schema '{0}' does not exist".format(schema)) schema_path = 'schemas/{id}'.format(**schema_obj) schema_id = schema_obj['id'] # Get site site_id = mso.lookup_site(site) # Get site_idx sites = [(s['siteId'], s['templateName']) for s in schema_obj['sites']] if (site_id, template) not in sites: mso.fail_json( msg= "Provided site/template '{0}-{1}' does not exist. Existing sites/templates: {2}" .format(site, template, ', '.join(sites))) # Schema-access uses indexes site_idx = sites.index((site_id, template)) # Path-based access uses site_id-template site_template = '{0}-{1}'.format(site_id, template) # Get ANP anp_ref = mso.anp_ref(schema_id=schema_id, template=template, anp=anp) anps = [a['anpRef'] for a in schema_obj['sites'][site_idx]['anps']] if anp is not None and anp_ref in anps: anp_idx = anps.index(anp_ref) anp_path = '/sites/{0}/anps/{1}'.format(site_template, anp) mso.existing = schema_obj['sites'][site_idx]['anps'][anp_idx] if state == 'query': if anp is None: mso.existing = schema_obj['sites'][site_idx]['anps'] elif not mso.existing: mso.fail_json(msg="ANP '{anp}' not found".format(anp=anp)) mso.exit_json() anps_path = '/sites/{0}/anps'.format(site_template) ops = [] mso.previous = mso.existing if state == 'absent': if mso.existing: mso.sent = mso.existing = {} ops.append(dict(op='remove', path=anp_path)) elif state == 'present': payload = dict(anpRef=dict( schemaId=schema_id, templateName=template, anpName=anp, ), ) mso.sanitize(payload, collate=True) if not mso.existing: ops.append(dict(op='add', path=anps_path + '/-', value=mso.sent)) mso.existing = mso.proposed if not module.check_mode: mso.request(schema_path, method='PATCH', data=ops) mso.exit_json()
def main(): argument_spec = mso_argument_spec() argument_spec.update( schema=dict(type='str', required=True), site=dict(type='str', required=True), template=dict(type='str', required=True), anp=dict(type='str', required=True), epg=dict(type='str', required=True), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) argument_spec.update(mso_epg_subnet_spec()) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['subnet']], ['state', 'present', ['subnet']], ], ) schema = module.params.get('schema') site = module.params.get('site') template = module.params.get('template').replace(' ', '') anp = module.params.get('anp') epg = module.params.get('epg') subnet = module.params.get('subnet') description = module.params.get('description') scope = module.params.get('scope') shared = module.params.get('shared') no_default_gateway = module.params.get('no_default_gateway') state = module.params.get('state') mso = MSOModule(module) # Get schema objects schema_id, schema_path, schema_obj = mso.query_schema(schema) # Get site site_id = mso.lookup_site(site) # Get site_idx if 'sites' not in schema_obj: mso.fail_json(msg="No site associated with template '{0}'. Associate the site with the template using mso_schema_site.".format(template)) sites = [(s.get('siteId'), s.get('templateName')) for s in schema_obj.get('sites')] if (site_id, template) not in sites: mso.fail_json(msg="Provided site/template '{0}-{1}' does not exist. Existing sites/templates: {2}".format(site, template, ', '.join(sites))) # Schema-access uses indexes site_idx = sites.index((site_id, template)) # Path-based access uses site_id-template site_template = '{0}-{1}'.format(site_id, template) # Get ANP anp_ref = mso.anp_ref(schema_id=schema_id, template=template, anp=anp) anps = [a.get('anpRef') for a in schema_obj.get('sites')[site_idx]['anps']] if anp_ref not in anps: mso.fail_json(msg="Provided anp '{0}' does not exist. Existing anps: {1}".format(anp, ', '.join(anps))) anp_idx = anps.index(anp_ref) # Get EPG epg_ref = mso.epg_ref(schema_id=schema_id, template=template, anp=anp, epg=epg) epgs = [e.get('epgRef') for e in schema_obj.get('sites')[site_idx]['anps'][anp_idx]['epgs']] if epg_ref not in epgs: mso.fail_json(msg="Provided epg '{0}' does not exist. Existing epgs: {1}".format(epg, ', '.join(epgs))) epg_idx = epgs.index(epg_ref) # Get Subnet subnets = [s.get('ip') for s in schema_obj.get('sites')[site_idx]['anps'][anp_idx]['epgs'][epg_idx]['subnets']] if subnet in subnets: subnet_idx = subnets.index(subnet) # FIXME: Changes based on index are DANGEROUS subnet_path = '/sites/{0}/anps/{1}/epgs/{2}/subnets/{3}'.format(site_template, anp, epg, subnet_idx) mso.existing = schema_obj.get('sites')[site_idx]['anps'][anp_idx]['epgs'][epg_idx]['subnets'][subnet_idx] if state == 'query': if subnet is None: mso.existing = schema_obj.get('sites')[site_idx]['anps'][anp_idx]['epgs'][epg_idx]['subnets'] elif not mso.existing: mso.fail_json(msg="Subnet '{subnet}' not found".format(subnet=subnet)) mso.exit_json() subnets_path = '/sites/{0}/anps/{1}/epgs/{2}/subnets'.format(site_template, anp, epg) ops = [] mso.previous = mso.existing if state == 'absent': if mso.existing: mso.sent = mso.existing = {} ops.append(dict(op='remove', path=subnet_path)) elif state == 'present': if not mso.existing: if description is None: description = subnet if scope is None: scope = 'private' if shared is None: shared = False if no_default_gateway is None: no_default_gateway = False payload = dict( ip=subnet, description=description, scope=scope, shared=shared, noDefaultGateway=no_default_gateway, ) mso.sanitize(payload, collate=True) if mso.existing: ops.append(dict(op='replace', path=subnet_path, value=mso.sent)) else: ops.append(dict(op='add', path=subnets_path + '/-', value=mso.sent)) mso.existing = mso.proposed if not module.check_mode: mso.request(schema_path, method='PATCH', data=ops) mso.exit_json()
def main(): argument_spec = mso_argument_spec() argument_spec.update( schema=dict(type='str', required=True), site=dict(type='str', required=True), template=dict(type='str', required=True), anp=dict(type='str', required=True), epg=dict(type='str', required=True), type=dict(type='str', default='port', choices=['port']), pod=dict(type='str' ), # This parameter is not required for querying all objects leaf=dict(type='str' ), # This parameter is not required for querying all objects fex=dict(type='str' ), # This parameter is not required for querying all objects path=dict(type='str' ), # This parameter is not required for querying all objects vlan=dict(type='int' ), # This parameter is not required for querying all objects deployment_immediacy=dict(type='str', choices=['immediate', 'lazy']), mode=dict(type='str', choices=['native', 'regular', 'untagged']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['type', 'pod', 'leaf', 'path', 'vlan']], ['state', 'present', ['type', 'pod', 'leaf', 'path', 'vlan']], ], ) schema = module.params['schema'] site = module.params['site'] template = module.params['template'] anp = module.params['anp'] epg = module.params['epg'] path_type = module.params['type'] pod = module.params['pod'] leaf = module.params['leaf'] fex = module.params['fex'] path = module.params['path'] vlan = module.params['vlan'] deployment_immediacy = module.params['deployment_immediacy'] mode = module.params['mode'] state = module.params['state'] if path_type == 'port' and fex is not None: # Select port path for fex if fex param is used portpath = 'topology/{0}/paths-{1}/extpaths-{2}/pathep-[{3}]'.format( pod, leaf, fex, path) else: portpath = 'topology/{0}/paths-{1}/pathep-[{2}]'.format( pod, leaf, path) mso = MSOModule(module) # Get schema_id schema_obj = mso.get_obj('schemas', displayName=schema) if not schema_obj: mso.fail_json( msg="Provided schema '{0}' does not exist".format(schema)) schema_path = 'schemas/{id}'.format(**schema_obj) schema_id = schema_obj['id'] # Get site site_id = mso.lookup_site(site) # Get site_idx sites = [(s['siteId'], s['templateName']) for s in schema_obj['sites']] if (site_id, template) not in sites: mso.fail_json( msg= "Provided site/template '{0}-{1}' does not exist. Existing sites/templates: {2}" .format(site, template, ', '.join(sites))) # Schema-access uses indexes site_idx = sites.index((site_id, template)) # Path-based access uses site_id-template site_template = '{0}-{1}'.format(site_id, template) # Get ANP anp_ref = mso.anp_ref(schema_id=schema_id, template=template, anp=anp) anps = [a['anpRef'] for a in schema_obj['sites'][site_idx]['anps']] if anp_ref not in anps: mso.fail_json( msg="Provided anp '{0}' does not exist. Existing anps: {1}".format( anp, ', '.join(anps))) anp_idx = anps.index(anp_ref) # Get EPG epg_ref = mso.epg_ref(schema_id=schema_id, template=template, anp=anp, epg=epg) epgs = [ e['epgRef'] for e in schema_obj['sites'][site_idx]['anps'][anp_idx]['epgs'] ] if epg_ref not in epgs: mso.fail_json( msg="Provided epg '{0}' does not exist. Existing epgs: {1}".format( epg, ', '.join(epgs))) epg_idx = epgs.index(epg_ref) # Get Leaf portpaths = [ p['path'] for p in schema_obj['sites'][site_idx]['anps'][anp_idx] ['epgs'][epg_idx]['staticPorts'] ] if portpath in portpaths: portpath_idx = portpaths.index(portpath) # FIXME: Changes based on index are DANGEROUS port_path = '/sites/{0}/anps/{1}/epgs/{2}/staticPorts/{3}'.format( site_template, anp, epg, portpath_idx) mso.existing = schema_obj['sites'][site_idx]['anps'][anp_idx]['epgs'][ epg_idx]['staticPorts'][portpath_idx] if state == 'query': if leaf is None or vlan is None: mso.existing = schema_obj['sites'][site_idx]['anps'][anp_idx][ 'epgs'][epg_idx]['staticPorts'] elif not mso.existing: mso.fail_json(msg="Static port '{portpath}' not found".format( portpath=portpath)) mso.exit_json() ports_path = '/sites/{0}/anps/{1}/epgs/{2}/staticPorts'.format( site_template, anp, epg) ops = [] mso.previous = mso.existing if state == 'absent': if mso.existing: mso.sent = mso.existing = {} ops.append(dict(op='remove', path=port_path)) elif state == 'present': if not mso.existing: if deployment_immediacy is None: deployment_immediacy = 'lazy' if mode is None: mode = 'untagged' payload = dict( deploymentImmediacy=deployment_immediacy, mode=mode, path=portpath, portEncapVlan=vlan, type=path_type, ) mso.sanitize(payload, collate=True) if mso.existing: ops.append(dict(op='replace', path=port_path, value=mso.sent)) else: ops.append(dict(op='add', path=ports_path + '/-', value=mso.sent)) mso.existing = mso.proposed if not module.check_mode: mso.request(schema_path, method='PATCH', data=ops) mso.exit_json()
def main(): argument_spec = mso_argument_spec() argument_spec.update( schema=dict(type='str', required=True), site=dict(type='str', required=True), template=dict(type='str', required=True), anp=dict(type='str', required=True), epg=dict(type='str', required=True), selector=dict(type='str'), expressions=dict(type='list', elements='dict', options=mso_expression_spec()), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['selector']], ['state', 'present', ['selector']], ], ) schema = module.params.get('schema') site = module.params.get('site') template = module.params.get('template').replace(' ', '') anp = module.params.get('anp') epg = module.params.get('epg') selector = module.params.get('selector') expressions = module.params.get('expressions') state = module.params.get('state') mso = MSOModule(module) # Get schema objects schema_id, schema_path, schema_obj = mso.query_schema(schema) # Get template templates = [t.get('name') for t in schema_obj.get('templates')] if template not in templates: mso.fail_json( msg="Provided template '{0}' does not exist. Existing templates: {1}" .format(template, ', '.join(templates))) template_idx = templates.index(template) # Get site site_id = mso.lookup_site(site) # Get cloud type site_type = mso.get_obj('sites', name=site).get("cloudProviders")[0] # Get site_idx if 'sites' not in schema_obj: mso.fail_json( msg= "No site associated with template '{0}'. Associate the site with the template using mso_schema_site." .format(template)) sites = [(s.get('siteId'), s.get('templateName')) for s in schema_obj.get('sites')] if (site_id, template) not in sites: mso.fail_json( msg="Provided site-template association '{0}-{1}' does not exist.". format(site, template)) # Schema-access uses indexes site_idx = sites.index((site_id, template)) # Path-based access uses site_id-template site_template = '{0}-{1}'.format(site_id, template) payload = dict() ops = [] op_path = '' # Get ANP anp_ref = mso.anp_ref(schema_id=schema_id, template=template, anp=anp) anps = [a.get('anpRef') for a in schema_obj['sites'][site_idx]['anps']] anps_in_temp = [ a.get('name') for a in schema_obj['templates'][template_idx]['anps'] ] if anp not in anps_in_temp: mso.fail_json( msg="Provided anp '{0}' does not exist. Existing anps: {1}".format( anp, ', '.join(anps_in_temp))) else: # Get anp index at template level template_anp_idx = anps_in_temp.index(anp) # If anp not at site level but exists at template level if anp_ref not in anps: op_path = '/sites/{0}/anps/-'.format(site_template) payload.update(anpRef=dict( schemaId=schema_id, templateName=template, anpName=anp, ), ) else: # Get anp index at site level anp_idx = anps.index(anp_ref) # Get EPG epg_ref = mso.epg_ref(schema_id=schema_id, template=template, anp=anp, epg=epg) # If anp exists at site level if 'anpRef' not in payload: epgs = [ e.get('epgRef') for e in schema_obj['sites'][site_idx]['anps'][anp_idx]['epgs'] ] # If anp already at site level AND if epg not at site level (or) anp not at site level? if ('anpRef' not in payload and epg_ref not in epgs) or 'anpRef' in payload: epgs_in_temp = [ e.get('name') for e in schema_obj['templates'][template_idx] ['anps'][template_anp_idx]['epgs'] ] # If EPG not at template level - Fail if epg not in epgs_in_temp: mso.fail_json( msg="Provided EPG '{0}' does not exist. Existing EPGs: {1}". format(epg, ', '.join(epgs_in_temp))) # EPG at template level but not at site level. Create payload at site level for EPG else: new_epg = dict(epgRef=dict( schemaId=schema_id, templateName=template, anpName=anp, epgName=epg, )) # If anp not in payload then, anp already exists at site level. New payload will only have new EPG payload if 'anpRef' not in payload: op_path = '/sites/{0}/anps/{1}/epgs/-'.format( site_template, anp) payload = new_epg else: # If anp in payload, anp exists at site level. Update payload with EPG payload payload['epgs'] = [new_epg] # Get index of EPG at site level else: epg_idx = epgs.index(epg_ref) # Get selectors # If anp at site level and epg is at site level if 'anpRef' not in payload and 'epgRef' not in payload: if selector and " " in selector: mso.fail_json( msg="There should not be any space in selector name.") selectors = [ s.get('name') for s in schema_obj.get('sites')[site_idx]['anps'] [anp_idx]['epgs'][epg_idx]['selectors'] ] if selector in selectors: selector_idx = selectors.index(selector) selector_path = '/sites/{0}/anps/{1}/epgs/{2}/selectors/{3}'.format( site_template, anp, epg, selector_idx) mso.existing = schema_obj['sites'][site_idx]['anps'][anp_idx][ 'epgs'][epg_idx]['selectors'][selector_idx] if state == 'query': if 'anpRef' in payload: mso.fail_json( msg="Anp '{anp}' does not exist in site level.".format( anp=anp)) if 'epgRef' in payload: mso.fail_json( msg="Epg '{epg}' does not exist in site level.".format( epg=epg)) if selector is None: mso.existing = schema_obj['sites'][site_idx]['anps'][anp_idx][ 'epgs'][epg_idx]['selectors'] elif not mso.existing: mso.fail_json(msg="Selector '{selector}' not found".format( selector=selector)) mso.exit_json() mso.previous = mso.existing if state == 'absent': if mso.existing: mso.sent = mso.existing = {} ops.append(dict(op='remove', path=selector_path)) elif state == 'present': # Get expressions all_expressions = [] if expressions: for expression in expressions: type = expression.get('type') operator = expression.get('operator') value = expression.get('value') if " " in type: mso.fail_json( msg= "There should not be any space in 'type' attribute of expression '{0}'" .format(type)) if operator in ["has_key", "does_not_have_key"] and value: mso.fail_json( msg= "Attribute 'value' is not supported for operator '{0}' in expression '{1}'" .format(operator, type)) if operator in ["not_in", "in", "equals", "not_equals" ] and not value: mso.fail_json( msg= "Attribute 'value' needed for operator '{0}' in expression '{1}'" .format(operator, type)) if type in ["region", "zone", "ip_address"]: if type == "zone" and site_type != "aws": mso.fail_json( msg="Type 'zone' is only supported for aws") if operator in ["has_key", "does_not_have_key"]: mso.fail_json( msg= "Operator '{0}' is not supported when expression type is '{1}'" .format(operator, type)) type = EXPRESSION_KEYS.get(type) else: type = 'Custom:' + type all_expressions.append( dict( key=type, operator=EXPRESSION_OPERATORS.get(operator), value=value, )) new_selector = dict( name=selector, expressions=all_expressions, ) selectors_path = '/sites/{0}/anps/{1}/epgs/{2}/selectors/-'.format( site_template, anp, epg) # if payload is empty, anp and epg already exist at site level if not payload: op_path = selectors_path payload = new_selector # if payload exist else: # if anp already exists at site level if 'anpRef' not in payload: payload['selectors'] = [new_selector] else: payload['epgs'][0]['selectors'] = [new_selector] mso.sanitize(payload, collate=True) if mso.existing: ops.append(dict(op='replace', path=selector_path, value=mso.sent)) else: ops.append(dict(op='add', path=op_path, value=mso.sent)) mso.existing = new_selector if not module.check_mode and mso.existing != mso.previous: mso.request(schema_path, method='PATCH', data=ops) mso.exit_json()
def main(): argument_spec = mso_argument_spec() argument_spec.update( schema=dict(type='str', required=True), site=dict(type='str', required=True), template=dict(type='str', required=True), anp=dict(type='str', required=True), epg=dict(type='str', required=True), domain_association_type=dict(type='str', choices=[ 'vmmDomain', 'l3ExtDomain', 'l2ExtDomain', 'physicalDomain', 'fibreChannel' ]), domain_profile=dict(type='str'), deployment_immediacy=dict(type='str', choices=['immediate', 'lazy']), resolution_immediacy=dict( type='str', choices=['immediate', 'lazy', 'pre-provision']), state=dict(type='str', default='present', choices=['absent', 'present', 'query']), micro_seg_vlan_type=dict(type='str'), micro_seg_vlan=dict(type='int'), port_encap_vlan_type=dict(type='str'), port_encap_vlan=dict(type='int'), vlan_encap_mode=dict(type='str', choices=['static', 'dynamic']), allow_micro_segmentation=dict(type='bool'), switch_type=dict(type='str'), switching_mode=dict(type='str'), enhanced_lagpolicy_name=dict(type='str'), enhanced_lagpolicy_dn=dict(type='str'), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ [ 'state', 'absent', [ 'domain_association_type', 'domain_profile', 'deployment_immediacy', 'resolution_immediacy' ] ], [ 'state', 'present', [ 'domain_association_type', 'domain_profile', 'deployment_immediacy', 'resolution_immediacy' ] ], ], ) schema = module.params['schema'] site = module.params['site'] template = module.params['template'] anp = module.params['anp'] epg = module.params['epg'] domain_association_type = module.params['domain_association_type'] domain_profile = module.params['domain_profile'] deployment_immediacy = module.params['deployment_immediacy'] resolution_immediacy = module.params['resolution_immediacy'] state = module.params['state'] micro_seg_vlan_type = module.params['micro_seg_vlan_type'] micro_seg_vlan = module.params['micro_seg_vlan'] port_encap_vlan_type = module.params['port_encap_vlan_type'] port_encap_vlan = module.params['port_encap_vlan'] vlan_encap_mode = module.params['vlan_encap_mode'] allow_micro_segmentation = module.params['allow_micro_segmentation'] switch_type = module.params['switch_type'] switching_mode = module.params['switching_mode'] enhanced_lagpolicy_name = module.params['enhanced_lagpolicy_name'] enhanced_lagpolicy_dn = module.params['enhanced_lagpolicy_dn'] mso = MSOModule(module) # Get schema_id schema_obj = mso.get_obj('schemas', displayName=schema) if not schema_obj: mso.fail_json( msg="Provided schema '{0}' does not exist".format(schema)) schema_path = 'schemas/{id}'.format(**schema_obj) schema_id = schema_obj['id'] # Get site site_id = mso.lookup_site(site) # Get site_idx sites = [(s['siteId'], s['templateName']) for s in schema_obj['sites']] if (site_id, template) not in sites: mso.fail_json( msg= "Provided site/template '{0}-{1}' does not exist. Existing sites/templates: {2}" .format(site, template, ', '.join(sites))) # Schema-access uses indexes site_idx = sites.index((site_id, template)) # Path-based access uses site_id-template site_template = '{0}-{1}'.format(site_id, template) # Get ANP anp_ref = mso.anp_ref(schema_id=schema_id, template=template, anp=anp) anps = [a['anpRef'] for a in schema_obj['sites'][site_idx]['anps']] if anp_ref not in anps: mso.fail_json( msg="Provided anp '{0}' does not exist. Existing anps: {1}".format( anp, ', '.join(anps))) anp_idx = anps.index(anp_ref) # Get EPG epg_ref = mso.epg_ref(schema_id=schema_id, template=template, anp=anp, epg=epg) print(epg_ref) epgs = [ e['epgRef'] for e in schema_obj['sites'][site_idx]['anps'][anp_idx]['epgs'] ] if epg_ref not in epgs: mso.fail_json( msg= "Provided epg '{0}' does not exist. Existing epgs: {1} epgref {2}". format(epg, str(schema_obj['sites'][site_idx]), epg_ref)) epg_idx = epgs.index(epg_ref) if domain_association_type == 'vmmDomain': domain_dn = 'uni/vmmp-VMware/dom-{0}'.format(domain_profile) elif domain_association_type == 'l3ExtDomain': domain_dn = 'uni/l3dom-{0}'.format(domain_profile) elif domain_association_type == 'l2ExtDomain': domain_dn = 'uni/l2dom-{0}'.format(domain_profile) elif domain_association_type == 'physicalDomain': domain_dn = 'uni/phys-{0}'.format(domain_profile) elif domain_association_type == 'fibreChannel': domain_dn = 'uni/fc-{0}'.format(domain_profile) else: domain_dn = '' # Get Domains domains = [ dom['dn'] for dom in schema_obj['sites'][site_idx]['anps'][anp_idx] ['epgs'][epg_idx]['domainAssociations'] ] if domain_dn in domains: domain_idx = domains.index(domain_dn) domain_path = '/sites/{0}/anps/{1}/epgs/{2}/domainAssociations/{3}'.format( site_template, anp, epg, domain_idx) mso.existing = schema_obj['sites'][site_idx]['anps'][anp_idx]['epgs'][ epg_idx]['domainAssociations'][domain_idx] if state == 'query': if domain_association_type is None or domain_profile is None: mso.existing = schema_obj['sites'][site_idx]['anps'][anp_idx][ 'epgs'][epg_idx]['domainAssociations'] elif not mso.existing: mso.fail_json( msg= "Domain association '{domain_association_type}/{domain_profile}' not found" .format(domain_association_type=domain_association_type, domain_profile=domain_profile)) mso.exit_json() domains_path = '/sites/{0}/anps/{1}/epgs/{2}/domainAssociations'.format( site_template, anp, epg) ops = [] if domain_association_type == 'vmmDomain': vmmDomainProperties = {} if micro_seg_vlan_type and micro_seg_vlan: microSegVlan = dict(vlanType=micro_seg_vlan_type, vlan=micro_seg_vlan) vmmDomainProperties['microSegVlan'] = microSegVlan elif not micro_seg_vlan_type and micro_seg_vlan: mso.fail_json( msg= "micro_seg_vlan_type is required when micro_seg_vlan is provided." ) elif micro_seg_vlan_type and not micro_seg_vlan: mso.fail_json( msg= "micro_seg_vlan is required when micro_seg_vlan_type is provided." ) if micro_seg_vlan_type and micro_seg_vlan: portEncapVlan = dict(vlanType=port_encap_vlan_type, vlan=port_encap_vlan) vmmDomainProperties['portEncapVlan'] = portEncapVlan elif not port_encap_vlan_type and port_encap_vlan: mso.fail_json( msg= "port_encap_vlan_type is required when port_encap_vlan is provided." ) elif port_encap_vlan_type and not port_encap_vlan: mso.fail_json( msg= "port_encap_vlan is required when port_encap_vlan_type is provided." ) if vlan_encap_mode: vmmDomainProperties['vlanEncapMode'] = vlan_encap_mode if allow_micro_segmentation: vmmDomainProperties[ 'allowMicroSegmentation'] = allow_micro_segmentation if switch_type: vmmDomainProperties['switchType'] = switch_type if switching_mode: vmmDomainProperties['switchingMode'] = switching_mode if enhanced_lagpolicy_name and enhanced_lagpolicy_dn: enhancedLagPol = dict(name=enhanced_lagpolicy_name, dn=enhanced_lagpolicy_dn) epgLagPol = dict(enhancedLagPol=enhancedLagPol) vmmDomainProperties['epgLagPol'] = epgLagPol elif not enhanced_lagpolicy_name and enhanced_lagpolicy_dn: mso.fail_json( msg= "enhanced_lagpolicy_name is required when enhanced_lagpolicy_dn is provided." ) elif enhanced_lagpolicy_name and not enhanced_lagpolicy_dn: mso.fail_json( msg= "enhanced_lagpolicy_dn is required when enhanced_lagpolicy_name is provided." ) payload = dict( dn=domain_dn, domainType=domain_association_type, deploymentImmediacy=deployment_immediacy, resolutionImmediacy=resolution_immediacy, ) if vmmDomainProperties: payload['vmmDomainProperties'] = vmmDomainProperties else: payload = dict( dn=domain_dn, domainType=domain_association_type, deploymentImmediacy=deployment_immediacy, resolutionImmediacy=resolution_immediacy, ) mso.previous = mso.existing if state == 'absent': if mso.existing: mso.sent = mso.existing = {} ops.append(dict(op='remove', path=domains_path)) elif state == 'present': mso.sanitize(payload, collate=True) if mso.existing: ops.append(dict(op='replace', path=domain_path, value=mso.sent)) else: ops.append(dict(op='add', path=domains_path + '/-', value=mso.sent)) mso.existing = mso.proposed if not module.check_mode: mso.request(schema_path, method='PATCH', data=ops) mso.exit_json()
def main(): argument_spec = mso_argument_spec() argument_spec.update( schema=dict(type='str', required=True), site=dict(type='str', required=True), template=dict(type='str', required=True), anp=dict(type='str', required=True), epg=dict(type='str', aliases=[ 'name' ]), # This parameter is not required for querying all objects state=dict(type='str', default='present', choices=['absent', 'present', 'query']), ) module = AnsibleModule( argument_spec=argument_spec, supports_check_mode=True, required_if=[ ['state', 'absent', ['epg']], ['state', 'present', ['epg']], ], ) schema = module.params.get('schema') site = module.params.get('site') template = module.params.get('template') anp = module.params.get('anp') epg = module.params.get('epg') state = module.params.get('state') mso = MSOModule(module) # Get schema_id schema_obj = mso.get_obj('schemas', displayName=schema) if not schema_obj: mso.fail_json( msg="Provided schema '{0}' does not exist".format(schema)) schema_path = 'schemas/{id}'.format(**schema_obj) schema_id = schema_obj.get('id') # Get site site_id = mso.lookup_site(site) if 'sites' not in schema_obj: mso.fail_json( msg= "No site associated with template '{0}'. Associate the site with the template using mso_schema_site." .format(template)) sites = [(s.get('siteId'), s.get('templateName')) for s in schema_obj.get('sites')] if (site_id, template) not in sites: mso.fail_json( msg= "Provided site/template '{0}-{1}' does not exist. Existing sites/templates: {2}" .format(site, template, ', '.join(sites))) # Schema-access uses indexes site_idx = sites.index((site_id, template)) # Path-based access uses site_id-template site_template = '{0}-{1}'.format(site_id, template) # Get ANP anp_ref = mso.anp_ref(schema_id=schema_id, template=template, anp=anp) anps = [a.get('anpRef') for a in schema_obj.get('sites')[site_idx]['anps']] if anp_ref not in anps: mso.fail_json( msg="Provided anp '{0}' does not exist. Existing anps: {1}".format( anp, ', '.join(anps))) anp_idx = anps.index(anp_ref) # Get EPG epg_ref = mso.epg_ref(schema_id=schema_id, template=template, anp=anp, epg=epg) epgs = [ e.get('epgRef') for e in schema_obj.get('sites')[site_idx]['anps'][anp_idx]['epgs'] ] if epg is not None and epg_ref in epgs: epg_idx = epgs.index(epg_ref) epg_path = '/sites/{0}/anps/{1}/epgs/{2}'.format( site_template, anp, epg) mso.existing = schema_obj.get( 'sites')[site_idx]['anps'][anp_idx]['epgs'][epg_idx] if state == 'query': if epg is None: mso.existing = schema_obj.get( 'sites')[site_idx]['anps'][anp_idx]['epgs'] elif not mso.existing: mso.fail_json(msg="EPG '{epg}' not found".format(epg=epg)) mso.exit_json() epgs_path = '/sites/{0}/anps/{1}/epgs'.format(site_template, anp) ops = [] mso.previous = mso.existing if state == 'absent': if mso.existing: mso.sent = mso.existing = {} ops.append(dict(op='remove', path=epg_path)) elif state == 'present': payload = dict(epgRef=dict( schemaId=schema_id, templateName=template, anpName=anp, epgName=epg, ), ) mso.sanitize(payload, collate=True) if not mso.existing: ops.append(dict(op='add', path=epgs_path + '/-', value=mso.sent)) mso.existing = mso.proposed if not module.check_mode: mso.request(schema_path, method='PATCH', data=ops) mso.exit_json()