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LB-createLB整理架构图-loadbalancer-openstack F版
发布时间:2025/3/17
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LB-createLB整理架构图-loadbalancer-openstack F版
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1、第1层 根据: mapper.resource("loadbalancer", "loadbalancers", member={'details': 'GET'}, controller=lb_resource, collection={'detail': 'GET'})self._list()对应底层的index()函数 self._create()对应底层的create()函数 self._delete()对应底层的delete()函数 self._get()对应底层的show()函数
由上图对应关系我们可以知道create()函数的webservice发布为: return self._create("/loadbalancers", body, "loadbalancer") 接着就自动调用balancer里面的: @utils.http_success_code(202) def create(self, req, body): LOG.debug("Got create request. Request: %s", req) #here we need to decide which device should be used params = body.copy()#将参数复制 LOG.debug("Headers: %s", req.headers) # We need to create LB object and return its id tenant_id = req.headers.get('X-Tenant-Id', "") params['tenant_id'] = tenant_id#参数列表中获取tenant_id lb_id = core_api.create_lb(self.conf, params) #跟进到1.1层 return {'loadbalancer': {'id': lb_id}}#返回一个包含lb_id的字典列表
2、第1.1层、
def create_lb(conf, params): nodes = params.pop('nodes', [])#获取nodes参数列表,其详细内容,参考下面注解 probes = params.pop('healthMonitor', [])#获取监测检查的参数列表,其详细内容,参考下面注解 vips = params.pop('virtualIps', [])#获取虚拟VIP参数列表,其详细内容,参考下面注解 values = db_api.loadbalancer_pack_extra(params)#解析参数为一个字典列表 lb_ref = db_api.loadbalancer_create(conf, values)#更新loadbalancer的数据库,返回值为models.LoadBalancer()数据库表。 跟进到下一层1.1.1 device = scheduler.schedule_loadbalancer(conf, lb_ref)#根据当前lb数据,修改底层配置device文件,进行调度。 跟进到下一层1.1.2 device_driver = drivers.get_device_driver(conf, device['id'])#获取device驱动, 跟进到下一层1.1.3 lb = db_api.unpack_extra(lb_ref)#将lb_ref转变为一个字典 lb['device_id'] = device['id'] lb_ref = db_api.loadbalancer_pack_extra(lb)#加入device_id选项之后再次封装 try: with device_driver.request_context() as ctx:#此处ctx的作用???(相关驱动配置???) commands.create_loadbalancer(ctx, lb_ref, nodes, probes, vips)#创建loadbalancer, 跟进到下一层1.1.4
except (exception.Error, exception.Invalid): lb_ref.status = lb_status.ERROR lb_ref.deployed = 'False' else: lb_ref.status = lb_status.ACTIVE lb_ref.deployed = 'True' db_api.loadbalancer_update(conf, lb['id'], lb_ref) return lb_ref['id']
注解: nodes里面包括虚拟机的地址,以及端口和负载均衡调度的权重参数等。
healthMonitor里面包括???
VIP用来连接外部和内部实例IP直接通讯的中间层IP。这样当我们机器出现故障时,我们的VIP还能正常工作接受外部服务和请求。
3、第1.1.1层
更新models.LoadBalancer()数据库表值,返回整个LoadBalancer()表格数据
4、第1.1.2层 def schedule_loadbalancer(conf, lb_ref): conf.register_opts(bind_opts)#绑定特定配置文件,以便于修改为特定配置文件 device_filters = [utils.import_class(foo) for foo in conf.device_filters] all_devices = db_api.device_get_all(conf)#获取所有 models.Device数据库表 , 跟进到下一层1.1.2.1 if not all_devices:#如果没有设备则报设备找不到异常 raise exp.DeviceNotFound cost_functions = [] for fullname in conf.device_cost_functions: conf_name = 'device_cost_%s_weight' % fullname.rpartition('.')[-1] try: weight = getattr(conf, conf_name)#获取权重 except cfg.NoSuchOptError: conf.register_opt(cfg.FloatOpt(conf_name, default=1.)) weight = getattr(conf, conf_name) cost_functions.append((utils.import_class(fullname), weight)) filtered_devices = [dev for dev in all_devices if all(filt(conf, lb_ref, dev) for filt in device_filters)] if not filtered_devices: raise exp.NoValidDevice costed = [] for dev in filtered_devices: w = 0. for cost_func, weight in cost_functions: w += weight * cost_func(conf, lb_ref, dev) costed.append((w, dev)) costed.sort() return costed[0][1]
5、第1.1.2.1层
获取models.Device数据库表里面的所有数据
6、第1.1.3层
7、第1.1.4层
def create_loadbalancer(ctx, balancer, nodes, probes, vips): lb = db_api.unpack_extra(balancer)#解封装为字典 sf = db_api.serverfarm_create(ctx.conf, {'lb_id': lb['id']})#创建serverfarm(更新models.ServerFarm()数据库表),跟进下一层1.1.4.1 if 'algorithm' in lb:#如果lb参数中有’algorithm‘则获取type属性字典 predictor_params = {'sf_id': sf['id'], 'type': lb['algorithm']} else: predictor_params = {'sf_id': sf['id']} db_api.predictor_create(ctx.conf, predictor_params)#更新数据到预报器models.Predictor()数据库表中 create_server_farm(ctx, sf)#创建serverfarm(更新models.ServerFarm()数据库表),跟进下一层1.1.4.2 for node in nodes:#如果参数中有node则更新server数据库 node_values = db_api.server_pack_extra(node) node_values['sf_id'] = sf['id']#加入sf_id重新封装 rs_ref = db_api.server_create(ctx.conf, node_values)#更新models.Server()数据库数据 create_rserver(ctx, rs_ref)#创建rserver,更新models.Server()数据库数据 add_rserver_to_server_farm(ctx, sf, rs_ref)#跟进到下一层1.1.4.3
for probe in probes:#如果参数中有probe(探测器)则更新probe数据库 probe_values = db_api.probe_pack_extra(probe) probe_values['lb_id'] = lb['id'] probe_values['sf_id'] = sf['id'] probe_ref = db_api.probe_create(ctx.conf, probe_values)#更新probe数据库 create_probe(ctx, probe_ref)# 代码pass:??? add_probe_to_server_farm(ctx, sf, probe_ref)
for vip in vips:#如果参数中有vip则更新virturalIps数据库 vip_values = db_api.virtualserver_pack_extra(vip) vip_values['lb_id'] = lb['id'] vip_values['sf_id'] = sf['id'] vip_ref = db_api.virtualserver_create(ctx.conf, vip_values) create_vip(ctx, vip_ref, sf)##跟进到下一层1.1.4.4
8、第1.1.4.1层
更新models.ServerFarm()数据库表
9、第1.1.4.2层 @with_rollback def create_server_farm(ctx, sf): try: pr = db_api.predictor_get_all_by_sf_id(ctx.conf, sf['id'])#通过sf_id过滤获取models.Predictor数据 ctx.device.create_server_farm(sf, pr) #???? db_api.serverfarm_update(ctx.conf, sf['id'], {'deployed': True})#更新 serverfarm数据库表 yield except Exception: delete_server_farm(ctx, sf)#出现异常则删除刚刚建立好的数据库数据 raise
10、1.1.4.3层 @with_rollback def add_rserver_to_server_farm(ctx, server_farm, rserver): try: if (rserver.get('parent_id') and rserver['parent_id'] != ""): #Nasty hack. We need to think how todo this more elegant rserver['name'] = rserver['parent_id'] ctx.device.add_real_server_to_server_farm(server_farm, rserver)#根据特定的device(以HAproxy为例), 跟进到下一层1.1.4.3.1层 yield except Exception: ctx.device.delete_real_server_from_server_farm(server_farm, rserver) raise
11、第1.1.4.3.1层 def add_real_server_to_server_farm(self, serverfarm, rserver): haproxy_serverfarm = HaproxyBackend() haproxy_serverfarm.name = serverfarm['id'] haproxy_rserver = HaproxyRserver() haproxy_rserver.name = rserver['id'] haproxy_rserver.weight = rserver.get('weight') or 1 haproxy_rserver.address = rserver['address'] haproxy_rserver.port = rserver.get('port') or 0 haproxy_rserver.maxconn = rserver['extra'].get('maxCon') or 10000 #Modify remote config file, check and restart remote haproxy logger.debug('[HAPROXY] Creating rserver %s in the ' 'backend block %s' % (haproxy_rserver.name, haproxy_serverfarm.name))
config_file = self._get_config()#??? config_file.add_rserver_to_backend_block(haproxy_serverfarm, haproxy_rserver)#???
12、第 1.1.4.4 层 def create_virtual_ip(self, virtualserver, serverfarm): if not bool(virtualserver['id']): logger.error('[HAPROXY] Virtualserver name is empty') return 'VIRTUALSERVER NAME ERROR' haproxy_virtualserver = HaproxyFronted() haproxy_virtualserver.name = virtualserver['id'] haproxy_virtualserver.bind_address = virtualserver['address'] haproxy_virtualserver.bind_port = virtualserver.get('port') or 0 haproxy_serverfarm = HaproxyBackend() haproxy_serverfarm.name = serverfarm['id'] logger.debug('[HAPROXY] create VIP %s' % haproxy_serverfarm.name) #Add new IP address remote_interface = RemoteInterface(self.device_ref, haproxy_virtualserver) remote_interface.add_ip() #Modify remote config file, check and restart remote haproxy config_file = self._get_config() config_file.add_frontend(haproxy_virtualserver, haproxy_serverfarm)
转载于:https://my.oschina.net/tantexian/blog/626571
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