/* Copyright 2020 The Kubernetes Authors. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ package azuretasks import ( "context" "fmt" "strings" "github.com/Azure/azure-sdk-for-go/services/network/mgmt/2022-05-01/network" "github.com/Azure/go-autorest/autorest/to" "k8s.io/klog/v2" "k8s.io/kops/pkg/wellknownports" "k8s.io/kops/upup/pkg/fi" "k8s.io/kops/upup/pkg/fi/cloudup/azure" ) // LoadBalancer is an Azure Cloud LoadBalancer // +kops:fitask type LoadBalancer struct { Name *string Lifecycle fi.Lifecycle ResourceGroup *ResourceGroup Subnet *Subnet // External is set to true when the loadbalancer is used for external traffic External *bool Tags map[string]*string ForAPIServer bool } var ( _ fi.CloudupTask = &LoadBalancer{} _ fi.CompareWithID = &LoadBalancer{} _ fi.CloudupTaskNormalize = &LoadBalancer{} ) // CompareWithID returns the Name of the LoadBalancer func (lb *LoadBalancer) CompareWithID() *string { return lb.Name } // IsForAPIServer for api server. func (lb *LoadBalancer) IsForAPIServer() bool { return lb.ForAPIServer } func (lb *LoadBalancer) FindAddresses(c *fi.CloudupContext) ([]string, error) { cloud := c.T.Cloud.(azure.AzureCloud) loadbalancer, err := cloud.LoadBalancer().Get(context.TODO(), *lb.ResourceGroup.Name, *lb.Name) if err != nil && !strings.Contains(err.Error(), "NotFound") { return nil, err } if loadbalancer != nil && loadbalancer.FrontendIPConfigurations != nil && len(*loadbalancer.FrontendIPConfigurations) > 0 { var addresses []string for _, fipc := range *loadbalancer.FrontendIPConfigurations { if fipc.PrivateIPAddress != nil { addresses = append(addresses, *fipc.PrivateIPAddress) } if fipc.PublicIPAddress != nil && fipc.PublicIPAddress.IPAddress != nil { addresses = append(addresses, *fipc.PublicIPAddress.IPAddress) } } return addresses, nil } return nil, nil } // Find discovers the LoadBalancer in the cloud provider func (lb *LoadBalancer) Find(c *fi.CloudupContext) (*LoadBalancer, error) { cloud := c.T.Cloud.(azure.AzureCloud) l, err := cloud.LoadBalancer().List(context.TODO(), *lb.ResourceGroup.Name) if err != nil { return nil, err } var found *network.LoadBalancer for _, v := range l { if *v.Name == *lb.Name { found = &v break } } if found == nil { return nil, nil } lbProperties := found.LoadBalancerPropertiesFormat feConfigs := *lbProperties.FrontendIPConfigurations if len(feConfigs) != 1 { return nil, fmt.Errorf("unexpected number of frontend configs found for LoadBalancer %s: %d", *lb.Name, len(feConfigs)) } feConfig := feConfigs[0] subnet := feConfig.FrontendIPConfigurationPropertiesFormat.Subnet actual := &LoadBalancer{ Name: lb.Name, Lifecycle: lb.Lifecycle, ForAPIServer: lb.ForAPIServer, ResourceGroup: &ResourceGroup{ Name: lb.ResourceGroup.Name, }, External: to.BoolPtr(feConfig.FrontendIPConfigurationPropertiesFormat.PublicIPAddress != nil), Tags: found.Tags, } if subnet != nil { actual.Subnet = &Subnet{ Name: subnet.Name, } } return actual, nil } func (lb *LoadBalancer) Normalize(c *fi.CloudupContext) error { c.T.Cloud.(azure.AzureCloud).AddClusterTags(lb.Tags) return nil } // Run implements fi.Task.Run. func (lb *LoadBalancer) Run(c *fi.CloudupContext) error { return fi.CloudupDefaultDeltaRunMethod(lb, c) } // CheckChanges returns an error if a change is not allowed. func (*LoadBalancer) CheckChanges(a, e, changes *LoadBalancer) error { if a == nil { // Check if required fields are set when a new resource is created. if e.Name == nil { return fi.RequiredField("Name") } return nil } // Check if unchanegable fields won't be changed. if changes.Name != nil { return fi.CannotChangeField("Name") } return nil } // RenderAzure creates or updates a Loadbalancer. func (*LoadBalancer) RenderAzure(t *azure.AzureAPITarget, a, e, changes *LoadBalancer) error { if a == nil { klog.Infof("Creating a new Loadbalancer with name: %s", fi.ValueOf(e.Name)) } else { klog.Infof("Updating a Loadbalancer with name: %s", fi.ValueOf(e.Name)) } idPrefix := fmt.Sprintf("subscriptions/%s/resourceGroups/%s/providers/Microsoft.Network", t.Cloud.SubscriptionID(), *e.ResourceGroup.Name) feConfigProperties := &network.FrontendIPConfigurationPropertiesFormat{} if *e.External { feConfigProperties.PublicIPAddress = &network.PublicIPAddress{ ID: to.StringPtr(fmt.Sprintf("/%s/publicIPAddresses/%s", idPrefix, *e.Name)), } } else { feConfigProperties.PrivateIPAllocationMethod = network.Dynamic feConfigProperties.Subnet = &network.Subnet{ ID: to.StringPtr(fmt.Sprintf("/%s/virtualNetworks/%s/subnets/%s", idPrefix, *e.Subnet.VirtualNetwork.Name, *e.Subnet.Name)), } } // TODO: Move hardcoded values to the model lb := network.LoadBalancer{ Location: to.StringPtr(t.Cloud.Region()), Sku: &network.LoadBalancerSku{ Name: network.LoadBalancerSkuNameStandard, }, LoadBalancerPropertiesFormat: &network.LoadBalancerPropertiesFormat{ FrontendIPConfigurations: &[]network.FrontendIPConfiguration{ { Name: to.StringPtr("LoadBalancerFrontEnd"), FrontendIPConfigurationPropertiesFormat: feConfigProperties, }, }, BackendAddressPools: &[]network.BackendAddressPool{ { Name: to.StringPtr("LoadBalancerBackEnd"), }, }, Probes: &[]network.Probe{ { Name: to.StringPtr("Health-TCP-443"), ProbePropertiesFormat: &network.ProbePropertiesFormat{ Protocol: network.ProbeProtocolTCP, Port: to.Int32Ptr(wellknownports.KubeAPIServer), IntervalInSeconds: to.Int32Ptr(15), NumberOfProbes: to.Int32Ptr(4), }, }, { Name: to.StringPtr("Health-TCP-3988"), ProbePropertiesFormat: &network.ProbePropertiesFormat{ Protocol: network.ProbeProtocolTCP, Port: to.Int32Ptr(wellknownports.KopsControllerPort), IntervalInSeconds: to.Int32Ptr(15), NumberOfProbes: to.Int32Ptr(4), }, }, }, LoadBalancingRules: &[]network.LoadBalancingRule{ { Name: to.StringPtr("TCP-443"), LoadBalancingRulePropertiesFormat: &network.LoadBalancingRulePropertiesFormat{ Protocol: network.TransportProtocolTCP, FrontendPort: to.Int32Ptr(wellknownports.KubeAPIServer), BackendPort: to.Int32Ptr(wellknownports.KubeAPIServer), IdleTimeoutInMinutes: to.Int32Ptr(4), EnableFloatingIP: to.BoolPtr(false), LoadDistribution: network.LoadDistributionDefault, FrontendIPConfiguration: &network.SubResource{ ID: to.StringPtr(fmt.Sprintf("/%s/loadbalancers/%s/frontendIPConfigurations/%s", idPrefix, *e.Name, *to.StringPtr("LoadBalancerFrontEnd"))), }, BackendAddressPool: &network.SubResource{ ID: to.StringPtr(fmt.Sprintf("/%s/loadbalancers/%s/backendAddressPools/%s", idPrefix, *e.Name, *to.StringPtr("LoadBalancerBackEnd"))), }, Probe: &network.SubResource{ ID: to.StringPtr(fmt.Sprintf("/%s/loadbalancers/%s/probes/%s", idPrefix, *e.Name, *to.StringPtr("Health-TCP-443"))), }, }, }, { Name: to.StringPtr("TCP-3988"), LoadBalancingRulePropertiesFormat: &network.LoadBalancingRulePropertiesFormat{ Protocol: network.TransportProtocolTCP, FrontendPort: to.Int32Ptr(wellknownports.KopsControllerPort), BackendPort: to.Int32Ptr(wellknownports.KopsControllerPort), IdleTimeoutInMinutes: to.Int32Ptr(4), EnableFloatingIP: to.BoolPtr(false), LoadDistribution: network.LoadDistributionDefault, FrontendIPConfiguration: &network.SubResource{ ID: to.StringPtr(fmt.Sprintf("/%s/loadbalancers/%s/frontendIPConfigurations/%s", idPrefix, *e.Name, *to.StringPtr("LoadBalancerFrontEnd"))), }, BackendAddressPool: &network.SubResource{ ID: to.StringPtr(fmt.Sprintf("/%s/loadbalancers/%s/backendAddressPools/%s", idPrefix, *e.Name, *to.StringPtr("LoadBalancerBackEnd"))), }, Probe: &network.SubResource{ ID: to.StringPtr(fmt.Sprintf("/%s/loadbalancers/%s/probes/%s", idPrefix, *e.Name, *to.StringPtr("Health-TCP-3988"))), }, }, }, }, }, Tags: e.Tags, } return t.Cloud.LoadBalancer().CreateOrUpdate( context.TODO(), *e.ResourceGroup.Name, *e.Name, lb) }