package ske import ( "context" "fmt" "net/http" "github.com/hashicorp/terraform-plugin-framework/datasource" "github.com/hashicorp/terraform-plugin-framework/datasource/schema" "github.com/hashicorp/terraform-plugin-framework/schema/validator" "github.com/hashicorp/terraform-plugin-framework/types" "github.com/hashicorp/terraform-plugin-log/tflog" "github.com/stackitcloud/stackit-sdk-go/core/config" "github.com/stackitcloud/stackit-sdk-go/core/oapierror" "github.com/stackitcloud/stackit-sdk-go/services/ske" "github.com/stackitcloud/terraform-provider-stackit/stackit/internal/core" "github.com/stackitcloud/terraform-provider-stackit/stackit/internal/validate" ) // Ensure the implementation satisfies the expected interfaces. var ( _ datasource.DataSource = &clusterDataSource{} ) // NewClusterDataSource is a helper function to simplify the provider implementation. func NewClusterDataSource() datasource.DataSource { return &clusterDataSource{} } // clusterDataSource is the data source implementation. type clusterDataSource struct { client *ske.APIClient } // Metadata returns the data source type name. func (r *clusterDataSource) Metadata(_ context.Context, req datasource.MetadataRequest, resp *datasource.MetadataResponse) { resp.TypeName = req.ProviderTypeName + "_ske_cluster" } // Configure adds the provider configured client to the data source. func (r *clusterDataSource) Configure(ctx context.Context, req datasource.ConfigureRequest, resp *datasource.ConfigureResponse) { // Prevent panic if the provider has not been configured. if req.ProviderData == nil { return } providerData, ok := req.ProviderData.(core.ProviderData) if !ok { core.LogAndAddError(ctx, &resp.Diagnostics, "Error configuring API client", fmt.Sprintf("Expected configure type stackit.ProviderData, got %T", req.ProviderData)) return } var apiClient *ske.APIClient var err error if providerData.SKECustomEndpoint != "" { apiClient, err = ske.NewAPIClient( config.WithCustomAuth(providerData.RoundTripper), config.WithEndpoint(providerData.SKECustomEndpoint), ) } else { apiClient, err = ske.NewAPIClient( config.WithCustomAuth(providerData.RoundTripper), config.WithRegion(providerData.Region), ) } if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error configuring API client", fmt.Sprintf("Configuring client: %v. This is an error related to the provider configuration, not to the data source configuration", err)) return } r.client = apiClient tflog.Info(ctx, "SKE client configured") } func (r *clusterDataSource) Schema(_ context.Context, _ datasource.SchemaRequest, resp *datasource.SchemaResponse) { resp.Schema = schema.Schema{ Description: "SKE Cluster data source schema. Must have a `region` specified in the provider configuration.", Attributes: map[string]schema.Attribute{ "id": schema.StringAttribute{ Description: "Terraform's internal data source. ID. It is structured as \"`project_id`,`name`\".", Computed: true, }, "project_id": schema.StringAttribute{ Description: "STACKIT project ID to which the cluster is associated.", Required: true, Validators: []validator.String{ validate.UUID(), validate.NoSeparator(), }, }, "name": schema.StringAttribute{ Description: "The cluster name.", Required: true, }, "kubernetes_version_min": schema.StringAttribute{ Description: `The minimum Kubernetes version, this field is always nil. ` + SKEUpdateDoc + " To get the current kubernetes version being used for your cluster, use the `kubernetes_version_used` field.", Computed: true, }, "kubernetes_version": schema.StringAttribute{ Description: "Kubernetes version. This field is deprecated, use `kubernetes_version_used` instead", Computed: true, DeprecationMessage: "This field is always nil, use `kubernetes_version_used` to get the cluster kubernetes version. This field would cause errors when the cluster got a kubernetes version minor upgrade, either triggered by automatic or forceful updates.", }, "kubernetes_version_used": schema.StringAttribute{ Description: "Full Kubernetes version used. For example, if `1.22` was selected, this value may result to `1.22.15`", Computed: true, }, "allow_privileged_containers": schema.BoolAttribute{ Description: "DEPRECATED as of Kubernetes 1.25+\n Flag to specify if privileged mode for containers is enabled or not.\nThis should be used with care since it also disables a couple of other features like the use of some volume type (e.g. PVCs).", DeprecationMessage: "Please remove this flag from your configuration when using Kubernetes version 1.25+.", Computed: true, }, "egress_address_ranges": schema.ListAttribute{ Description: "The outgoing network ranges (in CIDR notation) of traffic originating from workload on the cluster.", Computed: true, ElementType: types.StringType, }, "node_pools": schema.ListNestedAttribute{ Description: "One or more `node_pool` block as defined below.", Computed: true, NestedObject: schema.NestedAttributeObject{ Attributes: map[string]schema.Attribute{ "name": schema.StringAttribute{ Description: "Specifies the name of the node pool.", Computed: true, }, "machine_type": schema.StringAttribute{ Description: "The machine type.", Computed: true, }, "os_name": schema.StringAttribute{ Description: "The name of the OS image.", Computed: true, }, "os_version_min": schema.StringAttribute{ Description: "The minimum OS image version, this field is always nil. " + SKEUpdateDoc + " To get the current OS image version being used for the node pool, use the read-only `os_version_used` field.", Computed: true, }, "os_version": schema.StringAttribute{ Description: "The OS image version.", Computed: true, }, "os_version_used": schema.StringAttribute{ Description: "Full OS image version used. For example, if 3815.2 was set in `os_version_min`, this value may result to 3815.2.2. " + SKEUpdateDoc, Computed: true, }, "minimum": schema.Int64Attribute{ Description: "Minimum number of nodes in the pool.", Computed: true, }, "maximum": schema.Int64Attribute{ Description: "Maximum number of nodes in the pool.", Computed: true, }, "max_surge": schema.Int64Attribute{ Description: "The maximum number of nodes upgraded simultaneously.", Computed: true, }, "max_unavailable": schema.Int64Attribute{ Description: "The maximum number of nodes unavailable during upgraded.", Computed: true, }, "volume_type": schema.StringAttribute{ Description: "Specifies the volume type.", Computed: true, }, "volume_size": schema.Int64Attribute{ Description: "The volume size in GB.", Computed: true, }, "labels": schema.MapAttribute{ Description: "Labels to add to each node.", Computed: true, ElementType: types.StringType, }, "taints": schema.ListNestedAttribute{ Description: "Specifies a taint list as defined below.", Computed: true, NestedObject: schema.NestedAttributeObject{ Attributes: map[string]schema.Attribute{ "effect": schema.StringAttribute{ Description: "The taint effect.", Computed: true, }, "key": schema.StringAttribute{ Description: "Taint key to be applied to a node.", Computed: true, }, "value": schema.StringAttribute{ Description: "Taint value corresponding to the taint key.", Computed: true, }, }, }, }, "cri": schema.StringAttribute{ Description: "Specifies the container runtime.", Computed: true, }, "availability_zones": schema.ListAttribute{ Description: "Specify a list of availability zones.", ElementType: types.StringType, Computed: true, }, "allow_system_components": schema.BoolAttribute{ Description: "Allow system components to run on this node pool.", Computed: true, }, }, }, }, "maintenance": schema.SingleNestedAttribute{ Description: "A single maintenance block as defined below", Computed: true, Attributes: map[string]schema.Attribute{ "enable_kubernetes_version_updates": schema.BoolAttribute{ Description: "Flag to enable/disable auto-updates of the Kubernetes version.", Computed: true, }, "enable_machine_image_version_updates": schema.BoolAttribute{ Description: "Flag to enable/disable auto-updates of the OS image version.", Computed: true, }, "start": schema.StringAttribute{ Description: "Date time for maintenance window start.", Computed: true, }, "end": schema.StringAttribute{ Description: "Date time for maintenance window end.", Computed: true, }, }, }, "network": schema.SingleNestedAttribute{ Description: "Network block as defined below.", Computed: true, Attributes: map[string]schema.Attribute{ "id": schema.StringAttribute{ Description: "ID of the STACKIT Network Area (SNA) network into which the cluster will be deployed.", Computed: true, Validators: []validator.String{ validate.UUID(), }, }, }, }, "hibernations": schema.ListNestedAttribute{ Description: "One or more hibernation block as defined below.", Computed: true, NestedObject: schema.NestedAttributeObject{ Attributes: map[string]schema.Attribute{ "start": schema.StringAttribute{ Description: "Start time of cluster hibernation in crontab syntax.", Computed: true, }, "end": schema.StringAttribute{ Description: "End time of hibernation, in crontab syntax.", Computed: true, }, "timezone": schema.StringAttribute{ Description: "Timezone name corresponding to a file in the IANA Time Zone database.", Computed: true, }, }, }, }, "extensions": schema.SingleNestedAttribute{ Description: "A single extensions block as defined below", Computed: true, Attributes: map[string]schema.Attribute{ "argus": schema.SingleNestedAttribute{ Description: "A single argus block as defined below", Computed: true, Attributes: map[string]schema.Attribute{ "enabled": schema.BoolAttribute{ Description: "Flag to enable/disable argus extensions.", Computed: true, }, "argus_instance_id": schema.StringAttribute{ Description: "Instance ID of argus", Computed: true, }, }, }, "acl": schema.SingleNestedAttribute{ Description: "Cluster access control configuration", Computed: true, Attributes: map[string]schema.Attribute{ "enabled": schema.BoolAttribute{ Description: "Is ACL enabled?", Computed: true, }, "allowed_cidrs": schema.ListAttribute{ Description: "Specify a list of CIDRs to whitelist", Computed: true, ElementType: types.StringType, }, }, }, "dns": schema.SingleNestedAttribute{ Description: "DNS extension configuration", Computed: true, Attributes: map[string]schema.Attribute{ "enabled": schema.BoolAttribute{ Description: "Flag to enable/disable DNS extensions", Computed: true, }, "zones": schema.ListAttribute{ Description: "Specify a list of domain filters for externalDNS (e.g., `foo.runs.onstackit.cloud`)", Computed: true, ElementType: types.StringType, }, }, }, }, }, }, } } // Read refreshes the Terraform state with the latest data. func (r *clusterDataSource) Read(ctx context.Context, req datasource.ReadRequest, resp *datasource.ReadResponse) { // nolint:gocritic // function signature required by Terraform var state Model diags := req.Config.Get(ctx, &state) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } projectId := state.ProjectId.ValueString() name := state.Name.ValueString() ctx = tflog.SetField(ctx, "project_id", projectId) ctx = tflog.SetField(ctx, "name", name) clusterResp, err := r.client.GetCluster(ctx, projectId, name).Execute() if err != nil { oapiErr, ok := err.(*oapierror.GenericOpenAPIError) //nolint:errorlint //complaining that error.As should be used to catch wrapped errors, but this error should not be wrapped if ok && oapiErr.StatusCode == http.StatusNotFound { resp.State.RemoveResource(ctx) } core.LogAndAddError(ctx, &resp.Diagnostics, "Error reading cluster", fmt.Sprintf("Calling API: %v", err)) return } err = mapFields(ctx, clusterResp, &state) if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error reading cluster", fmt.Sprintf("Processing API payload: %v", err)) return } // Set refreshed state diags = resp.State.Set(ctx, state) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } tflog.Info(ctx, "SKE cluster read") }