package postgresflex import ( "context" "fmt" "net/http" "regexp" "strings" "time" "github.com/mhenselin/terraform-provider-stackitprivatepreview/pkg/postgresflexalpha" "github.com/mhenselin/terraform-provider-stackitprivatepreview/pkg/postgresflexalpha/wait" postgresflexUtils "github.com/mhenselin/terraform-provider-stackitprivatepreview/stackit/internal/services/postgresflexalpha/utils" "github.com/hashicorp/terraform-plugin-framework-validators/stringvalidator" "github.com/hashicorp/terraform-plugin-framework/attr" "github.com/hashicorp/terraform-plugin-framework/diag" "github.com/hashicorp/terraform-plugin-framework/schema/validator" "github.com/hashicorp/terraform-plugin-framework/types/basetypes" "github.com/hashicorp/terraform-plugin-log/tflog" "github.com/mhenselin/terraform-provider-stackitprivatepreview/stackit/internal/conversion" "github.com/mhenselin/terraform-provider-stackitprivatepreview/stackit/internal/core" "github.com/mhenselin/terraform-provider-stackitprivatepreview/stackit/internal/utils" "github.com/mhenselin/terraform-provider-stackitprivatepreview/stackit/internal/validate" "github.com/hashicorp/terraform-plugin-framework/path" "github.com/hashicorp/terraform-plugin-framework/resource" "github.com/hashicorp/terraform-plugin-framework/resource/schema" "github.com/hashicorp/terraform-plugin-framework/resource/schema/planmodifier" "github.com/hashicorp/terraform-plugin-framework/resource/schema/stringplanmodifier" "github.com/hashicorp/terraform-plugin-framework/types" "github.com/stackitcloud/stackit-sdk-go/core/oapierror" ) // Ensure the implementation satisfies the expected interfaces. var ( _ resource.Resource = &instanceResource{} _ resource.ResourceWithConfigure = &instanceResource{} _ resource.ResourceWithImportState = &instanceResource{} _ resource.ResourceWithModifyPlan = &instanceResource{} ) type Model struct { Id types.String `tfsdk:"id"` // needed by TF InstanceId types.String `tfsdk:"instance_id"` ProjectId types.String `tfsdk:"project_id"` Name types.String `tfsdk:"name"` ACL types.List `tfsdk:"acl"` BackupSchedule types.String `tfsdk:"backup_schedule"` Flavor types.Object `tfsdk:"flavor"` Replicas types.Int64 `tfsdk:"replicas"` Storage types.Object `tfsdk:"storage"` Version types.String `tfsdk:"version"` Region types.String `tfsdk:"region"` Encryption types.Object `tfsdk:"encryption"` Network types.Object `tfsdk:"network"` } type encryptionModel struct { KeyRingId types.String `tfsdk:"keyring_id"` KeyId types.String `tfsdk:"key_id"` KeyVersion types.String `tfsdk:"key_version"` ServiceAccount types.String `tfsdk:"service_account"` } var encryptionTypes = map[string]attr.Type{ "keyring_id": basetypes.StringType{}, "key_id": basetypes.StringType{}, "key_version": basetypes.StringType{}, "service_account": basetypes.StringType{}, } type networkModel struct { AccessScope types.String `tfsdk:"access_scope"` } var networkTypes = map[string]attr.Type{ "access_scope": basetypes.StringType{}, } // Struct corresponding to Model.Flavor type flavorModel struct { Id types.String `tfsdk:"id"` Description types.String `tfsdk:"description"` CPU types.Int64 `tfsdk:"cpu"` RAM types.Int64 `tfsdk:"ram"` } // Types corresponding to flavorModel var flavorTypes = map[string]attr.Type{ "id": basetypes.StringType{}, "description": basetypes.StringType{}, "cpu": basetypes.Int64Type{}, "ram": basetypes.Int64Type{}, } // Struct corresponding to Model.Storage type storageModel struct { Class types.String `tfsdk:"class"` Size types.Int64 `tfsdk:"size"` } // Types corresponding to storageModel var storageTypes = map[string]attr.Type{ "class": basetypes.StringType{}, "size": basetypes.Int64Type{}, } // NewInstanceResource is a helper function to simplify the provider implementation. func NewInstanceResource() resource.Resource { return &instanceResource{} } // instanceResource is the resource implementation. type instanceResource struct { client *postgresflexalpha.APIClient providerData core.ProviderData } // ModifyPlan implements resource.ResourceWithModifyPlan. // Use the modifier to set the effective region in the current plan. func (r *instanceResource) ModifyPlan(ctx context.Context, req resource.ModifyPlanRequest, resp *resource.ModifyPlanResponse) { // nolint:gocritic // function signature required by Terraform var configModel Model // skip initial empty configuration to avoid follow-up errors if req.Config.Raw.IsNull() { return } resp.Diagnostics.Append(req.Config.Get(ctx, &configModel)...) if resp.Diagnostics.HasError() { return } var planModel Model resp.Diagnostics.Append(req.Plan.Get(ctx, &planModel)...) if resp.Diagnostics.HasError() { return } utils.AdaptRegion(ctx, configModel.Region, &planModel.Region, r.providerData.GetRegion(), resp) if resp.Diagnostics.HasError() { return } resp.Diagnostics.Append(resp.Plan.Set(ctx, planModel)...) if resp.Diagnostics.HasError() { return } } // Metadata returns the resource type name. func (r *instanceResource) Metadata(_ context.Context, req resource.MetadataRequest, resp *resource.MetadataResponse) { resp.TypeName = req.ProviderTypeName + "_postgresflexalpha_instance" } // Configure adds the provider configured client to the resource. func (r *instanceResource) Configure(ctx context.Context, req resource.ConfigureRequest, resp *resource.ConfigureResponse) { var ok bool r.providerData, ok = conversion.ParseProviderData(ctx, req.ProviderData, &resp.Diagnostics) if !ok { return } apiClient := postgresflexUtils.ConfigureClient(ctx, &r.providerData, &resp.Diagnostics) if resp.Diagnostics.HasError() { return } r.client = apiClient tflog.Info(ctx, "Postgres Flex instance client configured") } // Schema defines the schema for the resource. func (r *instanceResource) Schema(_ context.Context, req resource.SchemaRequest, resp *resource.SchemaResponse) { descriptions := map[string]string{ "main": "Postgres Flex instance resource schema. Must have a `region` specified in the provider configuration.", "id": "Terraform's internal resource ID. It is structured as \"`project_id`,`region`,`instance_id`\".", "instance_id": "ID of the PostgresFlex instance.", "project_id": "STACKIT project ID to which the instance is associated.", "name": "Instance name.", "acl": "The Access Control List (ACL) for the PostgresFlex instance.", "region": "The resource region. If not defined, the provider region is used.", "encryption": "The encryption block.", "key_id": "Key ID of the encryption key.", } resp.Schema = schema.Schema{ Description: descriptions["main"], Attributes: map[string]schema.Attribute{ "id": schema.StringAttribute{ Description: descriptions["id"], Computed: true, PlanModifiers: []planmodifier.String{ stringplanmodifier.UseStateForUnknown(), }, }, "instance_id": schema.StringAttribute{ Description: descriptions["instance_id"], Computed: true, PlanModifiers: []planmodifier.String{ stringplanmodifier.UseStateForUnknown(), }, Validators: []validator.String{ validate.UUID(), validate.NoSeparator(), }, }, "project_id": schema.StringAttribute{ Description: descriptions["project_id"], Required: true, PlanModifiers: []planmodifier.String{ stringplanmodifier.RequiresReplace(), stringplanmodifier.UseStateForUnknown(), }, Validators: []validator.String{ validate.UUID(), validate.NoSeparator(), }, }, "name": schema.StringAttribute{ Description: descriptions["name"], Required: true, Validators: []validator.String{ stringvalidator.LengthAtLeast(1), stringvalidator.RegexMatches( regexp.MustCompile("^[a-z]([-a-z0-9]*[a-z0-9])?$"), "must start with a letter, must have lower case letters, numbers or hyphens, and no hyphen at the end", ), }, }, "acl": schema.ListAttribute{ Description: descriptions["acl"], ElementType: types.StringType, Required: true, }, "backup_schedule": schema.StringAttribute{ Required: true, }, "flavor": schema.SingleNestedAttribute{ Required: true, Attributes: map[string]schema.Attribute{ "id": schema.StringAttribute{ Computed: true, PlanModifiers: []planmodifier.String{ UseStateForUnknownIfFlavorUnchanged(req), }, }, "description": schema.StringAttribute{ Computed: true, PlanModifiers: []planmodifier.String{ UseStateForUnknownIfFlavorUnchanged(req), }, }, "cpu": schema.Int64Attribute{ Required: true, }, "ram": schema.Int64Attribute{ Required: true, }, }, }, "replicas": schema.Int64Attribute{ Required: true, }, "storage": schema.SingleNestedAttribute{ Required: true, Attributes: map[string]schema.Attribute{ "class": schema.StringAttribute{ Required: true, PlanModifiers: []planmodifier.String{ stringplanmodifier.RequiresReplace(), }, }, "size": schema.Int64Attribute{ Required: true, }, }, }, "version": schema.StringAttribute{ Required: true, }, "region": schema.StringAttribute{ Optional: true, // must be computed to allow for storing the override value from the provider Computed: true, Description: descriptions["region"], PlanModifiers: []planmodifier.String{ stringplanmodifier.RequiresReplace(), }, }, "encryption": schema.SingleNestedAttribute{ Required: true, Attributes: map[string]schema.Attribute{ "key_id": schema.StringAttribute{ Description: descriptions["key_id"], Required: true, PlanModifiers: []planmodifier.String{ stringplanmodifier.RequiresReplace(), }, Validators: []validator.String{ validate.NoSeparator(), }, }, "key_version": schema.StringAttribute{ Description: descriptions["key_version"], Required: true, PlanModifiers: []planmodifier.String{ stringplanmodifier.RequiresReplace(), }, Validators: []validator.String{ validate.NoSeparator(), }, }, "key_ring_id": schema.StringAttribute{ Description: descriptions["key_ring_id"], Required: true, PlanModifiers: []planmodifier.String{ stringplanmodifier.RequiresReplace(), }, Validators: []validator.String{ validate.NoSeparator(), }, }, "service_account": schema.StringAttribute{ Description: descriptions["service_account"], Required: true, PlanModifiers: []planmodifier.String{ stringplanmodifier.RequiresReplace(), }, Validators: []validator.String{ validate.NoSeparator(), }, }, }, //Blocks: nil, //CustomType: nil, Description: descriptions["encryption"], //MarkdownDescription: "", //DeprecationMessage: "", //Validators: nil, PlanModifiers: []planmodifier.Object{}, }, "network": schema.SingleNestedAttribute{ Required: true, Attributes: map[string]schema.Attribute{ "access_scope": schema.StringAttribute{ Description: descriptions["access_scope"], Required: true, PlanModifiers: []planmodifier.String{ stringplanmodifier.RequiresReplace(), }, Validators: []validator.String{ validate.NoSeparator(), }, }, }, //Blocks: nil, //CustomType: nil, Description: descriptions["network"], //MarkdownDescription: "", //DeprecationMessage: "", //Validators: nil, PlanModifiers: []planmodifier.Object{}, }, }, } } // Create creates the resource and sets the initial Terraform state. func (r *instanceResource) Create(ctx context.Context, req resource.CreateRequest, resp *resource.CreateResponse) { // nolint:gocritic // function signature required by Terraform // Retrieve values from plan var model Model diags := req.Plan.Get(ctx, &model) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } ctx = core.InitProviderContext(ctx) projectId := model.ProjectId.ValueString() region := model.Region.ValueString() ctx = tflog.SetField(ctx, "project_id", projectId) ctx = tflog.SetField(ctx, "region", region) var acl []string if !(model.ACL.IsNull() || model.ACL.IsUnknown()) { diags = model.ACL.ElementsAs(ctx, &acl, false) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } } var flavor = &flavorModel{} if !(model.Flavor.IsNull() || model.Flavor.IsUnknown()) { diags = model.Flavor.As(ctx, flavor, basetypes.ObjectAsOptions{}) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } err := loadFlavorId(ctx, r.client, &model, flavor) if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error creating instance", fmt.Sprintf("Loading flavor ID: %v", err)) return } } var storage = &storageModel{} if !(model.Storage.IsNull() || model.Storage.IsUnknown()) { diags = model.Storage.As(ctx, storage, basetypes.ObjectAsOptions{}) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } } var encryption = &encryptionModel{} if !(model.Encryption.IsNull() || model.Encryption.IsUnknown()) { diags = model.Encryption.As(ctx, encryption, basetypes.ObjectAsOptions{}) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } } var network = &networkModel{} if !(model.Network.IsNull() || model.Network.IsUnknown()) { diags = model.Network.As(ctx, network, basetypes.ObjectAsOptions{}) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } } // Generate API request body from model payload, err := toCreatePayload(&model, acl, flavor, storage, encryption, network) if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error creating instance", fmt.Sprintf("Creating API payload: %v", err)) return } // Create new instance createResp, err := r.client.CreateInstanceRequest(ctx, projectId, region).CreateInstanceRequestPayload(*payload).Execute() if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error creating instance", fmt.Sprintf("Calling API: %v", err)) return } ctx = core.LogResponse(ctx) instanceId := *createResp.Id ctx = tflog.SetField(ctx, "instance_id", instanceId) waitResp, err := wait.CreateInstanceWaitHandler(ctx, r.client, projectId, region, instanceId).WaitWithContext(ctx) if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error creating instance", fmt.Sprintf("Instance creation waiting: %v", err)) return } // Map response body to schema err = mapFields(ctx, waitResp, &model, flavor, storage, region) if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error creating instance", fmt.Sprintf("Processing API payload: %v", err)) return } // Set state to fully populated data diags = resp.State.Set(ctx, model) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } tflog.Info(ctx, "Postgres Flex instance created") } // Read refreshes the Terraform state with the latest data. func (r *instanceResource) Read(ctx context.Context, req resource.ReadRequest, resp *resource.ReadResponse) { // nolint:gocritic // function signature required by Terraform var model Model diags := req.State.Get(ctx, &model) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } ctx = core.InitProviderContext(ctx) projectId := model.ProjectId.ValueString() instanceId := model.InstanceId.ValueString() region := r.providerData.GetRegionWithOverride(model.Region) ctx = tflog.SetField(ctx, "project_id", projectId) ctx = tflog.SetField(ctx, "instance_id", instanceId) ctx = tflog.SetField(ctx, "region", region) var flavor = &flavorModel{} if !(model.Flavor.IsNull() || model.Flavor.IsUnknown()) { diags = model.Flavor.As(ctx, flavor, basetypes.ObjectAsOptions{}) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } } var storage = &storageModel{} if !(model.Storage.IsNull() || model.Storage.IsUnknown()) { diags = model.Storage.As(ctx, storage, basetypes.ObjectAsOptions{}) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } } instanceResp, err := r.client.GetInstanceRequest(ctx, projectId, region, instanceId).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) return } core.LogAndAddError(ctx, &resp.Diagnostics, "Error reading instance", err.Error()) return } ctx = core.LogResponse(ctx) if instanceResp != nil && instanceResp.Status != nil && *instanceResp.Status == wait.InstanceStateDeleted { resp.State.RemoveResource(ctx) return } // Map response body to schema err = mapFields(ctx, instanceResp, &model, flavor, storage, region) if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error reading instance", fmt.Sprintf("Processing API payload: %v", err)) return } // Set refreshed state diags = resp.State.Set(ctx, model) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } tflog.Info(ctx, "Postgres Flex instance read") } // Update updates the resource and sets the updated Terraform state on success. func (r *instanceResource) Update(ctx context.Context, req resource.UpdateRequest, resp *resource.UpdateResponse) { // nolint:gocritic // function signature required by Terraform // Retrieve values from plan var model Model diags := req.Plan.Get(ctx, &model) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } ctx = core.InitProviderContext(ctx) projectId := model.ProjectId.ValueString() instanceId := model.InstanceId.ValueString() region := model.Region.ValueString() ctx = tflog.SetField(ctx, "project_id", projectId) ctx = tflog.SetField(ctx, "instance_id", instanceId) ctx = tflog.SetField(ctx, "region", region) var acl []string if !(model.ACL.IsNull() || model.ACL.IsUnknown()) { diags = model.ACL.ElementsAs(ctx, &acl, false) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } } var flavor = &flavorModel{} if !(model.Flavor.IsNull() || model.Flavor.IsUnknown()) { diags = model.Flavor.As(ctx, flavor, basetypes.ObjectAsOptions{}) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } err := loadFlavorId(ctx, r.client, &model, flavor) if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error updating instance", fmt.Sprintf("Loading flavor ID: %v", err)) return } } var storage = &storageModel{} if !(model.Storage.IsNull() || model.Storage.IsUnknown()) { diags = model.Storage.As(ctx, storage, basetypes.ObjectAsOptions{}) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } } // Generate API request body from model payload, err := toUpdatePayload(&model, acl, flavor, storage) if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error updating instance", fmt.Sprintf("Creating API payload: %v", err)) return } // Update existing instance err = r.client.UpdateInstancePartiallyRequest(ctx, projectId, region, instanceId).UpdateInstancePartiallyRequestPayload(*payload).Execute() if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error updating instance", err.Error()) return } ctx = core.LogResponse(ctx) waitResp, err := wait.PartialUpdateInstanceWaitHandler(ctx, r.client, projectId, region, instanceId).WaitWithContext(ctx) if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error updating instance", fmt.Sprintf("Instance update waiting: %v", err)) return } // Map response body to schema err = mapFields(ctx, waitResp, &model, flavor, storage, region) if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error updating instance", fmt.Sprintf("Processing API payload: %v", err)) return } diags = resp.State.Set(ctx, model) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } tflog.Info(ctx, "Postgresflex instance updated") } // Delete deletes the resource and removes the Terraform state on success. func (r *instanceResource) Delete(ctx context.Context, req resource.DeleteRequest, resp *resource.DeleteResponse) { // nolint:gocritic // function signature required by Terraform // Retrieve values from state var model Model diags := req.State.Get(ctx, &model) resp.Diagnostics.Append(diags...) if resp.Diagnostics.HasError() { return } ctx = core.InitProviderContext(ctx) projectId := model.ProjectId.ValueString() instanceId := model.InstanceId.ValueString() region := model.Region.ValueString() ctx = tflog.SetField(ctx, "project_id", projectId) ctx = tflog.SetField(ctx, "instance_id", instanceId) ctx = tflog.SetField(ctx, "region", region) // Delete existing instance err := r.client.DeleteInstanceRequest(ctx, projectId, region, instanceId).Execute() if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error deleting instance", fmt.Sprintf("Calling API: %v", err)) return } ctx = core.LogResponse(ctx) _, err = wait.DeleteInstanceWaitHandler(ctx, r.client, projectId, region, instanceId).SetTimeout(45 * time.Minute).WaitWithContext(ctx) if err != nil { core.LogAndAddError(ctx, &resp.Diagnostics, "Error deleting instance", fmt.Sprintf("Instance deletion waiting: %v", err)) return } tflog.Info(ctx, "Postgres Flex instance deleted") } // ImportState imports a resource into the Terraform state on success. // The expected format of the resource import identifier is: project_id,instance_id func (r *instanceResource) ImportState(ctx context.Context, req resource.ImportStateRequest, resp *resource.ImportStateResponse) { idParts := strings.Split(req.ID, core.Separator) if len(idParts) != 3 || idParts[0] == "" || idParts[1] == "" || idParts[2] == "" { core.LogAndAddError(ctx, &resp.Diagnostics, "Error importing instance", fmt.Sprintf("Expected import identifier with format: [project_id],[region],[instance_id] Got: %q", req.ID), ) return } resp.Diagnostics.Append(resp.State.SetAttribute(ctx, path.Root("project_id"), idParts[0])...) resp.Diagnostics.Append(resp.State.SetAttribute(ctx, path.Root("region"), idParts[1])...) resp.Diagnostics.Append(resp.State.SetAttribute(ctx, path.Root("instance_id"), idParts[2])...) tflog.Info(ctx, "Postgres Flex instance state imported") } func mapFields(ctx context.Context, resp *postgresflexalpha.GetInstanceResponse, model *Model, flavor *flavorModel, storage *storageModel, region string) error { if resp == nil { return fmt.Errorf("response input is nil") } if model == nil { return fmt.Errorf("model input is nil") } instance := resp var instanceId string if model.InstanceId.ValueString() != "" { instanceId = model.InstanceId.ValueString() } else if instance.Id != nil { instanceId = *instance.Id } else { return fmt.Errorf("instance id not present") } var aclList basetypes.ListValue var diags diag.Diagnostics if instance.Acl == nil { aclList = types.ListNull(types.StringType) } else { respACL := *instance.Acl modelACL, err := utils.ListValuetoStringSlice(model.ACL) if err != nil { return err } reconciledACL := utils.ReconcileStringSlices(modelACL, respACL) aclList, diags = types.ListValueFrom(ctx, types.StringType, reconciledACL) if diags.HasError() { return fmt.Errorf("mapping ACL: %w", core.DiagsToError(diags)) } } var flavorValues map[string]attr.Value if instance.FlavorId == nil { flavorValues = map[string]attr.Value{ "id": flavor.Id, "description": flavor.Description, "cpu": flavor.CPU, "ram": flavor.RAM, } } else { // TODO //flavorValues = map[string]attr.Value{ // "id": types.StringValue(*instance.FlavorId), // "description": types.StringValue(*instance.FlavorId.Description), // "cpu": types.Int64PointerValue(instance.FlavorId.Cpu), // "ram": types.Int64PointerValue(instance.FlavorId.Memory), //} } flavorObject, diags := types.ObjectValue(flavorTypes, flavorValues) if diags.HasError() { return fmt.Errorf("creating flavor: %w", core.DiagsToError(diags)) } var storageValues map[string]attr.Value if instance.Storage == nil { storageValues = map[string]attr.Value{ "class": storage.Class, "size": storage.Size, } } else { storageValues = map[string]attr.Value{ "class": types.StringValue(*instance.Storage.PerformanceClass), "size": types.Int64PointerValue(instance.Storage.Size), } } storageObject, diags := types.ObjectValue(storageTypes, storageValues) if diags.HasError() { return fmt.Errorf("creating storage: %w", core.DiagsToError(diags)) } model.Id = utils.BuildInternalTerraformId(model.ProjectId.ValueString(), region, instanceId) model.InstanceId = types.StringValue(instanceId) model.Name = types.StringPointerValue(instance.Name) model.ACL = aclList model.BackupSchedule = types.StringPointerValue(instance.BackupSchedule) model.Flavor = flavorObject // TODO - verify working model.Replicas = types.Int64Value(int64(*instance.Replicas)) model.Storage = storageObject model.Version = types.StringPointerValue(instance.Version) model.Region = types.StringValue(region) //model.Encryption = types.ObjectValue() //model.Network = networkModel return nil } func toCreatePayload(model *Model, acl []string, flavor *flavorModel, storage *storageModel, enc *encryptionModel, net *networkModel) (*postgresflexalpha.CreateInstanceRequestPayload, error) { if model == nil { return nil, fmt.Errorf("nil model") } if acl == nil { return nil, fmt.Errorf("nil acl") } if flavor == nil { return nil, fmt.Errorf("nil flavor") } if storage == nil { return nil, fmt.Errorf("nil storage") } replVal := int32(model.Replicas.ValueInt64()) return &postgresflexalpha.CreateInstanceRequestPayload{ // TODO - verify working Acl: &[]string{ strings.Join(acl, ","), }, BackupSchedule: conversion.StringValueToPointer(model.BackupSchedule), FlavorId: conversion.StringValueToPointer(flavor.Id), Name: conversion.StringValueToPointer(model.Name), // TODO - verify working Replicas: postgresflexalpha.CreateInstanceRequestPayloadGetReplicasAttributeType(&replVal), // TODO - verify working Storage: postgresflexalpha.CreateInstanceRequestPayloadGetStorageAttributeType(&postgresflexalpha.Storage{ PerformanceClass: conversion.StringValueToPointer(storage.Class), Size: conversion.Int64ValueToPointer(storage.Size), }), Version: conversion.StringValueToPointer(model.Version), // TODO - verify working Encryption: postgresflexalpha.CreateInstanceRequestPayloadGetEncryptionAttributeType( &postgresflexalpha.InstanceEncryption{ KekKeyId: conversion.StringValueToPointer(enc.KeyId), // model.Encryption.Attributes(), KekKeyRingId: conversion.StringValueToPointer(enc.KeyRingId), KekKeyVersion: conversion.StringValueToPointer(enc.KeyVersion), ServiceAccount: conversion.StringValueToPointer(enc.ServiceAccount), }, ), Network: &postgresflexalpha.InstanceNetwork{ AccessScope: postgresflexalpha.InstanceNetworkGetAccessScopeAttributeType( conversion.StringValueToPointer(net.AccessScope), ), }, }, nil } func toUpdatePayload(model *Model, acl []string, flavor *flavorModel, storage *storageModel) (*postgresflexalpha.UpdateInstancePartiallyRequestPayload, error) { if model == nil { return nil, fmt.Errorf("nil model") } if acl == nil { return nil, fmt.Errorf("nil acl") } if flavor == nil { return nil, fmt.Errorf("nil flavor") } if storage == nil { return nil, fmt.Errorf("nil storage") } return &postgresflexalpha.UpdateInstancePartiallyRequestPayload{ //Acl: postgresflexalpha.UpdateInstancePartiallyRequestPayloadGetAclAttributeType{ // Items: &acl, //}, BackupSchedule: conversion.StringValueToPointer(model.BackupSchedule), FlavorId: conversion.StringValueToPointer(flavor.Id), Name: conversion.StringValueToPointer(model.Name), //Replicas: conversion.Int64ValueToPointer(model.Replicas), Storage: &postgresflexalpha.StorageUpdate{ Size: conversion.Int64ValueToPointer(storage.Size), }, Version: conversion.StringValueToPointer(model.Version), }, nil } type postgresflexClient interface { GetFlavorsRequestExecute(ctx context.Context, projectId string, region string) (*postgresflexalpha.GetFlavorsResponse, error) } func loadFlavorId(ctx context.Context, client postgresflexClient, model *Model, flavor *flavorModel) error { if model == nil { return fmt.Errorf("nil model") } if flavor == nil { return fmt.Errorf("nil flavor") } cpu := conversion.Int64ValueToPointer(flavor.CPU) if cpu == nil { return fmt.Errorf("nil CPU") } ram := conversion.Int64ValueToPointer(flavor.RAM) if ram == nil { return fmt.Errorf("nil RAM") } projectId := model.ProjectId.ValueString() region := model.Region.ValueString() res, err := client.GetFlavorsRequestExecute(ctx, projectId, region) if err != nil { return fmt.Errorf("listing postgresflex flavors: %w", err) } avl := "" if res.Flavors == nil { return fmt.Errorf("finding flavors for project %s", projectId) } for _, f := range *res.Flavors { if f.Id == nil || f.Cpu == nil || f.Memory == nil { continue } if *f.Cpu == *cpu && *f.Memory == *ram { flavor.Id = types.StringValue(*f.Id) flavor.Description = types.StringValue(*f.Description) break } avl = fmt.Sprintf("%s\n- %d CPU, %d GB RAM", avl, *f.Cpu, *f.Memory) } if flavor.Id.ValueString() == "" { return fmt.Errorf("couldn't find flavor, available specs are:%s", avl) } return nil }