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322 lines
12 KiB
322 lines
12 KiB
package disks
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import (
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"context"
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"fmt"
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"github.com/hashicorp/terraform-plugin-framework-timeouts/resource/timeouts"
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"github.com/hashicorp/terraform-plugin-framework/path"
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"github.com/hashicorp/terraform-plugin-framework/resource"
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"github.com/hashicorp/terraform-plugin-framework/resource/schema"
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"github.com/hashicorp/terraform-plugin-log/tflog"
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"repository.basistech.ru/BASIS/decort-golang-sdk/pkg/cloudapi/disks"
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"repository.basistech.ru/BASIS/terraform-provider-dynamix/internal/client"
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"repository.basistech.ru/BASIS/terraform-provider-dynamix/internal/constants"
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"repository.basistech.ru/BASIS/terraform-provider-dynamix/internal/service/cloudapi/disks/flattens"
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"repository.basistech.ru/BASIS/terraform-provider-dynamix/internal/service/cloudapi/disks/models"
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"repository.basistech.ru/BASIS/terraform-provider-dynamix/internal/service/cloudapi/disks/schemas"
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"repository.basistech.ru/BASIS/terraform-provider-dynamix/internal/service/cloudapi/disks/utilities"
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)
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// Ensure the implementation satisfies the expected interfaces.
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var (
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_ resource.Resource = &resourceDiskReplication{}
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_ resource.ResourceWithImportState = &resourceDiskReplication{}
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)
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// NewResourceDisk is a helper function to simplify the provider implementation.
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func NewResourceDiskReplications() resource.Resource {
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return &resourceDiskReplication{}
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}
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// resourceDiskReplication is the resource implementation.
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type resourceDiskReplication struct {
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client *client.Client
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}
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// Create creates the resource and sets the initial Terraform state.
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func (r *resourceDiskReplication) Create(ctx context.Context, req resource.CreateRequest, resp *resource.CreateResponse) {
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// Get plan to create resource group
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var plan models.ResourceRecordDiskReplicationModel
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resp.Diagnostics.Append(req.Plan.Get(ctx, &plan)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Create resourceDiskReplication: Error receiving the plan")
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return
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}
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tflog.Info(ctx, "Create resourceDiskReplication: got plan successfully")
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tflog.Info(ctx, "Create resourceDiskReplication: start creating")
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// Set timeouts
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createTimeout, diags := plan.Timeouts.Create(ctx, constants.Timeout600s)
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resp.Diagnostics.Append(diags...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Create resourceDiskReplication: Error set timeout")
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return
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}
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tflog.Info(ctx, "Create resourceDiskReplication: set timeouts successfully")
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ctx, cancel := context.WithTimeout(ctx, createTimeout)
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defer cancel()
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// Check if input values are valid in the platform
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tflog.Info(ctx, "Create resourceDiskReplication: starting input checks")
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resp.Diagnostics.Append(resourceDiskReplicationInputChecks(ctx, &plan, r.client)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Create resourceDiskReplication: Error input checks")
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return
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}
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tflog.Info(ctx, "Create resourceDiskReplication: input checks successful")
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reqCreate := disks.ReplicateRequest{
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DiskID: uint64(plan.DiskId.ValueInt64()),
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Name: plan.Name.ValueString(),
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SepID: uint64(plan.SepID.ValueInt64()),
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PoolName: plan.PoolName.ValueString(),
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}
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diskReplicaId, err := r.client.CloudAPI().Disks().Replicate(ctx, reqCreate)
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if err != nil {
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resp.Diagnostics.AddError(
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"Create resourceDiskReplication: unable to replicate disk",
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err.Error(),
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)
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return
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}
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tflog.Info(ctx, fmt.Sprintf("resourceDiskReplicationCreate: create replica complete for disk with ID: %d", plan.DiskId.ValueInt64()))
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start := plan.Start.ValueBool()
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ok := !(plan.Start.IsNull() || plan.Start.IsUnknown())
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if ok && !start {
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tflog.Info(ctx, fmt.Sprintf("resourceDiskReplicationCreate: replication between disk with ID: %d and replica with ID: %d, try to stop", uint64(plan.DiskId.ValueInt64()), diskReplicaId))
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reqStop := disks.ReplicationStopRequest{
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DiskID: uint64(plan.DiskId.ValueInt64()),
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}
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_, err = r.client.CloudAPI().Disks().ReplicationStop(ctx, reqStop)
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if err != nil {
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resp.Diagnostics.AddError(
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fmt.Sprintf("resourceDiskReplicationCreate: replication between disk with ID: %d and replica with ID: %d, stoped", uint64(plan.DiskId.ValueInt64()), diskReplicaId),
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err.Error(),
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)
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return
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}
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}
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// Map response body to schema and populate Computed attribute values
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resp.Diagnostics.Append(flattens.DiskReplicationResource(ctx, &plan, r.client)...)
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if resp.Diagnostics.HasError() {
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return
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}
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// Set state to fully populated data
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resp.Diagnostics.Append(resp.State.Set(ctx, plan)...)
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if resp.Diagnostics.HasError() {
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return
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}
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}
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// Read refreshes the Terraform state with the latest data.
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func (r *resourceDiskReplication) Read(ctx context.Context, req resource.ReadRequest, resp *resource.ReadResponse) {
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// Get current state
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var state models.ResourceRecordDiskReplicationModel
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resp.Diagnostics.Append(req.State.Get(ctx, &state)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Read resourceDiskReplication: Error get state")
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return
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}
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tflog.Info(ctx, "Read resourceDiskReplication: got state successfully")
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// Set timeouts
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readTimeout, diags := state.Timeouts.Read(ctx, constants.Timeout300s)
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resp.Diagnostics.Append(diags...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Read resourceDiskReplication: Error set timeout")
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return
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}
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tflog.Info(ctx, "Read resourceDiskReplication: set timeouts successfully", map[string]any{
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"disk_id": state.DiskId.ValueInt64(),
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"readTimeout": readTimeout})
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ctx, cancel := context.WithTimeout(ctx, readTimeout)
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defer cancel()
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// read status
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resp.Diagnostics.Append(utilities.ReplicationDiskReadStatus(ctx, &state, r.client)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Read resourceDiskReplication: Error reading disk status")
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return
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}
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// Overwrite items with refreshed state
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resp.Diagnostics.Append(flattens.DiskReplicationResource(ctx, &state, r.client)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Read resourceDiskReplication: Error flatten disk")
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return
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}
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// Set refreshed state
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resp.Diagnostics.Append(resp.State.Set(ctx, &state)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Read resourceDiskReplication: Error set state")
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return
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}
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tflog.Info(ctx, "End read resourceDiskReplication")
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}
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// Update updates the resource and sets the updated Terraform state on success.
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func (r *resourceDiskReplication) Update(ctx context.Context, req resource.UpdateRequest, resp *resource.UpdateResponse) {
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// Retrieve values from plan
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var plan models.ResourceRecordDiskReplicationModel
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resp.Diagnostics.Append(req.Plan.Get(ctx, &plan)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Update resourceDiskReplication: Error receiving the plan")
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return
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}
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tflog.Info(ctx, "Update resourceDiskReplication: got plan successfully", map[string]any{"disk_id": plan.DiskId.ValueInt64()})
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// Retrieve values from state
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var state models.ResourceRecordDiskReplicationModel
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resp.Diagnostics.Append(req.State.Get(ctx, &state)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Update resourceDiskReplication: Error receiving the state")
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return
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}
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tflog.Info(ctx, "Update resourceDiskReplication: got state successfully", map[string]any{"disk_id": state.DiskId.ValueInt64()})
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// Set timeouts
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updateTimeout, diags := plan.Timeouts.Update(ctx, constants.Timeout300s)
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resp.Diagnostics.Append(diags...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Update resourceDiskReplication: Error set timeout")
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return
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}
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tflog.Info(ctx, "Update resourceDiskReplication: set timeouts successfully", map[string]any{
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"disk_id": state.DiskId.ValueInt64(),
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"updateTimeout": updateTimeout})
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ctx, cancel := context.WithTimeout(ctx, updateTimeout)
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defer cancel()
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// Checking if inputs are valid
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tflog.Info(ctx, "Update resourceDiskReplication: starting input checks", map[string]any{"disk_id": plan.DiskId.ValueInt64()})
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resp.Diagnostics.Append(resourceDiskReplicationInputChecks(ctx, &plan, r.client)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Update resourceDiskReplication: Error input checks")
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return
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}
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tflog.Info(ctx, "Update resourceDiskReplication: input checks successful", map[string]any{"disk_id": state.DiskId.ValueInt64()})
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if !plan.Start.Equal(state.Start) {
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resp.Diagnostics.Append(utilities.UtilityDiskReplicationUpdateStartStop(ctx, &state, r.client)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Update resourceDiskReplication: error with UtilityDiskReplicationUpdateStartStop")
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return
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}
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}
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if !plan.Pause.Equal(state.Pause) {
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resp.Diagnostics.Append(utilities.UtilityDiskReplicationUpdatePause(ctx, &state, r.client)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Update resourceDiskReplication: error with UtilityDiskReplicationUpdatePause")
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return
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}
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}
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if !plan.Reverse.Equal(state.Reverse) {
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resp.Diagnostics.Append(utilities.UtilityDiskReplicationUpdateReverse(ctx, &state, r.client)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Update resourceDiskReplication: error with UtilityDiskReplicationUpdatePause")
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return
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}
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}
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tflog.Info(ctx, "Update resourceDiskReplication: disk update is completed", map[string]any{"disk_id": plan.DiskId.ValueInt64()})
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// Overwrite items with refreshed state
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resp.Diagnostics.Append(flattens.DiskReplicationResource(ctx, &state, r.client)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Read resourceDiskReplication: Error flatten disk")
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return
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}
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// Set refreshed state
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resp.Diagnostics.Append(resp.State.Set(ctx, &state)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Read resourceDiskReplication: Error set state")
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return
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}
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tflog.Info(ctx, "End read resourceDiskReplication")
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}
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// Delete deletes the resource and removes the Terraform state on success.
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func (r *resourceDiskReplication) Delete(ctx context.Context, req resource.DeleteRequest, resp *resource.DeleteResponse) {
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// Get current state
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var state models.ResourceRecordDiskReplicationModel
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resp.Diagnostics.Append(req.State.Get(ctx, &state)...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Delete resourceDiskReplication: Error get state")
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return
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}
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tflog.Info(ctx, "Delete resourceDiskReplication: got state successfully", map[string]any{"disk_id": state.DiskId.ValueInt64()})
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// Set timeouts
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deleteTimeout, diags := state.Timeouts.Delete(ctx, constants.Timeout300s)
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resp.Diagnostics.Append(diags...)
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if resp.Diagnostics.HasError() {
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tflog.Error(ctx, "Delete resourceDiskReplication: Error set timeout")
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return
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}
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tflog.Info(ctx, "Delete resourceDiskReplication: set timeouts successfully", map[string]any{
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"disk_id": state.DiskId.ValueInt64(),
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"deleteTimeout": deleteTimeout})
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ctx, cancel := context.WithTimeout(ctx, deleteTimeout)
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defer cancel()
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// Delete existing resource group
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delReq := disks.DeleteRequest{
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DiskID: uint64(state.DiskId.ValueInt64()),
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Detach: state.Detach.ValueBool(), // default false
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Permanently: state.Permanently.ValueBool(), // default false
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}
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tflog.Info(ctx, "Delete resourceDiskReplication: before call CloudAPI().Disks().Delete", map[string]any{"req": delReq})
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_, err := r.client.CloudAPI().Disks().Delete(ctx, delReq)
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if err != nil {
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resp.Diagnostics.AddError("Delete resourceDiskReplication: Error deleting disk with error: ", err.Error())
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return
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}
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tflog.Info(ctx, "End delete resourceDiskReplication", map[string]any{"disk_id": state.DiskId.ValueInt64()})
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}
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// Schema defines the schema for the resource.
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func (r *resourceDiskReplication) Schema(ctx context.Context, _ resource.SchemaRequest, resp *resource.SchemaResponse) {
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resp.Schema = schema.Schema{
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Attributes: schemas.MakeSchemaResourceDiskReplication(),
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Blocks: map[string]schema.Block{
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"timeouts": timeouts.Block(ctx, timeouts.Opts{Create: true, Read: true, Update: true, Delete: true}),
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},
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}
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}
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// Metadata returns the resource type name.
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func (r *resourceDiskReplication) Metadata(_ context.Context, req resource.MetadataRequest, resp *resource.MetadataResponse) {
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resp.TypeName = req.ProviderTypeName + "_disk_replication"
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}
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// Configure adds the provider configured client to the resource.
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func (r *resourceDiskReplication) Configure(ctx context.Context, req resource.ConfigureRequest, resp *resource.ConfigureResponse) {
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tflog.Info(ctx, "Get Configure resourceDiskReplication")
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r.client = client.Resource(ctx, &req, resp)
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tflog.Info(ctx, "Getting Configure resourceDiskReplication successfully")
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}
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func (r *resourceDiskReplication) ImportState(ctx context.Context, req resource.ImportStateRequest, resp *resource.ImportStateResponse) {
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// Retrieve import ID and save to id attribute
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resource.ImportStatePassthroughID(ctx, path.Root("id"), req, resp)
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}
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