Managing Enterprise File Storage with OVHcloud Terraform provider

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KB0071515

Managing Enterprise File Storage with OVHcloud Terraform provider


Icons/System/eye-open Created with Sketch. 29 Ansichten 11.07.2025 Cloud / Enterprise File Storage
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Objective

Enterprise File Storage is a storage solution that allows you to provision NFS volumes that are fully managed by OVHcloud. Terraform is an infrastructure-as-code tool that automates resource provisioning.

In this guide, you will learn how to use OVHcloud Terraform provider to manage your EFS solution volumes, snapshots and more.

In this guide, a volume is also called share as in the OVHcloud API.

Learn how manage your EFS service using Terraform.

Requirements

Instructions

Configure the OVHcloud Terraform provider

Generate API credentials

The OVHcloud Teraform Provider needs to be configured with an API token to be able to make calls to the OVHcloud API.

The API token information is needed because the OVHcloud Terraform Provider is making requests to the OVHcloud API in the backend.

Your API token will need to have the following rights:

  • GET /storage/netapp/*
  • POST /storage/netapp/*
  • PUT /storage/netapp/*
  • DELETE /storage/netapp/*

Follow the First steps with the OVHcloud APIs guide to generate your API token.

Once your token is generated, save its information for later use with the OVHcloud Terraform provider.

Get your service ID

The ID of your Enterprise File Storage service can be obtained via the OVHcloud API or the OVHcloud Control Panel.

If you are not familiar with using the OVHcloud API, please refer to our guide on Getting started with the OVHcloud API.

  • API method: Call GET /storage/netapp.

GET /storage/netapp

Configure provider parameters

Create a provider.tf file defining the OVHcloud provider configuration:

terraform {
  required_providers {
    ovh = {
      source  = "ovh/ovh"
      version = "2.5.0"
    }
  }

  required_version = ">= 0.17.1"
}

provider "ovh" {
  endpoint           = var.ovh.endpoint
  application_key    = var.ovh.application_key
  application_secret = var.ovh.application_secret
  consumer_key       = var.ovh.consumer_key
}

Then create a variables.tf file definining the variables that will be used inside your .tf files:

variable "ovh" {
  type = map(string)
  default = {
    endpoint           = "ovh-eu"
    application_key    = ""
    application_secret = ""
    consumer_key       = ""
  }
}

About the ovh.endpoint variable: by default, ovh-eu is defined because we are making calls to the OVHcloud Europe API.

Other endpoints exists, depending on your needs:

  • ovh-eu for OVHcloud Europe API
  • ovh-ca for OVHcloud America/Asia API

Finally, create a secrets.tfvars file containing the required variable values:

Don't forget to replace <application_key>, <application_secret> and <consumer_key> with your API token information obtained previously. 

ovh = {
  endpoint           = "ovh-eu"
  application_key    = "<application_key>"
  application_secret = "<application_secret>"
  consumer_key       = "<consumer_key>"
}

Now you need to initiliaze Terraform:

terraform init

The init command will initialize your working directory which contains .tf configuration files.

It’s the first command to execute for a new configuration, or after doing a checkout of an existing configuration in a given git repository for example.

The init command will download the necessary providers and initialize the backend.

Once the initialization is successfull you are now able to manage Enterprise File Storage resources and data sources that are availalable inside the OVHcloud Terraform provider.

Service management

Get service information

Use the ovh_storage_efs data source to fetch service details.

Create a main.tf file:

data "ovh_storage_efs" "efs" {
  service_name = "<service_id>" # Replace this value with EFS service ID.
}

Define outputs in an output.tf file:

output "service_id" {
  value = data.ovh_storage_efs.efs.id
}

output "service_product" {
 value = data.ovh_storage_efs.efs.product
}

output "service_quota" {
 value = data.ovh_storage_efs.efs.quota
}

Run terraform apply to view the outputs: 

terraform apply -var-file=secrets.tfvars

data.ovh_storage_efs.efs: Reading...
data.ovh_storage_efs.efs: Read complete after 0s [id=xxx-xxx-xxx-xxx-xxx]

Changes to Outputs:
  + service_id      = "xxx-xxx-xxx-xxx-xxx"
  + service_product = "enterprise-file-storage-premium-1tb"
  + service_quota   = 1000

You can apply this plan to save these new output values to the Terraform state, without changing any real infrastructure.

Do you want to perform these actions?
  Terraform will perform the actions described above.
  Only 'yes' will be accepted to approve.

  Enter a value: yes

Apply complete! Resources: 0 added, 0 changed, 0 destroyed.

Outputs:

service_id = "xxx-xxx-xxx-xxx-xxx"
service_product = "enterprise-file-storage-premium-1tb"
service_quota = 1000

Volumes Management

OVHcloud Terraform Provider allows the following volume management operations: creation, modification and deletion.

ovh_storage_efs_share resource represents a volume.

Create a volume

Define a volume inside your main.tf file:

resource "ovh_storage_efs_share" "volume" {
  service_name = "<service_id>" # Replace this value with EFS service ID.
  name         = "share"
  description  = "My share"
  protocol     = "NFS"
  size         = 100
  # mount_path = <mount_path_value>
  # snapshot_id = <snapshot_id_to_use>
}

Additionnal properties:

  • A custom mount path can be specified using mount_path property.
  • The volume can be created from an existing snapshot using snapshot_id property.

Run terraform plan to create the execution plan:

terraform plan -var-file=secrets.tfvars -out main.tfplan

Terraform used the selected providers to generate the following execution plan. Resource actions are indicated with the following symbols:
  + create

Terraform will perform the following actions:

  # ovh_storage_efs_share.volume will be created
  + resource "ovh_storage_efs_share" "volume" {
      + created_at       = (known after apply)
      + description      = "My share"
      + id               = (known after apply)
      + mount_point_name = (known after apply)
      + name             = "share"
      + protocol         = "NFS"
      + service_name     = "xxx-xxx-xxx-xxx-xxx"
      + size             = 100
      + snapshot_id      = (known after apply)
      + status           = (known after apply)
    }

Plan: 1 to add, 0 to change, 0 to destroy.

Saved the plan to: main.tfplan

To perform exactly these actions, run the following command to apply:
    terraform apply "main.tfplan"

Key points:

  • The terraform plan command will create an execution plan but won't execute it. Instead, it will determine what actions are necessary to create the configuration specified inside your configuration files. This will allow you to verifiy whether your execution plan matches exectations before making any changes to actual resources.

  • The optional -out parameter allows your to specifiy an output file for the plan. It will ensure that the plan you reviewed will be the same as what is applied.

Once you reviewed the execution plan, run terraform apply to make changes:

terraform apply main.tfplan

ovh_storage_efs_share.volume: Creating...
ovh_storage_efs_share.volume: Still creating... [10s elapsed]
ovh_storage_efs_share.volume: Creation complete after 11s [id=29d1facf-db03-4951-a4e4-c6c8ac7b1104]

Apply complete! Resources: 1 added, 0 changed, 0 destroyed.

Your volume is now created.

Modify a volume

Volume name, description and size can be updated.

Once the value(s) are updated inside your main.tf file, apply the changes using terraform apply.

Delete a volume

To delete your volume use terraform destroy command.

If your volume has manual snapshots that are not referenced by Terraform, they must be deleted before the volume is deleted. 

terraform destroy -var-file=secrets.tfvars

ovh_storage_efs_share.volume: Refreshing state... [id=29d1facf-db03-4951-a4e4-c6c8ac7b1104]

Terraform used the selected providers to generate the following execution plan. Resource actions are indicated with the following symbols:
  - destroy

Terraform will perform the following actions:

  # ovh_storage_efs_share.volume will be destroyed
  - resource "ovh_storage_efs_share" "volume" {
      - created_at   = "2025-07-01T09:53:17Z" -> null
      - description  = "My share" -> null
      - id           = "29d1facf-db03-4951-a4e4-c6c8ac7b1104" -> null
      - name         = "share" -> null
      - protocol     = "NFS" -> null
      - service_name = "xxx-xxx-xxx-xxx-xxx" -> null
      - size         = 100 -> null
      - status       = "available" -> null
        # (1 unchanged attribute hidden)
    }

Plan: 0 to add, 0 to change, 1 to destroy.

Do you really want to destroy all resources?
  Terraform will destroy all your managed infrastructure, as shown above.
  There is no undo. Only 'yes' will be accepted to confirm.

  Enter a value: yes

ovh_storage_efs_share.volume: Destroying... [id=29d1facf-db03-4951-a4e4-c6c8ac7b1104]
ovh_storage_efs_share.volume: Destruction complete after 1s

Destroy complete! Resources: 1 destroyed.

Get information about volume access paths

To retrieve information about one or all of the volume access paths use ovh_storage_efs_share_access_paths and ovh_storage_efs_share_access_path data sources respectively.

Create or add to an existing main.tf file the following content:

You can (re-)use a volume that already exists (within your Terraform configuration or not). 

resource "ovh_storage_efs_share" "volume" {
  service_name = "xxx-xxx-xxx-xxx-xxx"
  name         = "share"
  description  = "My share"
  protocol     = "NFS"
  size         = 100
}

data "ovh_storage_efs_share_access_paths" "access_paths" {
  service_name = "xxx-xxx-xxx-xxx-xxx"
  share_id = ovh_storage_efs_share.volume.id
}

data "ovh_storage_efs_share_access_path" "access_path" {
  service_name = "xxx-xxx-xxx-xxx-xxx"
  share_id = ovh_storage_efs_share.volume.id
  id = tolist(data.ovh_storage_efs_share_access_paths.access_paths.access_paths).0.id
}

Define access path outputs in an output.tf file:

output "share_acccess_path" {
  value = data.ovh_storage_efs_share_access_path.access_path
}

output "share_access_paths" {
  value = data.ovh_storage_efs_share_access_paths.access_paths
}

Run terraform apply to add your data source and create outputs:

terraform apply data_source.tfplan

Terraform used the selected providers to generate the following execution plan. Resource actions are indicated with the following symbols:
  + create
 <= read (data resources)

Terraform will perform the following actions:

  # data.ovh_storage_efs_share_access_path.access_path will be read during apply
  # (config refers to values not yet known)
 <= data "ovh_storage_efs_share_access_path" "access_path" {
      + id           = (known after apply)
      + path         = (known after apply)
      + preferred    = (known after apply)
      + service_name = "xxx-xxx-xxx-xxx-xxx"
      + share_id     = (known after apply)
    }

  # data.ovh_storage_efs_share_access_paths.access_paths will be read during apply
  # (config refers to values not yet known)
 <= data "ovh_storage_efs_share_access_paths" "access_paths" {
      + access_paths = (known after apply)
      + service_name = "xxx-xxx-xxx-xxx-xxx"
      + share_id     = (known after apply)
    }

  # ovh_storage_efs_share.volume will be created
  + resource "ovh_storage_efs_share" "volume" {
      + created_at       = (known after apply)
      + description      = "My share"
      + id               = (known after apply)
      + mount_point_name = (known after apply)
      + name             = "share"
      + protocol         = "NFS"
      + service_name     = "xxx-xxx-xxx-xxx-xxx"
      + size             = 100
      + snapshot_id      = (known after apply)
      + status           = (known after apply)
    }

Plan: 1 to add, 0 to change, 0 to destroy.

Changes to Outputs:
  + share_acccess_path = {
      + id           = (known after apply)
      + path         = (known after apply)
      + preferred    = (known after apply)
      + service_name = "xxx-xxx-xxx-xxx-xxx"
      + share_id     = (known after apply)
    }
  + share_access_paths = {
      + access_paths = (known after apply)
      + service_name = "xxx-xxx-xxx-xxx-xxx"
      + share_id     = (known after apply)
    }

Do you want to perform these actions?
  Terraform will perform the actions described above.
  Only 'yes' will be accepted to approve.

  Enter a value: yes

ovh_storage_efs_share.volume: Creating...
ovh_storage_efs_share.volume: Still creating... [10s elapsed]
ovh_storage_efs_share.volume: Creation complete after 10s [id=1d6669a7-8b86-472a-bb04-cf8be7b9af16]
data.ovh_storage_efs_share_access_paths.access_paths: Reading...
data.ovh_storage_efs_share_access_paths.access_paths: Read complete after 1s
data.ovh_storage_efs_share_access_path.access_path: Reading...
data.ovh_storage_efs_share_access_path.access_path: Read complete after 0s [id=7cbcf0ca-50f4-4e3c-9222-406e71a10649]

Apply complete! Resources: 1 added, 0 changed, 0 destroyed.

Outputs:

share_acccess_path = {
  "id" = "7cbcf0ca-50f4-4e3c-9222-406e71a10649"
  "path" = "10.6.0.1:/share_b038413e_c446_4788_871f_a762fb1b7697"
  "preferred" = true
  "service_name" = "xxx-xxx-xxx-xxx-xxx"
  "share_id" = "1d6669a7-8b86-472a-bb04-cf8be7b9af16"
}
share_access_paths = {
  "access_paths" = toset([
    {
      "id" = "7cbcf0ca-50f4-4e3c-9222-406e71a10649"
      "path" = "10.6.0.1:/share_b038413e_c446_4788_871f_a762fb1b7697"
      "preferred" = true
    },
  ])
  "service_name" = "xxx-xxx-xxx-xxx-xxx"
  "share_id" = "1d6669a7-8b86-472a-bb04-cf8be7b9af16"
}

Snapshots Management

OVHcloud Terraform Provider allows the following snapshot management operations: creation, modification and deletion.

ovh_storage_efs_share_snapshot represents a volume snapshot.

Create a snapshot

Define a snapshot inside main.tf file:

You can (re-)use a volume that already exists (within your Terraform configuration or not) to create your snapshot.

The time_sleep resource manages delay between snapshot and volume deletion. The snapshot has to be deleted before the volume can be deleted.

If you don't already have the hashicorp/time provider installed, you will need to run terraform init -upgrade to download it. 

resource "ovh_storage_efs_share" "volume" {
  service_name = "<service_id>" # Replace this value with service ID.
  name         = "share"
  description  = "My share"
  protocol     = "NFS"
  size         = 100
}

resource "ovh_storage_efs_share_snapshot" "snapshot" {
  depends_on = [time_sleep.wait_10_seconds]

  service_name = "<service_id>" # Replace this value with service ID.
  share_id = ovh_storage_efs_share.share.id
  name = "snapshot"
  description = "My snapshot"
}

resource "time_sleep" "wait_10_seconds" {
  depends_on = [ovh_storage_efs_share.share]

  destroy_duration = "10s"
}

Run terraform plan to create the execution plan:

terraform plan -var-file=secrets.tfvars -out main.tfplan

Terraform used the selected providers to generate the following execution plan. Resource actions are indicated with the following symbols:
  + create

Terraform will perform the following actions:

  # ovh_storage_efs_share.volume will be created
  + resource "ovh_storage_efs_share" "volume" {
      + created_at       = (known after apply)
      + description      = "My share"
      + id               = (known after apply)
      + mount_point_name = (known after apply)
      + name             = "share"
      + protocol         = "NFS"
      + service_name     = "xxx-xxx-xxx-xxx-xxx"
      + size             = 100
      + snapshot_id      = (known after apply)
      + status           = (known after apply)
    }

  # ovh_storage_efs_share_snapshot.snapshot will be created
  + resource "ovh_storage_efs_share_snapshot" "snapshot" {
      + created_at   = (known after apply)
      + description  = "My snapshot"
      + id           = (known after apply)
      + name         = "snapshot"
      + path         = (known after apply)
      + service_name = "xxx-xxx-xxx-xxx-xxx"
      + share_id     = (known after apply)
      + status       = (known after apply)
      + type         = (known after apply)
    }

  # time_sleep.wait_10_seconds will be created
  + resource "time_sleep" "wait_10_seconds" {
      + destroy_duration = "10s"
      + id               = (known after apply)
    }

Plan: 3 to add, 0 to change, 0 to destroy.

Saved the plan to: main.tfplan

To perform exactly these actions, run the following command to apply:
    terraform apply "main.tfplan"

Key points:

  • The terraform plan command will create an execution plan but won't execute it. Instead, it will determine what actions are necessary to create the configuration specified inside your configuration files. This will allow you to verifiy whether your execution plan matches exectations before making any changes to actual resources.

  • The optional -out parameter allows your to specifiy an output file for the plan. It will ensure that the plan you reviewed will be the same as what is applied.

Once you reviewed the execution plan, run terraform apply to make changes:

terraform apply main.tfplan

ovh_storage_efs_share.volume: Creating...
ovh_storage_efs_share.volume: Still creating... [10s elapsed]
ovh_storage_efs_share.volume: Still creating... [20s elapsed]
ovh_storage_efs_share.volume: Still creating... [30s elapsed]
ovh_storage_efs_share.volume: Still creating... [40s elapsed]
ovh_storage_efs_share.volume: Creation complete after 41s [id=1f551984-6529-48f8-830d-f6a70d062174]
time_sleep.wait_10_seconds: Creating...
time_sleep.wait_10_seconds: Creation complete after 0s [id=2025-07-01T13:39:01Z]
ovh_storage_efs_share_snapshot.snapshot: Creating...
ovh_storage_efs_share_snapshot.snapshot: Still creating... [10s elapsed]
ovh_storage_efs_share_snapshot.snapshot: Creation complete after 10s [id=f92bc04a-301f-4a9a-80ba-7c7bf18b2275]

Apply complete! Resources: 3 added, 0 changed, 0 destroyed.

Your snapshot is now available.

Modify a snapshot

Snapshot name and description properties can be updated.

Once the value(s) are updated inside your main.tf file, apply the changes using terraform apply.

Delete a snapshot

To delete your snapshot use the terraform destroy command.

terraform destroy -var-file=secrets.tfvars

ovh_storage_efs_share.volume: Refreshing state... [id=1f551984-6529-48f8-830d-f6a70d062174]
time_sleep.wait_10_seconds: Refreshing state... [id=2025-07-01T13:39:01Z]
ovh_storage_efs_share_snapshot.snapshot: Refreshing state... [id=f92bc04a-301f-4a9a-80ba-7c7bf18b2275]

Terraform used the selected providers to generate the following execution plan. Resource actions are indicated with the following symbols:
  - destroy

Terraform will perform the following actions:

  # ovh_storage_efs_share.volume will be destroyed
  - resource "ovh_storage_efs_share" "volume" {
      - created_at   = "2025-07-01T13:38:21Z" -> null
      - description  = "My share" -> null
      - id           = "1f551984-6529-48f8-830d-f6a70d062174" -> null
      - name         = "share" -> null
      - protocol     = "NFS" -> null
      - service_name = "xxx-xxx-xxx-xxx-xxx" -> null
      - size         = 100 -> null
      - status       = "available" -> null
        # (1 unchanged attribute hidden)
    }

  # ovh_storage_efs_share_snapshot.snapshot will be destroyed
  - resource "ovh_storage_efs_share_snapshot" "snapshot" {
      - created_at   = "2025-07-01T13:39:01Z" -> null
      - description  = "My snapshot" -> null
      - id           = "f92bc04a-301f-4a9a-80ba-7c7bf18b2275" -> null
      - name         = "snapshot" -> null
      - path         = ".snapshot/share_snapshot_b571d597_80b0_4a5f_ac42_00fb3401c70c" -> null
      - service_name = "xxx-xxx-xxx-xxx-xxx" -> null
      - share_id     = "1f551984-6529-48f8-830d-f6a70d062174" -> null
      - status       = "available" -> null
      - type         = "manual" -> null
    }

  # time_sleep.wait_10_seconds will be destroyed
  - resource "time_sleep" "wait_10_seconds" {
      - destroy_duration = "10s" -> null
      - id               = "2025-07-01T13:39:01Z" -> null
    }

Plan: 0 to add, 0 to change, 3 to destroy.

Do you really want to destroy all resources?
  Terraform will destroy all your managed infrastructure, as shown above.
  There is no undo. Only 'yes' will be accepted to confirm.

  Enter a value: yes

ovh_storage_efs_share_snapshot.snapshot: Destroying... [id=f92bc04a-301f-4a9a-80ba-7c7bf18b2275]
ovh_storage_efs_share_snapshot.snapshot: Destruction complete after 0s
time_sleep.wait_10_seconds: Destroying... [id=2025-07-01T13:39:01Z]
time_sleep.wait_10_seconds: Still destroying... [id=2025-07-01T13:39:01Z, 10s elapsed]
time_sleep.wait_10_seconds: Destruction complete after 10s
ovh_storage_efs_share.volume: Destroying... [id=1f551984-6529-48f8-830d-f6a70d062174]
ovh_storage_efs_share.volume: Destruction complete after 1s

Destroy complete! Resources: 3 destroyed.

ACLs management

OVHcloud Terraform Provider allows ACLs creation and deletion.

ovh_storage_efs_share_acl resource represents an ACL.

Create an ACL

Define an ACL inside main.tf file:

You can (re-)use a volume that already exists (within your Terraform configuration or not) to create your ACL. 

resource "ovh_storage_efs_share" "volume" {
  service_name = "<service_id>" # Replace this value with service ID.
  name = "share"
  description = "My share"
  protocol = "NFS"
  size = 100
}

resource "ovh_storage_efs_share_acl" "acl" {
  service_name = "<service_id>" # Replace this value with service ID.
  share_id = ovh_storage_efs_share.volume.id
  access_level = "rw"
  access_to = "10.0.0.1/32"
}

Run terraform plan to create the execution plan:

terraform plan -var-file=secrets.tfvars -out main.tfplan

Terraform used the selected providers to generate the following execution plan. Resource actions are indicated with the following symbols:
  + create

Terraform will perform the following actions:

  # ovh_storage_efs_share.volume will be created
  + resource "ovh_storage_efs_share" "volume" {
      + created_at       = (known after apply)
      + description      = "My share"
      + id               = (known after apply)
      + mount_point_name = (known after apply)
      + name             = "share"
      + protocol         = "NFS"
      + service_name     = "xxx-xxx-xxx-xxx-xxx"
      + size             = 100
      + snapshot_id      = (known after apply)
      + status           = (known after apply)
    }

  # ovh_storage_efs_share_acl.acl will be created
  + resource "ovh_storage_efs_share_acl" "acl" {
      + access_level = "rw"
      + access_to    = "10.0.0.1/32"
      + access_type  = (known after apply)
      + created_at   = (known after apply)
      + id           = (known after apply)
      + service_name = "xxx-xxx-xxx-xxx-xxx"
      + share_id     = (known after apply)
      + status       = (known after apply)
    }

Plan: 2 to add, 0 to change, 0 to destroy.

Saved the plan to: main.tfplan

To perform exactly these actions, run the following command to apply:
    terraform apply "main.tfplan"

Key points:

  • The terraform plan command will create an execution plan but won't execute it. Instead, it will determine what actions are necessary to create the configuration specified inside your configuration files. This will allow you to verifiy whether your execution plan matches exectations before making any changes to actual resources.

  • The optional -out parameter allows your to specifiy an output file for the plan. It will ensure that the plan you reviewed will be the same as what is applied.

Once you reviewed the execution plan, run terraform apply to make changes:

terraform apply main.tfplan

ovh_storage_efs_share.volume: Creating...
ovh_storage_efs_share.volume: Still creating... [10s elapsed]
ovh_storage_efs_share.volume: Creation complete after 10s [id=001ccf4b-3537-41c0-b446-a42663971d58]
ovh_storage_efs_share_acl.acl: Creating...
ovh_storage_efs_share_acl.acl: Still creating... [10s elapsed]
ovh_storage_efs_share_acl.acl: Creation complete after 11s [id=9274f4d4-de96-46eb-935f-ffbc747a19bc]

Apply complete! Resources: 2 added, 0 changed, 0 destroyed.

Your ACL is now available.

Delete an ACL

To delete your ACL use the terraform destroy command. 

terraform destroy -var-file=secrets.tfvars

ovh_storage_efs_share.volume: Refreshing state... [id=001ccf4b-3537-41c0-b446-a42663971d58]
ovh_storage_efs_share_acl.acl: Refreshing state... [id=9274f4d4-de96-46eb-935f-ffbc747a19bc]

Terraform used the selected providers to generate the following execution plan. Resource actions are indicated with the following symbols:
  - destroy

Terraform will perform the following actions:

  # ovh_storage_efs_share.volume will be destroyed
  - resource "ovh_storage_efs_share" "volume" {
      - created_at   = "2025-07-01T14:36:37Z" -> null
      - description  = "My share" -> null
      - id           = "001ccf4b-3537-41c0-b446-a42663971d58" -> null
      - name         = "share" -> null
      - protocol     = "NFS" -> null
      - service_name = "xxx-xxx-xxx-xxx-xxx" -> null
      - size         = 100 -> null
      - status       = "available" -> null
        # (1 unchanged attribute hidden)
    }

  # ovh_storage_efs_share_acl.acl will be destroyed
  - resource "ovh_storage_efs_share_acl" "acl" {
      - access_level = "rw" -> null
      - access_to    = "10.0.0.1/32" -> null
      - access_type  = "ip" -> null
      - created_at   = "2025-07-01T14:36:48Z" -> null
      - id           = "9274f4d4-de96-46eb-935f-ffbc747a19bc" -> null
      - service_name = "xxx-xxx-xxx-xxx-xxx" -> null
      - share_id     = "001ccf4b-3537-41c0-b446-a42663971d58" -> null
      - status       = "active" -> null
    }

Plan: 0 to add, 0 to change, 2 to destroy.

Do you really want to destroy all resources?
  Terraform will destroy all your managed infrastructure, as shown above.
  There is no undo. Only 'yes' will be accepted to confirm.

  Enter a value: yes

ovh_storage_efs_share_acl.acl: Destroying... [id=9274f4d4-de96-46eb-935f-ffbc747a19bc]
ovh_storage_efs_share_acl.acl: Destruction complete after 0s
ovh_storage_efs_share.volume: Destroying... [id=001ccf4b-3537-41c0-b446-a42663971d58]
ovh_storage_efs_share.volume: Destruction complete after 0s

Destroy complete! Resources: 2 destroyed.

Troubleshooting

  • Authentication Issues: Verify API credentials and permissions.
  • Resource Limits: Check volume/snapshot quota usage in the OVHcloud Control Panel.
  • Volume Deletion Issues: Ensure all manual snapshots are deleted before removing the volume.

Go further

API Quickstart

Enterprise File Storage - FAQ

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