Azure Instance Metadata Service
Applies to: ✔️ Linux VMs ✔️ Windows VMs ✔️ Flexible scale sets
The Azure Instance Metadata Service (IMDS) provides information about currently running virtual machine instances. You can use it to manage and configure your virtual machines. This information includes the SKU, storage, network configurations, and upcoming maintenance events. For a complete list of the data available, see the Endpoint Categories Summary.
IMDS is available for running instances of virtual machines (VMs) and scale set instances. All endpoints support VMs created and managed by using Azure Resource Manager. Only the Attested category and Network portion of the Instance category support VMs created by using the classic deployment model. The Attested endpoint does so only to a limited extent.
IMDS is a REST API that's available at a well-known, non-routable IP address (169.254.169.254
). You can only access it from within the VM. Communication between the VM and IMDS never leaves the host.
Have your HTTP clients bypass web proxies within the VM when querying IMDS.
Usage
Access Azure Instance Metadata Service
To access IMDS, create a VM from Azure Resource Manager or the Azure portal, and use the following samples. For more examples, see Azure Instance Metadata Samples.
Here's sample code to retrieve all metadata for an instance. To access a specific data source, see Endpoint Categories for an overview of all available features.
Request
Important
This example bypasses proxies. You must bypass proxies when querying IMDS. See Proxies for additional information.
Note
IMDS requests must be sent using VM's primary NIC and primary IP, and DHCP must be enabled.
Invoke-RestMethod -Headers @{"Metadata"="true"} -Method GET -NoProxy -Uri "http://169.254.169.254/metadata/instance?api-version=2021-02-01" | ConvertTo-Json -Depth 64
-NoProxy
requires PowerShell V6 or greater. See our samples repository for examples with older PowerShell versions.
Response
Note
The response is a JSON string. The following example response is pretty-printed for readability.
{
"compute": {
"azEnvironment": "AZUREPUBLICCLOUD",
"additionalCapabilities": {
"hibernationEnabled": "true"
},
"hostGroup": {
"id": "testHostGroupId"
},
"extendedLocation": {
"type": "edgeZone",
"name": "microsoftlosangeles"
},
"evictionPolicy": "",
"isHostCompatibilityLayerVm": "true",
"licenseType": "Windows_Client",
"location": "westus",
"name": "examplevmname",
"offer": "WindowsServer",
"osProfile": {
"adminUsername": "admin",
"computerName": "examplevmname",
"disablePasswordAuthentication": "true"
},
"osType": "Windows",
"placementGroupId": "f67c14ab-e92c-408c-ae2d-da15866ec79a",
"plan": {
"name": "planName",
"product": "planProduct",
"publisher": "planPublisher"
},
"platformFaultDomain": "36",
"platformSubFaultDomain": "",
"platformUpdateDomain": "42",
"priority": "Regular",
"publicKeys": [{
"keyData": "ssh-rsa 0",
"path": "/home/user/.ssh/authorized_keys0"
},
{
"keyData": "ssh-rsa 1",
"path": "/home/user/.ssh/authorized_keys1"
}
],
"publisher": "RDFE-Test-Microsoft-Windows-Server-Group",
"resourceGroupName": "macikgo-test-may-23",
"resourceId": "/subscriptions/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/resourceGroups/macikgo-test-may-23/providers/Microsoft.Compute/virtualMachines/examplevmname",
"securityProfile": {
"secureBootEnabled": "true",
"virtualTpmEnabled": "false",
"encryptionAtHost": "true",
"securityType": "TrustedLaunch"
},
"sku": "2019-Datacenter",
"storageProfile": {
"dataDisks": [{
"bytesPerSecondThrottle": "979202048",
"caching": "None",
"createOption": "Empty",
"diskCapacityBytes": "274877906944",
"diskSizeGB": "1024",
"image": {
"uri": ""
},
"isSharedDisk": "false",
"isUltraDisk": "true",
"lun": "0",
"managedDisk": {
"id": "/subscriptions/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/resourceGroups/macikgo-test-may-23/providers/Microsoft.Compute/disks/exampledatadiskname",
"storageAccountType": "StandardSSD_LRS"
},
"name": "exampledatadiskname",
"opsPerSecondThrottle": "65280",
"vhd": {
"uri": ""
},
"writeAcceleratorEnabled": "false"
}],
"imageReference": {
"id": "",
"offer": "WindowsServer",
"publisher": "MicrosoftWindowsServer",
"sku": "2019-Datacenter",
"version": "latest",
"communityGalleryImageId": "/CommunityGalleries/testgallery/Images/1804Gen2/Versions/latest",
"sharedGalleryImageId": "/SharedGalleries/1P/Images/gen2/Versions/latest",
"exactVersion": "1.1686127202.30113"
},
"osDisk": {
"caching": "ReadWrite",
"createOption": "FromImage",
"diskSizeGB": "30",
"diffDiskSettings": {
"option": "Local"
},
"encryptionSettings": {
"enabled": "false",
"diskEncryptionKey": {
"sourceVault": {
"id": "/subscriptions/test-source-guid/resourceGroups/testrg/providers/Microsoft.KeyVault/vaults/test-kv"
},
"secretUrl": "https://test-disk.vault.azure.net/secrets/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx"
},
"keyEncryptionKey": {
"sourceVault": {
"id": "/subscriptions/test-key-guid/resourceGroups/testrg/providers/Microsoft.KeyVault/vaults/test-kv"
},
"keyUrl": "https://test-key.vault.azure.net/secrets/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx"
}
},
"image": {
"uri": ""
},
"managedDisk": {
"id": "/subscriptions/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/resourceGroups/macikgo-test-may-23/providers/Microsoft.Compute/disks/exampleosdiskname",
"storageAccountType": "StandardSSD_LRS"
},
"name": "exampleosdiskname",
"osType": "Windows",
"vhd": {
"uri": ""
},
"writeAcceleratorEnabled": "false"
},
"resourceDisk": {
"size": "4096"
}
},
"subscriptionId": "xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx",
"tags": "baz:bash;foo:bar",
"userData": "Zm9vYmFy",
"version": "15.05.22",
"virtualMachineScaleSet": {
"id": "/subscriptions/xxxxxxxx-xxxxx-xxx-xxx-xxxx/resourceGroups/resource-group-name/providers/Microsoft.Compute/virtualMachineScaleSets/virtual-machine-scale-set-name"
},
"vmId": "02aab8a4-74ef-476e-8182-f6d2ba4166a6",
"vmScaleSetName": "crpteste9vflji9",
"vmSize": "Standard_A3",
"zone": ""
},
"network": {
"interface": [{
"ipv4": {
"ipAddress": [{
"privateIpAddress": "10.144.133.132",
"publicIpAddress": ""
}],
"subnet": [{
"address": "10.144.133.128",
"prefix": "26"
}]
},
"ipv6": {
"ipAddress": [
]
},
"macAddress": "0011AAFFBB22"
}]
}
}
Security and authentication
The Instance Metadata Service is only accessible from within a running virtual machine instance on a non-routable IP address. VMs can only interact with their own metadata/functionality. The API is HTTP only and never leaves the host.
In order to ensure that requests are directly intended for IMDS and prevent unintended or unwanted redirection of requests, requests:
- Must contain the header
Metadata: true
- Must not contain an
X-Forwarded-For
header
Any request that doesn't meet both of these requirements are rejected by the service.
Important
IMDS is not a channel for sensitive data. The API is unauthenticated and open to all processes on the VM. Information exposed through this service should be considered as shared information to all applications running inside the VM.
If it isn't necessary for every process on the VM to access IMDS endpoint, you can set local firewall rules to limit the access. For example, if only a known system service needs to access instance metadata service, you can set a firewall rule on IMDS endpoint, only allowing the specific process(es) to access, or denying access for the rest of the processes.
Proxies
IMDS is not intended to be used behind a proxy and doing so is unsupported. Most HTTP clients provide an option for you to disable proxies on your requests, and this functionality must be utilized when communicating with IMDS. Consult your client's documentation for details.
Important
Even if you don't know of any proxy configuration in your environment, you still must override any default client proxy settings. Proxy configurations can be automatically discovered, and failing to bypass such configurations exposes you to outage risks should the machine's configuration be changed in the future.
Rate limiting
In general, requests to IMDS are limited to 5 requests per second (on a per VM basis). Requests exceeding this threshold will be rejected with 429 responses. Requests to the Managed Identity category are limited to 20 requests per second and 5 concurrent requests (on a per VM basis).
HTTP verbs
The following HTTP verbs are currently supported:
Verb | Description |
---|---|
GET |
Retrieve the requested resource |
Parameters
Endpoints may support required and/or optional parameters. See Schema and the documentation for the specific endpoint in question for details.
Query parameters
IMDS endpoints support HTTP query string parameters. For example:
http://169.254.169.254/metadata/instance/compute?api-version=2021-01-01&format=json
Specifies the parameters:
Name | Value |
---|---|
api-version |
2021-01-01 |
format |
json |
Requests with duplicate query parameter names will be rejected.
Route parameters
For some endpoints that return larger json blobs, we support appending route parameters to the request endpoint to filter down to a subset of the response:
http://169.254.169.254/metadata/<endpoint>/[<filter parameter>/...]?<query parameters>
The parameters correspond to the indexes/keys that would be used to walk down the json object were you interacting with a parsed representation.
For example, /metadata/instance
returns the json object:
{
"compute": { ... },
"network": {
"interface": [
{
"ipv4": {
"ipAddress": [{
"privateIpAddress": "10.144.133.132",
"publicIpAddress": ""
}],
"subnet": [{
"address": "10.144.133.128",
"prefix": "26"
}]
},
"ipv6": {
"ipAddress": [
]
},
"macAddress": "0011AAFFBB22"
},
...
]
}
}
If we want to filter the response down to just the compute property, we would send the request:
http://169.254.169.254/metadata/instance/compute?api-version=<version>
Similarly, if we want to filter to a nested property or specific array element we keep appending keys:
http://169.254.169.254/metadata/instance/network/interface/0?api-version=<version>
would filter to the first element from the Network.interface
property and return:
{
"ipv4": {
"ipAddress": [{
"privateIpAddress": "10.144.133.132",
"publicIpAddress": ""
}],
"subnet": [{
"address": "10.144.133.128",
"prefix": "26"
}]
},
"ipv6": {
"ipAddress": [
]
},
"macAddress": "0011AAFFBB22"
}
Note
When filtering to a leaf node, format=json
doesn't work. For these queries format=text
needs to be explicitly specified since the default format is json.
Schema
Data format
By default, IMDS returns data in JSON format (Content-Type: application/json
). However, endpoints that support response filtering (see Route Parameters) also support the format text
.
To access a non-default response format, specify the requested format as a query string parameter in the request. For example:
Invoke-RestMethod -Headers @{"Metadata"="true"} -Method GET -NoProxy -Uri "http://169.254.169.254/metadata/instance?api-version=2017-08-01&format=text"
In json responses, all primitives will be of type string
, and missing or inapplicable values are always included but will be set to an empty string.
Versioning
IMDS is versioned and specifying the API version in the HTTP request is mandatory. The only exception to this requirement is the versions endpoint, which can be used to dynamically retrieve the available API versions.
As newer versions are added, older versions can still be accessed for compatibility if your scripts have dependencies on specific data formats.
When you don't specify a version, you get an error with a list of the newest supported versions:
{
"error": "Bad request. api-version was not specified in the request. For more information refer to aka.ms/azureimds",
"newest-versions": [
"2020-10-01",
"2020-09-01",
"2020-07-15"
]
}
Supported API versions
Note
Version 2023-11-15 is still being rolled out, it may not be available in some regions.
- 2023-11-15
- 2023-07-01
- 2021-12-13
- 2021-11-15
- 2021-11-01
- 2021-10-01
- 2021-08-01
- 2021-05-01
- 2021-03-01
- 2021-02-01
- 2021-01-01
- 2020-12-01
- 2020-10-01
- 2020-09-01
- 2020-07-15
- 2020-06-01
- 2019-11-01
- 2019-08-15
- 2019-08-01
- 2019-06-04
- 2019-06-01
- 2019-04-30
- 2019-03-11
- 2019-02-01
- 2018-10-01
- 2018-04-02
- 2018-02-01
- 2017-12-01
- 2017-10-01
- 2017-08-01
- 2017-04-02
- 2017-03-01
Swagger
A full Swagger definition for IMDS is available at: https://github.com/Azure/azure-rest-api-specs/blob/main/specification/imds/data-plane/readme.md
Regional availability
The service is generally available in all Azure clouds.
Root endpoint
The root endpoint is http://169.254.169.254/metadata
.
Endpoint categories
The IMDS API contains multiple endpoint categories representing different data sources, each of which contains one or more endpoints. See each category for details.
Category root | Description | Version introduced |
---|---|---|
/metadata/attested |
See Attested Data | 2018-10-01 |
/metadata/identity |
See Managed Identity via IMDS | 2018-02-01 |
/metadata/instance |
See Instance Metadata | 2017-04-02 |
/metadata/loadbalancer |
See Retrieve Load Balancer metadata via IMDS | 2020-10-01 |
/metadata/scheduledevents |
See Scheduled Events via IMDS | 2017-08-01 |
/metadata/versions |
See Versions | N/A |
Versions
List API versions
Returns the set of supported API versions.
GET /metadata/versions
Parameters
None (this endpoint is unversioned).
Response
{
"apiVersions": [
"2017-03-01",
"2017-04-02",
...
]
}
Instance metadata
Get VM metadata
Exposes the important metadata for the VM instance, including compute, network, and storage.
GET /metadata/instance
Parameters
Name | Required/Optional | Description |
---|---|---|
api-version |
Required | The version used to service the request. |
format |
Optional* | The format (json or text ) of the response. *Note: May be required when using request parameters |
This endpoint supports response filtering via route parameters.
Response
{
"compute": {
"azEnvironment": "AZUREPUBLICCLOUD",
"additionalCapabilities": {
"hibernationEnabled": "true"
},
"hostGroup": {
"id": "testHostGroupId"
},
"extendedLocation": {
"type": "edgeZone",
"name": "microsoftlosangeles"
},
"evictionPolicy": "",
"isHostCompatibilityLayerVm": "true",
"licenseType": "Windows_Client",
"location": "westus",
"name": "examplevmname",
"offer": "WindowsServer",
"osProfile": {
"adminUsername": "admin",
"computerName": "examplevmname",
"disablePasswordAuthentication": "true"
},
"osType": "Windows",
"placementGroupId": "f67c14ab-e92c-408c-ae2d-da15866ec79a",
"plan": {
"name": "planName",
"product": "planProduct",
"publisher": "planPublisher"
},
"platformFaultDomain": "36",
"platformSubFaultDomain": "",
"platformUpdateDomain": "42",
"priority": "Regular",
"publicKeys": [{
"keyData": "ssh-rsa 0",
"path": "/home/user/.ssh/authorized_keys0"
},
{
"keyData": "ssh-rsa 1",
"path": "/home/user/.ssh/authorized_keys1"
}
],
"publisher": "RDFE-Test-Microsoft-Windows-Server-Group",
"resourceGroupName": "macikgo-test-may-23",
"resourceId": "/subscriptions/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/resourceGroups/macikgo-test-may-23/providers/Microsoft.Compute/virtualMachines/examplevmname",
"securityProfile": {
"secureBootEnabled": "true",
"virtualTpmEnabled": "false",
"encryptionAtHost": "true",
"securityType": "TrustedLaunch"
},
"sku": "2019-Datacenter",
"storageProfile": {
"dataDisks": [{
"bytesPerSecondThrottle": "979202048",
"caching": "None",
"createOption": "Empty",
"diskCapacityBytes": "274877906944",
"diskSizeGB": "1024",
"image": {
"uri": ""
},
"isSharedDisk": "false",
"isUltraDisk": "true",
"lun": "0",
"managedDisk": {
"id": "/subscriptions/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/resourceGroups/macikgo-test-may-23/providers/Microsoft.Compute/disks/exampledatadiskname",
"storageAccountType": "StandardSSD_LRS"
},
"name": "exampledatadiskname",
"opsPerSecondThrottle": "65280",
"vhd": {
"uri": ""
},
"writeAcceleratorEnabled": "false"
}],
"imageReference": {
"id": "",
"offer": "WindowsServer",
"publisher": "MicrosoftWindowsServer",
"sku": "2019-Datacenter",
"version": "latest",
"communityGalleryImageId": "/CommunityGalleries/testgallery/Images/1804Gen2/Versions/latest",
"sharedGalleryImageId": "/SharedGalleries/1P/Images/gen2/Versions/latest",
"exactVersion": "1.1686127202.30113"
},
"osDisk": {
"caching": "ReadWrite",
"createOption": "FromImage",
"diskSizeGB": "30",
"diffDiskSettings": {
"option": "Local"
},
"encryptionSettings": {
"enabled": "false",
"diskEncryptionKey": {
"sourceVault": {
"id": "/subscriptions/test-source-guid/resourceGroups/testrg/providers/Microsoft.KeyVault/vaults/test-kv"
},
"secretUrl": "https://test-disk.vault.azure.net/secrets/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx"
},
"keyEncryptionKey": {
"sourceVault": {
"id": "/subscriptions/test-key-guid/resourceGroups/testrg/providers/Microsoft.KeyVault/vaults/test-kv"
},
"keyUrl": "https://test-key.vault.azure.net/secrets/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx"
}
},
"image": {
"uri": ""
},
"managedDisk": {
"id": "/subscriptions/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/resourceGroups/macikgo-test-may-23/providers/Microsoft.Compute/disks/exampleosdiskname",
"storageAccountType": "StandardSSD_LRS"
},
"name": "exampleosdiskname",
"osType": "Windows",
"vhd": {
"uri": ""
},
"writeAcceleratorEnabled": "false"
},
"resourceDisk": {
"size": "4096"
}
},
"subscriptionId": "xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx",
"tags": "baz:bash;foo:bar",
"userData": "Zm9vYmFy",
"version": "15.05.22",
"virtualMachineScaleSet": {
"id": "/subscriptions/xxxxxxxx-xxxxx-xxx-xxx-xxxx/resourceGroups/resource-group-name/providers/Microsoft.Compute/virtualMachineScaleSets/virtual-machine-scale-set-name"
},
"vmId": "02aab8a4-74ef-476e-8182-f6d2ba4166a6",
"vmScaleSetName": "crpteste9vflji9",
"vmSize": "Standard_A3",
"zone": ""
},
"network": {
"interface": [{
"ipv4": {
"ipAddress": [{
"privateIpAddress": "10.144.133.132",
"publicIpAddress": ""
}],
"subnet": [{
"address": "10.144.133.128",
"prefix": "26"
}]
},
"ipv6": {
"ipAddress": [
]
},
"macAddress": "0011AAFFBB22"
}]
}
}
Schema breakdown:
Compute
Data | Description | Version introduced |
---|---|---|
azEnvironment |
Azure Environment where the VM is running in | 2018-10-01 |
additionalCapabilities.hibernationEnabled |
Identifies if hibernation is enabled on the VM | 2021-11-01 |
customData |
This feature is deprecated and disabled in IMDS. It has been superseded by userData |
2019-02-01 |
evictionPolicy |
Sets how a Spot VM will be evicted. | 2020-12-01 |
extendedLocation.type |
Type of the extended location of the VM. | 2021-03-01 |
extendedLocation.name |
Name of the extended location of the VM | 2021-03-01 |
host.id |
Name of the host of the VM. Note that a VM will either have a host or a hostGroup but not both. | 2021-11-15 |
hostGroup.id |
Name of the hostGroup of the VM. Note that a VM will either have a host or a hostGroup but not both. | 2021-11-15 |
isHostCompatibilityLayerVm |
Identifies if the VM runs on the Host Compatibility Layer | 2020-06-01 |
licenseType |
Type of license for Azure Hybrid Benefit. This is only present for AHB-enabled VMs | 2020-09-01 |
location |
Azure Region the VM is running in | 2017-04-02 |
name |
Name of the VM | 2017-04-02 |
offer |
Offer information for the VM image and is only present for images deployed from Azure image gallery | 2017-04-02 |
osProfile.adminUsername |
Specifies the name of the admin account | 2020-07-15 |
osProfile.computerName |
Specifies the name of the computer | 2020-07-15 |
osProfile.disablePasswordAuthentication |
Specifies if password authentication is disabled. This is only present for Linux VMs | 2020-10-01 |
osType |
Linux or Windows | 2017-04-02 |
physicalZone |
Physical zone of the VM | 2023-11-15 |
placementGroupId |
Placement Group of your scale set | 2017-08-01 |
plan |
Plan containing name, product, and publisher for a VM if it's an Azure Marketplace Image | 2018-04-02 |
platformUpdateDomain |
Update domain the VM is running in | 2017-04-02 |
platformFaultDomain |
Fault domain the VM is running in | 2017-04-02 |
platformSubFaultDomain |
Sub fault domain the VM is running in, if applicable. | 2021-10-01 |
priority |
Priority of the VM. Refer to Spot VMs for more information | 2020-12-01 |
provider |
Provider of the VM | 2018-10-01 |
publicKeys |
Collection of Public Keys assigned to the VM and paths | 2018-04-02 |
publisher |
Publisher of the VM image | 2017-04-02 |
resourceGroupName |
Resource group for your Virtual Machine | 2017-08-01 |
resourceId |
The fully qualified ID of the resource | 2019-03-11 |
sku |
Specific SKU for the VM image | 2017-04-02 |
securityProfile.secureBootEnabled |
Identifies if UEFI secure boot is enabled on the VM | 2020-06-01 |
securityProfile.virtualTpmEnabled |
Identifies if the virtual Trusted Platform Module (TPM) is enabled on the VM | 2020-06-01 |
securityProfile.encryptionAtHost |
Identifies if Encryption at Host is enabled on the VM | 2021-11-01 |
securityProfile.securityType |
Identifies if the VM is a Trusted VM or a Confidential VM | 2021-12-13 |
storageProfile |
See Storage Profile below | 2019-06-01 |
subscriptionId |
Azure subscription for the Virtual Machine | 2017-08-01 |
tags |
Tags for your Virtual Machine | 2017-08-01 |
tagsList |
Tags formatted as a JSON array for easier programmatic parsing | 2019-06-04 |
userData |
The set of data specified when the VM was created for use during or after provisioning (Base64 encoded) | 2021-01-01 |
version |
Version of the VM image | 2017-04-02 |
virtualMachineScaleSet.id |
ID of the Virtual Machine Scale Set created with flexible orchestration the Virtual Machine is part of. This field isn't available for Virtual Machine Scale Sets created with uniform orchestration. | 2021-03-01 |
vmId |
Unique identifier for the VM. The blog referenced only suits for VMs that have SMBIOS < 2.6. For VMs that have SMBIOS >= 2.6, the UUID from DMI is displayed in little-endian format, thus, there's no requirement to switch bytes. | 2017-04-02 |
vmScaleSetName |
Virtual Machine Scale Set Name of your scale set | 2017-12-01 |
vmSize |
VM size | 2017-04-02 |
zone |
Availability Zone of your virtual machine | 2017-12-01 |
† This version isn't fully available yet and may not be supported in all regions.
Storage profile
The storage profile of a VM is divided into three categories: image reference, OS disk, and data disks, plus an additional object for the local temporary disk.
The image reference object contains the following information about the OS image, please note that an image could come either from the platform, marketplace, community gallery, or direct shared gallery but not both:
Data | Description | Version introduced |
---|---|---|
id |
Resource ID | 2019-06-01 |
offer |
Offer of the platform or marketplace image | 2019-06-01 |
publisher |
Publisher of the platform or marketplace image | 2019-06-01 |
sku |
Sku of the platform or marketplace image | 2019-06-01 |
version |
Version of the image | 2019-06-01 |
communityGalleryImageId |
Resource ID of the community image, empty otherwise | 2023-07-01 |
sharedGalleryImageId |
Resource ID o direct shared image, empty otherwise | 2023-07-01 |
exactVersion |
Version of the community or direct shared image | 2023-07-01 |
The OS disk object contains the following information about the OS disk used by the VM:
Data | Description |
---|---|
caching |
Caching requirements |
createOption |
Information about how the VM was created |
diffDiskSettings |
Ephemeral disk settings |
diskSizeGB |
Size of the disk in GB |
image |
Source user image virtual hard disk |
managedDisk |
Managed disk parameters |
name |
Disk name |
vhd |
Virtual hard disk |
writeAcceleratorEnabled |
Whether or not writeAccelerator is enabled on the disk |
The data disks array contains a list of data disks attached to the VM. Each data disk object contains the following information:
Data | Description | Version introduced |
---|---|---|
bytesPerSecondThrottle * |
Disk read/write quota in bytes | 2021-05-01 |
caching |
Caching requirements | 2019-06-01 |
createOption |
Information about how the VM was created | 2019-06-01 |
diffDiskSettings |
Ephemeral disk settings | 2019-06-01 |
diskCapacityBytes * |
Size of disk in bytes | 2021-05-01 |
diskSizeGB |
Size of the disk in GB | 2019-06-01 |
encryptionSettings |
Encryption settings for the disk | 2019-06-01 |
image |
Source user image virtual hard disk | 2019-06-01 |
isSharedDisk * |
Identifies if the disk is shared between resources | 2021-05-01 |
isUltraDisk |
Identifies if the data disk is an Ultra Disk | 2021-05-01 |
lun |
Logical unit number of the disk | 2019-06-01 |
managedDisk |
Managed disk parameters | 2019-06-01 |
name |
Disk name | 2019-06-01 |
opsPerSecondThrottle * |
Disk read/write quota in IOPS | 2021-05-01 |
osType |
Type of OS included in the disk | 2019-06-01 |
vhd |
Virtual hard disk | 2019-06-01 |
writeAcceleratorEnabled |
Whether or not writeAccelerator is enabled on the disk | 2019-06-01 |
*These fields are only populated for Ultra Disks; they are empty strings from non-Ultra Disks.
The encryption settings blob contains data about how the disk is encrypted (if it's encrypted):
Data | Description | Version introduced |
---|---|---|
diskEncryptionKey.sourceVault.id |
The location of the disk encryption key | 2021-11-01 |
diskEncryptionKey.secretUrl |
The location of the secret | 2021-11-01 |
keyEncryptionKey.sourceVault.id |
The location of the key encryption key | 2021-11-01 |
keyEncryptionKey.keyUrl |
The location of the key | 2021-11-01 |
The resource disk object contains the size of the Local Temp Disk attached to the VM, if it has one, in kilobytes. If there's no local temp disk for the VM, this value is 0.
Data | Description | Version introduced |
---|---|---|
resourceDisk.size |
Size of the local temp disk for the VM (in kB) | 2021-02-01 |
Network
Data | Description | Version introduced |
---|---|---|
ipv4.privateIpAddress |
Local IPv4 address of the VM | 2017-04-02 |
ipv4.publicIpAddress |
Public IPv4 address of the VM | 2017-04-02 |
subnet.address |
Subnet address of the VM | 2017-04-02 |
subnet.prefix |
Subnet prefix, example 24 | 2017-04-02 |
ipv6.ipAddress |
Local IPv6 address of the VM | 2017-04-02 |
macAddress |
VM mac address | 2017-04-02 |
Note
The nics returned by the network call are not guaranteed to be in order.
Get user data
When creating a new VM, you can specify a set of data to be used during or after the VM provision, and retrieve it through IMDS. Check the end to end user data experience here.
To set up user data, utilize the quickstart template here. The sample below shows how to retrieve this data through IMDS. This feature is released with version 2021-01-01
and above.
Note
Security notice: IMDS is open to all applications on the VM, sensitive data should not be placed in the user data.
$userData = Invoke-RestMethod -Headers @{"Metadata"="true"} -Method GET -NoProxy -Uri "http://169.254.169.254/metadata/instance/compute/userData?api-version=2021-01-01&format=text"
[System.Text.Encoding]::UTF8.GetString([Convert]::FromBase64String($userData))
Sample 1: Tracking VM running on Azure
As a service provider, you may require to track the number of VMs running your software or have agents that need to track uniqueness of the VM. To be able to get a unique ID for a VM, use the vmId
field from Instance Metadata Service.
Request
Invoke-RestMethod -Headers @{"Metadata"="true"} -Method GET -NoProxy -Uri "http://169.254.169.254/metadata/instance/compute/vmId?api-version=2017-08-01&format=text"
Response
5c08b38e-4d57-4c23-ac45-aca61037f084
Sample 2: Placement of different data replicas
For certain scenarios, placement of different data replicas is of prime importance. For example, HDFS replica placement
or container placement via an orchestrator might require you to know the platformFaultDomain
and platformUpdateDomain
the VM is running on.
You can also use Availability Zones for the instances to make these decisions.
You can query this data directly via IMDS.
Request
Invoke-RestMethod -Headers @{"Metadata"="true"} -Method GET -NoProxy -Uri "http://169.254.169.254/metadata/instance/compute/platformFaultDomain?api-version=2017-08-01&format=text"
Response
0
Sample 3: Get VM tags
VM tags are included the instance API under instance/compute/tags endpoint. Tags may have been applied to your Azure VM to logically organize them into a taxonomy. The tags assigned to a VM can be retrieved by using the request below.
Request
Invoke-RestMethod -Headers @{"Metadata"="true"} -Method GET -NoProxy -Uri "http://169.254.169.254/metadata/instance/compute/tags?api-version=2017-08-01&format=text"
Response
Department:IT;ReferenceNumber:123456;TestStatus:Pending
The tags
field is a string with the tags delimited by semicolons. This output can be a problem if semicolons are used in the tags themselves. If a parser is written to programmatically extract the tags, you should rely on the tagsList
field. The tagsList
field is a JSON array with no delimiters, and consequently, easier to parse. The tagsList assigned to a VM can be retrieved by using the request below.
Request
Invoke-RestMethod -Headers @{"Metadata"="true"} -Method GET -NoProxy -Uri "http://169.254.169.254/metadata/instance/compute/tagsList?api-version=2019-06-04" | ConvertTo-Json -Depth 64
Response
{
"value": [
{
"name": "Department",
"value": "IT"
},
{
"name": "ReferenceNumber",
"value": "123456"
},
{
"name": "TestStatus",
"value": "Pending"
}
],
"Count": 3
}
Sample 4: Get more information about the VM during support case
As a service provider, you may get a support call where you would like to know more information about the VM. Asking the customer to share the compute metadata can provide basic information for the support professional to know about the kind of VM on Azure.
Request
Invoke-RestMethod -Headers @{"Metadata"="true"} -Method GET -NoProxy -Uri "http://169.254.169.254/metadata/instance/compute?api-version=2020-09-01" | ConvertTo-Json -Depth 64
Response
Note
The response is a JSON string. The following example response is pretty-printed for readability.
{
"azEnvironment": "AZUREPUBLICCLOUD",
"extendedLocation": {
"type": "edgeZone",
"name": "microsoftlosangeles"
},
"evictionPolicy": "",
"additionalCapabilities": {
"hibernationEnabled": "false"
},
"hostGroup": {
"id": "testHostGroupId"
},
"isHostCompatibilityLayerVm": "true",
"licenseType": "Windows_Client",
"location": "westus",
"name": "examplevmname",
"offer": "WindowsServer",
"osProfile": {
"adminUsername": "admin",
"computerName": "examplevmname",
"disablePasswordAuthentication": "true"
},
"osType": "Windows",
"placementGroupId": "f67c14ab-e92c-408c-ae2d-da15866ec79a",
"plan": {
"name": "planName",
"product": "planProduct",
"publisher": "planPublisher"
},
"platformFaultDomain": "36",
"platformUpdateDomain": "42",
"priority": "Regular",
"publicKeys": [{
"keyData": "ssh-rsa 0",
"path": "/home/user/.ssh/authorized_keys0"
},
{
"keyData": "ssh-rsa 1",
"path": "/home/user/.ssh/authorized_keys1"
}
],
"publisher": "RDFE-Test-Microsoft-Windows-Server-Group",
"physicalZone": "useast-AZ01",
"resourceGroupName": "macikgo-test-may-23",
"resourceId": "/subscriptions/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/resourceGroups/macikgo-test-may-23/providers/Microsoft.Compute/virtualMachines/examplevmname",
"securityProfile": {
"secureBootEnabled": "true",
"virtualTpmEnabled": "false",
"encryptionAtHost": "true",
"securityType": "TrustedLaunch"
},
"sku": "2019-Datacenter",
"storageProfile": {
"dataDisks": [{
"bytesPerSecondThrottle": "979202048",
"caching": "None",
"createOption": "Empty",
"diskCapacityBytes": "274877906944",
"diskSizeGB": "1024",
"image": {
"uri": ""
},
"isSharedDisk": "false",
"isUltraDisk": "true",
"lun": "0",
"managedDisk": {
"id": "/subscriptions/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/resourceGroups/macikgo-test-may-23/providers/MicrosoftCompute/disks/exampledatadiskname",
"storageAccountType": "StandardSSD_LRS"
},
"name": "exampledatadiskname",
"opsPerSecondThrottle": "65280",
"vhd": {
"uri": ""
},
"writeAcceleratorEnabled": "false"
}],
"imageReference": {
"id": "",
"offer": "WindowsServer",
"publisher": "MicrosoftWindowsServer",
"sku": "2019-Datacenter",
"version": "latest",
"communityGalleryImageId": "/CommunityGalleries/testgallery/Images/1804Gen2/Versions/latest",
"sharedGalleryImageId": "/SharedGalleries/1P/Images/gen2/Versions/latest",
"exactVersion": "1.1686127202.30113"
},
"osDisk": {
"caching": "ReadWrite",
"createOption": "FromImage",
"diskSizeGB": "30",
"diffDiskSettings": {
"option": "Local"
},
"encryptionSettings": {
"enabled": "false",
"diskEncryptionKey": {
"sourceVault": {
"id": "/subscriptions/test-source-guid/resourceGroups/testrg/providers/Microsoft.KeyVault/vaults/test-kv"
},
"secretUrl": "https://test-disk.vault.azure.net/secrets/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx"
},
"keyEncryptionKey": {
"sourceVault": {
"id": "/subscriptions/test-key-guid/resourceGroups/testrg/providers/Microsoft.KeyVault/vaults/test-kv"
},
"keyUrl": "https://test-key.vault.azure.net/secrets/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx"
}
},
"image": {
"uri": ""
},
"managedDisk": {
"id": "/subscriptions/xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx/resourceGroups/macikgo-test-may-23/providers/Microsoft.Compute/disks/exampleosdiskname",
"storageAccountType": "StandardSSD_LRS"
},
"name": "exampleosdiskname",
"osType": "Windows",
"vhd": {
"uri": ""
},
"writeAcceleratorEnabled": "false"
},
"resourceDisk": {
"size": "4096"
}
},
"subscriptionId": "xxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxx",
"tags": "baz:bash;foo:bar",
"version": "15.05.22",
"virtualMachineScaleSet": {
"id": "/subscriptions/xxxxxxxx-xxxxx-xxx-xxx-xxxx/resourceGroups/resource-group-name/providers/Microsoft.Compute/virtualMachineScaleSets/virtual-machine-scale-set-name"
},
"vmId": "02aab8a4-74ef-476e-8182-f6d2ba4166a6",
"vmScaleSetName": "crpteste9vflji9",
"vmSize": "Standard_A3",
"zone": "3"
}
Sample 5: Get the Azure Environment where the VM is running
Azure has various sovereign clouds like Azure Government. Sometimes you need the Azure Environment to make some runtime decisions. The following sample shows you how you can achieve this behavior.
Request
Invoke-RestMethod -Headers @{"Metadata"="true"} -Method GET -NoProxy -Uri "http://169.254.169.254/metadata/instance/compute/azEnvironment?api-version=2018-10-01&format=text"
Response
AzurePublicCloud
The cloud and the values of the Azure environment are listed here.
Cloud | Azure environment |
---|---|
All generally available global Azure regions | AzurePublicCloud |
Azure Government | AzureUSGovernmentCloud |
Microsoft Azure operated by 21Vianet | AzureChinaCloud |
Azure Germany | AzureGermanCloud |
Sample 6: Retrieve network information
Request
Invoke-RestMethod -Headers @{"Metadata"="true"} -Method GET -NoProxy -Uri "http://169.254.169.254/metadata/instance/network?api-version=2017-08-01" | ConvertTo-Json -Depth 64
Response
{
"interface": [
{
"ipv4": {
"ipAddress": [
{
"privateIpAddress": "10.1.0.4",
"publicIpAddress": "X.X.X.X"
}
],
"subnet": [
{
"address": "10.1.0.0",
"prefix": "24"
}
]
},
"ipv6": {
"ipAddress": []
},
"macAddress": "000D3AF806EC"
}
]
}
Sample 7: Retrieve public IP address
Invoke-RestMethod -Headers @{"Metadata"="true"} -Method GET -NoProxy -Uri "http://169.254.169.254/metadata/instance/network/interface/0/ipv4/ipAddress/0/publicIpAddress?api-version=2017-08-01&format=text"
Note
- If you're looking to retrieve IMDS information for Standard SKU Public IP address, review Load Balancer Metadata API for more infomration.
Attested data
Get Attested data
IMDS helps to provide guarantees that the data provided is coming from Azure. Microsoft signs part of this information, so you can confirm that an image in Azure Marketplace is the one you're running on Azure.
GET /metadata/attested/document
Parameters
Name | Required/Optional | Description |
---|---|---|
api-version |
Required | The version used to service the request. |
nonce |
Optional | A 10-digit string that serves as a cryptographic nonce. If no value is provided, IMDS uses the current UTC timestamp. |
Response
{
"encoding":"pkcs7",
"signature":"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"
}
The signature blob is a pkcs7-signed version of document. It contains the certificate used for signing along with certain VM-specific details.
For VMs created by using Azure Resource Manager, the document includes vmId
, sku
, nonce
, subscriptionId
, timeStamp
for creation and expiry of the document, and the plan information about the image. The plan information is only populated for Azure Marketplace images.
For VMs created by using the classic deployment model, only the vmId
and subscriptionId
are guaranteed to be populated. You can extract the certificate from the response, and use it to confirm that the response is valid and is coming from Azure.
The decoded document contains the following fields:
Data | Description | Version introduced |
---|---|---|
licenseType |
Type of license for Azure Hybrid Benefit. This is only present for AHB-enabled VMs. | 2020-09-01 |
nonce |
A string that can be optionally provided with the request. If no nonce was supplied, the current Coordinated Universal Time timestamp is used. |
2018-10-01 |
plan |
The Azure Marketplace Image plan. Contains the plan ID (name), product image or offer (product), and publisher ID (publisher). | 2018-10-01 |
timestamp.createdOn |
The UTC timestamp for when the signed document was created | 2018-20-01 |
timestamp.expiresOn |
The UTC timestamp for when the signed document expires | 2018-10-01 |
vmId |
Unique identifier for the VM | 2018-10-01 |
subscriptionId |
Azure subscription for the Virtual Machine | 2019-04-30 |
sku |
Specific SKU for the VM image (correlates to compute/sku property from the Instance Metadata endpoint [/metadata/instance ]) |
2019-11-01 |
Note
For Classic (non-Azure Resource Manager) VMs, only the vmId is guaranteed to be populated.
Example document:
{
"nonce":"20201130-211924",
"plan":{
"name":"planName",
"product":"planProduct",
"publisher":"planPublisher"
},
"sku":"Windows-Server-2012-R2-Datacenter",
"subscriptionId":"8d10da13-8125-4ba9-a717-bf7490507b3d",
"timeStamp":{
"createdOn":"11/30/20 21:19:19 -0000",
"expiresOn":"11/30/20 21:19:24 -0000"
},
"vmId":"02aab8a4-74ef-476e-8182-f6d2ba4166a6"
}
Signature Validation Guidance
When validating the signature, you should confirm that the signature was created with a certificate from Azure. This is done by validating the certificate Subject Alternative Name (SAN).
Example SAN DNS Name=eastus.metadata.azure.com, DNS Name=metadata.azure.com
Note
The domain for the public cloud and each sovereign cloud will be different.
Cloud | Domain in SAN |
---|---|
All generally available global Azure regions | *.metadata.azure.com |
Azure Government | *.metadata.azure.us |
Azure operated by 21Vianet | *.metadata.azure.cn |
Azure Germany | *.metadata.microsoftazure.de |
Note
The certificates might not have an exact match for the domain. For this reason, the certification validation should accept any subdomain (for example, in public cloud general availability regions accept *.metadata.azure.com
).
We don't recommend certificate pinning for intermediate certs. For further guidance, see Certificate pinning - Certificate pinning and Azure services. Please note that the Azure Instance Metadata Service will NOT offer notifications for future Certificate Authority changes. Instead, you must follow the centralized Azure Certificate Authority details article for all future updates.
Sample 1: Validate that the VM is running in Azure
Vendors in Azure Marketplace want to ensure that their software is licensed to run only in Azure. If someone copies the VHD to an on-premises environment, the vendor needs to be able to detect that. Through IMDS, these vendors can get signed data that guarantees response only from Azure.
Note
This sample requires the jq utility to be installed.
Validation
# Get the signature
$attestedDoc = Invoke-RestMethod -Headers @{"Metadata"="true"} -Method GET -NoProxy -Uri http://169.254.169.254/metadata/attested/document?api-version=2020-09-01
# Decode the signature
$signature = [System.Convert]::FromBase64String($attestedDoc.signature)
Verify that the signature is from Microsoft Azure and checks the certificate chain for errors.
# Get certificate chain
$cert = [System.Security.Cryptography.X509Certificates.X509Certificate2]($signature)
$chain = New-Object -TypeName System.Security.Cryptography.X509Certificates.X509Chain
$chain.Build($cert)
# Print the Subject of each certificate in the chain
foreach($element in $chain.ChainElements)
{
Write-Host $element.Certificate.Subject
}
# Get the content of the signed document
Add-Type -AssemblyName System.Security
$signedCms = New-Object -TypeName System.Security.Cryptography.Pkcs.SignedCms
$signedCms.Decode($signature);
$content = [System.Text.Encoding]::UTF8.GetString($signedCms.ContentInfo.Content)
Write-Host "Attested data: " $content
$json = $content | ConvertFrom-Json
# Do additional validation here
The nonce
in the signed document can be compared if you provided a nonce
parameter in the initial request.
Managed identity
A managed identity, assigned by the system, can be enabled on the VM. You can also assign one or more user-assigned managed identities to the VM. You can then request tokens for managed identities from IMDS. Use these tokens to authenticate with other Azure services, such as Azure Key Vault.
For detailed steps to enable this feature, see Acquire an access token.
Load Balancer Metadata
When you place virtual machine or virtual machine set instances behind an Azure Standard Load Balancer, you can use IMDS to retrieve metadata related to the load balancer and the instances. For more information, see Retrieve load balancer information.
Scheduled events
You can obtain the status of the scheduled events by using IMDS. Then the user can specify a set of actions to run upon these events. For more information, see Scheduled events for Linux or Scheduled events for Windows.
Sample code in different languages
The following table lists samples of calling IMDS by using different languages inside the VM:
Errors and debugging
If there's a data element not found or a malformed request, the Instance Metadata Service returns standard HTTP errors. For example:
HTTP status code | Reason |
---|---|
200 OK |
The request was successful. |
400 Bad Request |
Missing Metadata: true header or missing parameter format=json when querying a leaf node |
404 Not Found |
The requested element doesn't exist |
405 Method Not Allowed |
The HTTP method (verb) isn't supported on the endpoint. |
410 Gone |
Retry after some time for a max of 70 seconds |
429 Too Many Requests |
API Rate Limits have been exceeded |
500 Service Error |
Retry after some time |
Frequently asked questions
I'm getting the error
400 Bad Request, Required metadata header not specified
. What does this mean?- IMDS requires the header
Metadata: true
to be passed in the request. Passing this header in the REST call allows access to IMDS.
- IMDS requires the header
Why am I not getting compute information for my VM?
- Currently, IMDS only supports instances created with Azure Resource Manager.
I created my VM through Azure Resource Manager some time ago. Why am I not seeing compute metadata information?
- If you created your VM after September 2016, add a tag to start seeing compute metadata. If you created your VM before September 2016, add or remove extensions or data disks to the VM instance to refresh metadata.
Is user data the same as custom data?
- User data offers the similar functionality to custom data, allowing you to pass your own metadata to the VM instance. The difference is, user data is retrieved through IMDS, and is persistent throughout the lifetime of the VM instance. Existing custom data feature will continue to work as described in this article. However you can only get custom data through local system folder, not through IMDS.
Why am I not seeing all data populated for a new version?
- If you created your VM after September 2016, add a tag to start seeing compute metadata. If you created your VM before September 2016, add or remove extensions or data disks to the VM instance to refresh metadata.
Why am I getting the error
500 Internal Server Error
or410 Resource Gone
?- Retry your request. For more information, see Transient fault handling. If the problem persists, create a support issue in the Azure portal for the VM.
Would this work for scale set instances?
- Yes, IMDS is available for scale set instances.
I updated my tags in my scale sets, but they don't appear in the instances (unlike single instance VMs). Am I doing something wrong?
- Currently tags for scale sets only show to the VM on a reboot, reimage, or disk change to the instance.
Why am I'm not seeing the SKU information for my VM in
instance/compute
details?- For custom images created from Azure Marketplace, Azure platform doesn't retain the SKU information for the custom image and the details for any VMs created from the custom image. This is by design and hence not surfaced in the VM
instance/compute
details.
- For custom images created from Azure Marketplace, Azure platform doesn't retain the SKU information for the custom image and the details for any VMs created from the custom image. This is by design and hence not surfaced in the VM
Why is my request timed out (or failed to connect) for my call to the service?
Metadata calls must be made from the primary IP address assigned to the primary network card of the VM. Additionally, if you've changed your routes, there must be a route for the 169.254.169.254/32 address in your VM's local routing table.
Dump your local routing table and look for the IMDS entry. For example:
route print
IPv4 Route Table =========================================================================== Active Routes: Network Destination Netmask Gateway Interface Metric 0.0.0.0 0.0.0.0 172.16.69.1 172.16.69.7 10 127.0.0.0 255.0.0.0 On-link 127.0.0.1 331 127.0.0.1 255.255.255.255 On-link 127.0.0.1 331 127.255.255.255 255.255.255.255 On-link 127.0.0.1 331 168.63.129.16 255.255.255.255 172.16.69.1 172.16.69.7 11 169.254.169.254 255.255.255.255 172.16.69.1 172.16.69.7 11 ... (continues) ...
Verify that a route exists for
169.254.169.254
, and note the corresponding network interface (for example,172.16.69.7
).Dump the interface configuration and find the interface that corresponds to the one referenced in the routing table, noting the MAC (physical) address.
ipconfig /all
... (continues) ... Ethernet adapter Ethernet: Connection-specific DNS Suffix . : xic3mnxjiefupcwr1mcs1rjiqa.cx.internal.cloudapp.net Description . . . . . . . . . . . : Microsoft Hyper-V Network Adapter Physical Address. . . . . . . . . : 00-0D-3A-E5-1C-C0 DHCP Enabled. . . . . . . . . . . : Yes Autoconfiguration Enabled . . . . : Yes Link-local IPv6 Address . . . . . : fe80::3166:ce5a:2bd5:a6d1%3(Preferred) IPv4 Address. . . . . . . . . . . : 172.16.69.7(Preferred) Subnet Mask . . . . . . . . . . . : 255.255.255.0 ... (continues) ...
Confirm that the interface corresponds to the VM's primary NIC and primary IP. You can find the primary NIC and IP by looking at the network configuration in the Azure portal, or by looking it up with the Azure CLI. Note the private IPs (and the MAC address if you're using the CLI). Here's a PowerShell CLI example:
$ResourceGroup = '<Resource_Group>' $VmName = '<VM_Name>' $NicNames = az vm nic list --resource-group $ResourceGroup --vm-name $VmName | ConvertFrom-Json | Foreach-Object { $_.id.Split('/')[-1] } foreach($NicName in $NicNames) { $Nic = az vm nic show --resource-group $ResourceGroup --vm-name $VmName --nic $NicName | ConvertFrom-Json Write-Host $NicName, $Nic.primary, $Nic.macAddress }
wintest767 True 00-0D-3A-E5-1C-C0
If they don't match, update the routing table so that the primary NIC and IP are targeted.
Fail over clustering in Windows Server
When you're querying IMDS with failover clustering, it's sometimes necessary to add a route to the routing table. Here's how:
Open a command prompt with administrator privileges.
Run the following command, and note the address of the Interface for Network Destination (
0.0.0.0
) in the IPv4 Route Table.
route print
Note
The following example output is from a Windows Server VM with failover cluster enabled. For simplicity, the output contains only the IPv4 Route Table.
IPv4 Route Table =========================================================================== Active Routes: Network Destination Netmask Gateway Interface Metric 0.0.0.0 0.0.0.0 10.0.1.1 10.0.1.10 266 10.0.1.0 255.255.255.192 On-link 10.0.1.10 266 10.0.1.10 255.255.255.255 On-link 10.0.1.10 266 10.0.1.15 255.255.255.255 On-link 10.0.1.10 266 10.0.1.63 255.255.255.255 On-link 10.0.1.10 266 127.0.0.0 255.0.0.0 On-link 127.0.0.1 331 127.0.0.1 255.255.255.255 On-link 127.0.0.1 331 127.255.255.255 255.255.255.255 On-link 127.0.0.1 331 169.254.0.0 255.255.0.0 On-link 169.254.1.156 271 169.254.1.156 255.255.255.255 On-link 169.254.1.156 271 169.254.255.255 255.255.255.255 On-link 169.254.1.156 271 224.0.0.0 240.0.0.0 On-link 127.0.0.1 331 224.0.0.0 240.0.0.0 On-link 169.254.1.156 271 255.255.255.255 255.255.255.255 On-link 127.0.0.1 331 255.255.255.255 255.255.255.255 On-link 169.254.1.156 271 255.255.255.255 255.255.255.255 On-link 10.0.1.10 266
Run the following command and use the address of the Interface for Network Destination (
0.0.0.0
), which is (10.0.1.10
) in this example.route add 169.254.169.254/32 10.0.1.10 metric 1 -p
Support
If you'ren't able to get a metadata response after multiple attempts, you can create a support issue in the Azure portal.
Product feedback
You can provide product feedback and ideas to our user feedback channel under Virtual Machines > Instance Metadata Service here