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Azure classic CLI commands

Important

Classic VMs will be retired on March 1, 2023.

If you use IaaS resources from ASM, please complete your migration by March 1, 2023. We encourage you to make the switch sooner to take advantage of the many feature enhancements in Azure Resource Manager.

For more information, see Migrate your IaaS resources to Azure Resource Manager by March 1, 2023.

This topic describes how to install the Azure classic CLI. The classic CLI is deprecated and should only be used with the classic deployment model. For all other deployments, use the Azure CLI.

This article provides syntax and options for Azure classic command-line interface (CLI) commands you'd commonly use to create and manage Azure resources. This is not a complete reference, and your CLI version may show slightly different commands or parameters.

To get started, first install the Azure classic CLI and connect to your Azure subscription.

For current command syntax and options at the command line in Resource Manager mode, type azure help or, to display help for a specific command, azure help [command]. Also find CLI examples in the documentation for creating and managing specific Azure services.

Optional parameters are shown in square brackets (for example, [parameter]). All other parameters are required.

In addition to command-specific optional parameters documented here, there are three optional parameters that can be used to display detailed output such as request options and status codes. The -v parameter provides verbose output, and the -vv parameter provides even more detailed verbose output. The --json option outputs the result in raw json format.

Setting the Resource Manager mode

Use the following command to enable Azure CLI Resource Manager mode commands.

azure config mode arm

Note

The CLI's Azure Resource Manager mode and Azure Service Management mode are mutually exclusive. That is, resources created in one mode cannot be managed from the other mode.

Account information

Your Azure subscription information is used by the tool to connect to your account.

List the imported subscriptions

account list [options]

Show details about a subscription

account show [options] [subscriptionNameOrId]

Set the current subscription

account set [options] <subscriptionNameOrId>

Remove a subscription or environment, or clear all of the stored account and environment info

account clear [options]

Commands to manage your account environment

account env list [options]
account env show [options] [environment]
account env add [options] [environment]
account env set [options] [environment]
account env delete [options] [environment]

Active Directory objects

Commands to display active directory applications

ad app create [options]
ad app delete [options] <object-id>

Commands to display active directory groups

ad group list [options]
ad group show [options]

Commands to provide an active directory sub group or member info

ad group member list [options] [objectId]

Commands to display active directory service principals

ad sp list [options]
ad sp show [options]
ad sp create [options] <application-id>
ad sp delete [options] <object-id>

Commands to display active directory users

ad user list [options]
ad user show [options]

Availability sets

Creates an availability set within a resource group

availset create [options] <resource-group> <name> <location> [tags]

Lists the availability sets within a resource group

availset list [options] <resource-group>

Gets one availability set within a resource group

availset show [options] <resource-group> <name>

Deletes one availability set within a resource group

availset delete [options] <resource-group> <name>

Local settings

List Azure CLI configuration settings

config list [options]

Delete a config setting

config delete [options] <name>

Update a config setting

config set <name> <value>

Sets the Azure CLI working mode to either arm or asm

config mode [options] <modename>

Account features

List all features available for your subscription

feature list [options]

Shows a feature

feature show [options] <providerName> <featureName>

Registers a previewed feature of a resource provider

feature register [options] <providerName> <featureName>

Resource groups

Creates a resource group

group create [options] <name> <location>

Set tags to a resource group

group set [options] <name> <tags>

Deletes a resource group

group delete [options] <name>

Lists the resource groups for your subscription

group list [options]

Shows a resource group for your subscription

group show [options] <name>

Commands to manage resource group logs

group log show [options] [name]

Commands to manage your deployment in a resource group

group deployment create [options] [resource-group] [name]
group deployment list [options] <resource-group> [state]
group deployment show [options] <resource-group> [deployment-name]
group deployment stop [options] <resource-group> [deployment-name]

Commands to manage your local or gallery resource group template

group template list [options]
group template show [options] <name>
group template download [options] [name] [file]
group template validate [options] <resource-group>

HDInsight clusters

Commands to create or add to a cluster configuration file

hdinsight config create [options] <configFilePath> <overwrite>
hdinsight config add-config-values [options] <configFilePath>
hdinsight config add-script-action [options] <configFilePath>

Example: Create a configuration file that contains a script action to run when creating a cluster.

hdinsight config create "C:\myFiles\configFile.config"
hdinsight config add-script-action --configFilePath "C:\myFiles\configFile.config" --nodeType HeadNode --uri <scriptActionURI> --name myScriptAction --parameters "-param value"

Command to create a cluster in a resource group

hdinsight cluster create [options] <clusterName>

Example: Create a Storm on Linux cluster

azure hdinsight cluster create -g myarmgroup -l westus -y Linux --clusterType Storm --version 3.2 --defaultStorageAccountName mystorageaccount --defaultStorageAccountKey <defaultStorageAccountKey> --defaultStorageContainer mycontainer --userName admin --password <clusterPassword> --sshUserName sshuser --sshPassword <sshPassword> --workerNodeCount 1 myNewCluster01

info:    Executing command hdinsight cluster create
+ Submitting the request to create cluster...
info:    hdinsight cluster create command OK

Example: Create a cluster with a script action

azure hdinsight cluster create -g myarmgroup -l westus -y Linux --clusterType Hadoop --version 3.2 --defaultStorageAccountName mystorageaccount --defaultStorageAccountKey <defaultStorageAccountKey> --defaultStorageContainer mycontainer --userName admin --password <clusterPassword> --sshUserName sshuser --sshPassword <sshPassword> --workerNodeCount 1 –configurationPath "C:\myFiles\configFile.config" myNewCluster01

info:    Executing command hdinsight cluster create
+ Submitting the request to create cluster...
info:    hdinsight cluster create command OK

Parameter options:

-h, --help                                                 output usage information
-v, --verbose                                              use verbose output
-vv                                                        more verbose with debug output
--json                                                     use json output
-g --resource-group <resource-group>                       The name of the resource group
-c, --clusterName <clusterName>                            HDInsight cluster name
-l, --location <location>                                  Data center location for the cluster
-y, --osType <osType>                                      HDInsight cluster operating system
'Windows' or 'Linux'
--version <version>                                        HDInsight cluster version
--clusterType <clusterType>                                HDInsight cluster type.
Hadoop | HBase | Spark | Storm
--defaultStorageAccountName <storageAccountName>           Storage account url to use for default HDInsight storage
--defaultStorageAccountKey <storageAccountKey>             Key to the storage account to use for default HDInsight storage
--defaultStorageContainer <storageContainer>               Container in the storage account to use for HDInsight default storage
--headNodeSize <headNodeSize>                              (Optional) Head node size for the cluster
--workerNodeCount <workerNodeCount>                        Number of worker nodes to use for the cluster
--workerNodeSize <workerNodeSize>                          (Optional) Worker node size for the cluster)
--zookeeperNodeSize <zookeeperNodeSize>                    (Optional) Zookeeper node size for the cluster
--userName <userName>                                      Cluster username
--password <password>                                      Cluster password
--sshUserName <sshUserName>                                SSH username (only for Linux clusters)
--sshPassword <sshPassword>                                SSH password (only for Linux clusters)
--sshPublicKey <sshPublicKey>                              SSH public key (only for Linux clusters)
--rdpUserName <rdpUserName>                                RDP username (only for Windows clusters)
--rdpPassword <rdpPassword>                                RDP password (only for Windows clusters)
--rdpAccessExpiry <rdpAccessExpiry>                        RDP access expiry.
For example 12/12/2015 (only for Windows clusters)
--virtualNetworkId <virtualNetworkId>                      (Optional) Virtual network ID for the cluster.
Value is a GUID for Windows cluster and ARM resource ID for Linux cluster)
--subnetName <subnetName>                                  (Optional) Subnet for the cluster
--additionalStorageAccounts <additionalStorageAccounts>    (Optional) Additional storage accounts.
Can be multiple.
In the format of 'accountName#accountKey'.
For example, --additionalStorageAccounts "acc1#key1;acc2#key2"
--hiveMetastoreServerName <hiveMetastoreServerName>        (Optional) SQL Server name for the external metastore for Hive
--hiveMetastoreDatabaseName <hiveMetastoreDatabaseName>    (Optional) Database name for the external metastore for Hive
--hiveMetastoreUserName <hiveMetastoreUserName>            (Optional) Database username for the external metastore for Hive
--hiveMetastorePassword <hiveMetastorePassword>            (Optional) Database password for the external metastore for Hive
--oozieMetastoreServerName <oozieMetastoreServerName>      (Optional) SQL Server name for the external metastore for Oozie
--oozieMetastoreDatabaseName <oozieMetastoreDatabaseName>  (Optional) Database name for the external metastore for Oozie
--oozieMetastoreUserName <oozieMetastoreUserName>          (Optional) Database username for the external metastore for Oozie
--oozieMetastorePassword <oozieMetastorePassword>          (Optional) Database password for the external metastore for Oozie
--configurationPath <configurationPath>                    (Optional) HDInsight cluster configuration file path
-s, --subscription <id>                                    The subscription id
--tags <tags>                                              Tags to set to the cluster.
Can be multiple.
In the format of 'name=value'.
Name is required and value is optional.
For example, --tags tag1=value1;tag2

Command to delete a cluster

hdinsight cluster delete [options] <clusterName>

Command to show cluster details

hdinsight cluster show [options] <clusterName>

Command to list all clusters (in a specific resource group, if provided)

hdinsight cluster list [options]

Command to resize a cluster

hdinsight cluster resize [options] <clusterName> <targetInstanceCount>

Command to enable HTTP access for a cluster

hdinsight cluster enable-http-access [options] <clusterName> <userName> <password>

Command to disable HTTP access for a cluster

hdinsight cluster disable-http-access [options] <clusterName>

Command to enable RDP access for a cluster

hdinsight cluster enable-rdp-access [options] <clusterName> <rdpUserName> <rdpPassword> <rdpExpiryDate>

Command to disable HTTP access for a cluster

hdinsight cluster disable-rdp-access [options] <clusterName>

Insights (events, alert rules, autoscale settings, metrics)

Retrieve operation logs for a subscription, a correlationId, a resource group, resource, or resource provider

insights logs list [options]

Locations

List the available locations

location list [options]

Network resources

Commands to manage virtual networks

network vnet create [options] <resource-group> <name> <location>

Creates a virtual network. In the following example we create a virtual network named newvnet for resource group myresourcegroup in the West US region.

azure network vnet create myresourcegroup newvnet "west us"
info:    Executing command network vnet create
+ Looking up virtual network "newvnet"
+ Creating virtual network "newvnet"
 Loading virtual network state
data:    Id:                   /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/virtualNetworks/newvnet
data:    Name:                 newvnet
data:    Type:                 Microsoft.Network/virtualNetworks
data:    Location:             westus
data:    Tags:
data:    Provisioning state:   Succeeded
data:    Address prefixes:
data:     10.0.0.0/8
data:    DNS servers:
data:    Subnets:
data:
info:    network vnet create command OK

Parameter options:

 -h, --help                                 output usage information
 -v, --verbose                              use verbose output
--json                                     use json output
 -g, --resource-group <resource-group>      the name of the resource group
 -n, --name <name>                          the name of the virtual network
 -l, --location <location>                  the location
 -a, --address-prefixes <address-prefixes>  the comma separated list of address prefixes for this virtual network
  For example -a 10.0.0.0/24,10.0.1.0/24.
  Default value is 10.0.0.0/8

-d, --dns-servers <dns-servers>            the comma separated list of DNS servers IP addresses
 -t, --tags <tags>                          the tags set on this virtual network.
  Can be multiple. In the format of "name=value".
  Name is required and value is optional.
  For example, -t tag1=value1;tag2
 -s, --subscription <subscription>          the subscription identifier

network vnet set [options] <resource-group> <name>

Updates a virtual network configuration within a resource group.

azure network vnet set myresourcegroup newvnet

info:    Executing command network vnet set
+ Looking up virtual network "newvnet"
+ Updating virtual network "newvnet"
+ Loading virtual network state
data:    Id:                   /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/virtualNetworks/newvnet
data:    Name:                 newvnet
data:    Type:                 Microsoft.Network/virtualNetworks
data:    Location:             westus
data:    Tags:
data:    Provisioning state:   Succeeded
data:    Address prefixes:
data:     10.0.0.0/8
data:    DNS servers:
data:    Subnets:
data:
info:    network vnet set command OK

Parameter options:

   -h, --help                                 output usage information
   -v, --verbose                              use verbose output
   --json                                     use json output
   -g, --resource-group <resource-group>      the name of the resource group
   -n, --name <name>                          the name of the virtual network
   -a, --address-prefixes <address-prefixes>  the comma separated list of address prefixes for this virtual network.
    For example -a 10.0.0.0/24,10.0.1.0/24.
    This list will be appended to the current list of address prefixes.
    The address prefixes in this list should not overlap between them.
    The address prefixes in this list should not overlap with existing address prefixes in the vnet.

   -d, --dns-servers [dns-servers]            the comma separated list of DNS servers IP addresses.
    This list will be appended to the current list of DNS server IP addresses.

   -t, --tags <tags>                          the tags set on this virtual network.
    Can be multiple. In the format of "name=value".
    Name is required and value is optional. For example, -t tag1=value1;tag2.
    This list will be appended to the current list of tags

   --no-tags                                  remove all existing tags
   -s, --subscription <subscription>          the subscription identifier

network vnet list [options] <resource-group>

The command lists all virtual networks in a resource group.

C:\>azure network vnet list myresourcegroup

info:    Executing command network vnet list
+ Listing virtual networks
    data:    ID
   Name      Location  Address prefixes  DNS servers
data:    -------------------------------------------------------------------
------  --------  --------  ----------------  -----------
data:    /subscriptions/###############################/resourceGroups/
wvnet   newvnet   westus    10.0.0.0/8
info:    network vnet list command OK

Parameter options:

  -h, --help                             output usage information
  -v, --verbose                          use verbose output
  --json                                 use json output
  -g, --resource-group <resource-group>  the name of the resource group
  -s, --subscription <subscription>      the subscription identifier

network vnet show [options] <resource-group> <name>

The command shows the virtual network properties in a resource group.

azure network vnet show -g myresourcegroup -n newvnet

info:    Executing command network vnet show
+ Looking up virtual network "newvnet"
data:    Id:                   /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/virtualNetworks/newvnet
data:    Name:                 newvnet
data:    Type:                 Microsoft.Network/virtualNetworks
data:    Location:             westus
data:    Tags:
data:    Provisioning state:   Succeeded
data:    Address prefixes:
data:     10.0.0.0/8
data:    DNS servers:
data:    Subnets:
data:
info:    network vnet show command OK

network vnet delete [options] <resource-group> <name>

The command removes a virtual network.

azure network vnet delete myresourcegroup newvnetX

info:    Executing command network vnet delete
+ Looking up virtual network "newvnetX"
Delete virtual network newvnetX? [y/n] y
+ Deleting virtual network "newvnetX"
info:    network vnet delete command OK

Parameter options:

 -h, --help                             output usage information
 -v, --verbose                          use verbose output
 --json                                 use json output
 -g, --resource-group <resource-group>  the name of the resource group
 -n, --name <name>                      the name of the virtual network
 -q, --quiet                            quiet mode, do not ask for delete confirmation
 -s, --subscription <subscription>      the subscription identifier

Commands to manage virtual network subnets

network vnet subnet create [options] <resource-group> <vnet-name> <name>

Adds another subnet to an existing virtual network.

azure network vnet subnet create -g myresourcegroup --vnet-name newvnet -n subnet --address-prefix 10.0.1.0/24

info:    Executing command network vnet subnet create
+ Looking up the subnet "subnet"
+ Creating subnet "subnet"
+ Looking up the subnet "subnet"
data:    Id:                        /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/virtualNetworks/newvnet/subnets/subnet
data:    Name:                      subnet
data:    Type:                      Microsoft.Network/virtualNetworks/subnets
data:    Provisioning state:        Succeeded
data:    Address prefix:            10.0.1.0/24
info:    network vnet subnet create command OK

Parameter options:

 -h, --help                                                       output usage information
 -v, --verbose                                                    use verbose output
     --json                                                           use json output
 -g, --resource-group <resource-group>                            the name of the resource group
 -e, --vnet-name <vnet-name>                                      the name of the virtual network
 -n, --name <name>                                                the name of the subnet
 -a, --address-prefix <address-prefix>                            the address prefix
 -w, --network-security-group-id <network-security-group-id>      the network security group identifier.
       e.g. /subscriptions/<subscription-id>/resourceGroups/<resource-group-name>/providers/Microsoft.Network/networkSecurityGroups/<nsg-name>
 -o, --network-security-group-name <network-security-group-name>  the network security group name
 -s, --subscription <subscription>                                the subscription identifier

network vnet subnet set [options] <resource-group> <vnet-name> <name>

Sets a specific virtual network subnet within a resource group.

C:\>azure network vnet subnet set -g myresourcegroup --vnet-name newvnet -n subnet1

info:    Executing command network vnet subnet set
+ Looking up the subnet "subnet1"
+ Setting subnet "subnet1"
+ Looking up the subnet "subnet1"
data:    Id:                        /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/virtualNetworks/newvnet/subnets/subnet1
data:    Name:                      subnet1
data:    Type:                      Microsoft.Network/virtualNetworks/subnets
data:    Provisioning state:        Succeeded
data:    Address prefix:            10.0.1.0/24
info:    network vnet subnet set command OK

network vnet subnet list [options] <resource-group> <vnet-name>

Lists all the virtual network subnets for a specific virtual network within a resource group.

azure network vnet subnet set -g myresourcegroup --vnet-name newvnet -n subnet1

info:    Executing command network vnet subnet set
+ Looking up the subnet "subnet1"
+ Setting subnet "subnet1"
+ Looking up the subnet "subnet1"
data:    Id:                        /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/virtualNetworks/newvnet/subnets/subnet1
data:    Name:                      subnet1
data:    Type:                      Microsoft.Network/virtualNetworks/subnets
data:    Provisioning state:        Succeeded
data:    Address prefix:            10.0.1.0/24
info:    network vnet subnet set command OK

network vnet subnet show [options] <resource-group> <vnet-name> <name>

Displays virtual network subnet properties

azure network vnet subnet show -g myresourcegroup --vnet-name newvnet -n subnet1

info:    Executing command network vnet subnet show
+ Looking up the subnet "subnet1"
data:    Id:                        /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft
.Network/virtualNetworks/newvnet/subnets/subnet1
data:    Name:                      subnet1
data:    Type:                      Microsoft.Network/virtualNetworks/subnets
data:    Provisioning state:        Succeeded
data:    Address prefix:            10.0.1.0/24
info:    network vnet subnet show command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-e, --vnet-name <vnet-name>            the name of the virtual network
-n, --name <name>                      the name of the subnet
-s, --subscription <subscription>      the subscription identifier

network vnet subnet delete [options] <resource-group> <vnet-name> <subnet-name>

Removes a subnet from an existing virtual network.

azure network vnet subnet delete -g myresourcegroup --vnet-name newvnet -n subnet1

info:    Executing command network vnet subnet delete
+ Looking up the subnet "subnet1"
Delete subnet "subnet1"? [y/n] y
+ Deleting subnet "subnet1"
info:    network vnet subnet delete command OK

Parameter options:

 -h, --help                             output usage information
 -v, --verbose                          use verbose output
 --json                                 use json output
 -g, --resource-group <resource-group>  the name of the resource group
 -e, --vnet-name <vnet-name>            the name of the virtual network
 -n, --name <name>                      the subnet name
 -s, --subscription <subscription>      the subscription identifier
 -q, --quiet                            quiet mode, do not ask for delete confirmation

Commands to manage load balancers

network lb create [options] <resource-group> <name> <location>

Creates a load balancer set.

azure network lb create -g myresourcegroup -n mylb -l westus

info:    Executing command network lb create
+ Looking up the load balancer "mylb"
+ Creating load balancer "mylb"
+ Looking up the load balancer "mylb"
data:    Id:                           /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/loadBalancers/mylb
data:    Name:                         mylb
data:    Type:                         Microsoft.Network/loadBalancers
data:    Location:                     westus
data:    Provisioning state:           Succeeded
info:    network lb create command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-n, --name <name>                      the name of the load balancer
-l, --location <location>              the location
-t, --tags <tags>                      the list of tags.
 Can be multiple. In the format of "name=value".
 Name is required and value is optional. For example, -t tag1=value1;tag2
-s, --subscription <subscription>      the subscription identifier

network lb list [options] <resource-group>

Lists Load balancer resources within a resource group.

azure network lb list myresourcegroup

info:    Executing command network lb list
+ Getting the load balancers
data:    Name  Location
data:    ----  --------
data:    mylb  westus
info:    network lb list command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-s, --subscription <subscription>      the subscription identifier

network lb show [options] <resource-group> <name>

Displays load balancer information of a specific load balancer within a resource group

azure network lb show myresourcegroup mylb -v

info:    Executing command network lb show
verbose: Looking up the load balancer "mylb"
data:    Id:                           /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/loadBalancers/mylb
data:    Name:                         mylb
data:    Type:                         Microsoft.Network/loadBalancers
data:    Location:                     westus
data:    Provisioning state:           Succeeded
info:    network lb show command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-n, --name <name>                      the name of the load balancer
-s, --subscription <subscription>      the subscription identifier

network lb delete [options] <resource-group> <name>

Delete load balancer resources.

azure network lb delete  myresourcegroup mylb

info:    Executing command network lb delete
+ Looking up the load balancer "mylb"
Delete load balancer "mylb"? [y/n] y
+ Deleting load balancer "mylb"
info:    network lb delete command OK

Parameter options:

 -h, --help                             output usage information
 -v, --verbose                          use verbose output
 --json                                 use json output
 -g, --resource-group <resource-group>  the name of the resource group
 -n, --name <name>                      the name of the load balancer
 -q, --quiet                            quiet mode, do not ask for delete confirmation
 -s, --subscription <subscription>      the subscription identifier

Commands to manage probes of a load balancer

network lb probe create [options] <resource-group> <lb-name> <name>

Create the probe configuration for health status in the load balancer. Keep in mind to run this command, your load balancer requires a frontend-ip resource (Check out command "azure network frontend-ip" to assign an ip address to load balancer).

azure network lb probe create -g myresourcegroup --lb-name mylb -n mylbprobe --protocol tcp --port 80 -i 300

info:    Executing command network lb probe create
+ Looking up the load balancer "mylb"
+ Updating load balancer "mylb"
info:    network lb probe create command OK

Parameter options:

 -h, --help                             output usage information
 -v, --verbose                          use verbose output
 --json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-l, --lb-name <lb-name>                the name of the load balancer
-n, --name <name>                      the name of the probe
-p, --protocol <protocol>              the probe protocol
-o, --port <port>                      the probe port
-f, --path <path>                      the probe path
-i, --interval <interval>              the probe interval in seconds
-c, --count <count>                    the number of probes
-s, --subscription <subscription>      the subscription identifier

network lb probe set [options] <resource-group> <lb-name> <name>

Updates an existing load balancer probe with new values for it.

azure network lb probe set -g myresourcegroup -l mylb -n mylbprobe -p mylbprobe1 -p TCP -o 443 -i 300

info:    Executing command network lb probe set
    + Looking up the load balancer "mylb"
+ Updating load balancer "mylb"
info:    network lb probe set command OK

Parameter options

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-l, --lb-name <lb-name>                the name of the load balancer
-n, --name <name>                      the name of the probe
-e, --new-probe-name <new-probe-name>  the new name of the probe
-p, --protocol <protocol>              the new value for probe protocol
-o, --port <port>                      the new value for probe port
-f, --path <path>                      the new value for probe path
-i, --interval <interval>              the new value for probe interval in seconds
-c, --count <count>                    the new value for number of probes
-s, --subscription <subscription>      the subscription identifier

network lb probe list [options] <resource-group> <lb-name>

List the probe properties for a load balancer set.

C:\>azure network lb probe list -g myresourcegroup -l mylb

info:    Executing command network lb probe list
+ Looking up the load balancer "mylb"
data:    Name       Protocol  Port  Path  Interval  Count
data:    ---------  --------  ----  ----  --------  -----
data:    mylbprobe  Tcp       443         300       2
info:    network lb probe list command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-l, --lb-name <lb-name>                the name of the load balancer
-s, --subscription <subscription>      the subscription identifier


network lb probe delete [options] <resource-group> <lb-name> <name>

Removes the probe created for the load balancer.

azure network lb probe delete -g myresourcegroup -l mylb -n mylbprobe

info:    Executing command network lb probe delete
+ Looking up the load balancer "mylb"
Delete a probe "mylbprobe?" [y/n] y
+ Updating load balancer "mylb"
info:    network lb probe delete command OK

Commands to manage frontend ip configurations of a load balancer

network lb frontend-ip create [options] <resource-group> <lb-name> <name>

Creates a frontend IP configuration to an existing load balancer set.

azure network lb frontend-ip create -g myresourcegroup --lb-name mylb -n myfrontendip -o Dynamic -e subnet -m newvnet

info:    Executing command network lb frontend-ip create
+ Looking up the load balancer "mylb"
+ Looking up the subnet "subnet"
+ Creating frontend IP configuration "myfrontendip"
+ Looking up the load balancer "mylb"
data:    Id:                           /subscriptions/###############################/resourceGroups/Myresourcegroup/providers/Microsoft.Network/loadBalancers/mylb
/frontendIPConfigurations/myfrontendip
data:    Name:                         myfrontendip
data:    Type:                         Microsoft.Network/loadBalancers/frontendIPConfigurations
data:    Provisioning state:           Succeeded
data:    Private IP allocation method: Dynamic
data:    Private IP address:           10.0.1.4
data:    Subnet:                       id=/subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/virtualNetworks/newvnet/subnets/subnet
data:    Public IP address:
data:    Inbound NAT rules
data:    Outbound NAT rules
data:    Load balancing rules
data:
info:    network lb frontend-ip create command OK

network lb frontend-ip set [options] <resource-group> <lb-name> <name>

Updates an existing configuration of a frontend IP.The command below adds a public IP called mypubip5 to an existing load balancer frontend IP named myfrontendip.

azure network lb frontend-ip set -g myresourcegroup --lb-name mylb -n myfrontendip -i mypubip5

info:    Executing command network lb frontend-ip set
+ Looking up the load balancer "mylb"
+ Looking up the public ip "mypubip5"
+ Updating load balancer "mylb"
+ Looking up the load balancer "mylb"
data:    Id:                           /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/loadBalancers/mylb/frontendIPConfigurations/myfrontendip
data:    Name:                         myfrontendip
data:    Type:                         Microsoft.Network/loadBalancers/frontendIPConfigurations
data:    Provisioning state:           Succeeded
data:    Private IP allocation method: Dynamic
data:    Private IP address:
data:    Subnet:
data:    Public IP address:            id=/subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/publicIPAddresses/mypubip5
data:    Inbound NAT rules
data:    Outbound NAT rules
data:    Load balancing rules
data:
info:    network lb frontend-ip set command OK

Parameter options:

-h, --help                                                         output usage information
-v, --verbose                                                      use verbose output
--json                                                             use json output
-g, --resource-group <resource-group>                              the name of the resource group
-l, --lb-name <lb-name>                                            the name of the load balancer
-n, --name <name>                                                  the name of the frontend ip configuration
-a, --private-ip-address <private-ip-address>                      the private ip address
-o, --private-ip-allocation-method <private-ip-allocation-method>  the private ip allocation method [Static, Dynamic]
-u, --public-ip-id <public-ip-id>                                  the public ip identifier.
e.g. /subscriptions/<subscription-id>/resourceGroups/<resource-group-name>/providers/Microsoft.Network/publicIPAddresses/<public-ip-name>
-i, --public-ip-name <public-ip-name>                              the public ip name.
This public ip must exist in the same resource group as the lb.
Please use public-ip-id if that is not the case.
-b, --subnet-id <subnet-id>                                        the subnet id.
e.g. /subscriptions/<subscription-id>/resourceGroups/<resource-group-name>/providers/Microsoft.Network/VirtualNetworks/<vnet-name>/subnets/<subnet-name>
-e, --subnet-name <subnet-name>                                    the subnet name
-m, --vnet-name <vnet-name>                                        the virtual network name.
This virtual network must exist in the same resource group as the lb.
Please use subnet-id if that is not the case.
-s, --subscription <subscription>                                  the subscription identifier

network lb frontend-ip list [options] <resource-group> <lb-name>

Lists all the frontend IP resources configured for the load balancer.

azure network lb frontend-ip list -g myresourcegroup -l mylb

info:    Executing command network lb frontend-ip list
+ Looking up the load balancer "mylb"
data:    Name         Provisioning state  Private IP allocation method  Subnet
data:    -----------  ------------------  ----------------------------  ------
data:    myprivateip  Succeeded           Dynamic
info:    network lb frontend-ip list command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-l, --lb-name <lb-name>                the name of the load balancer
-s, --subscription <subscription>      the subscription identifier

network lb frontend-ip delete [options] <resource-group> <lb-name> <name>

Deletes the frontend IP object associated to load balancer

network lb frontend-ip delete -g myresourcegroup -l mylb -n myfrontendip
info:    Executing command network lb frontend-ip delete
+ Looking up the load balancer "mylb"
Delete frontend ip configuration "myfrontendip"? [y/n] y
+ Updating load balancer "mylb"

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-l, --lb-name <lb-name>                the name of the load balancer
-n, --name <name>                      the name of the frontend ip configuration
-q, --quiet                            quiet mode, do not ask for delete confirmation
-s, --subscription <subscription>      the subscription identifier

Commands to manage backend address pools of a load balancer

network lb address-pool create [options] <resource-group> <lb-name> <name>

Create a backend address pool for a load balancer.

azure network lb address-pool create -g myresourcegroup --lb-name mylb -n myaddresspool

info:    Executing command network lb address-pool create
+ Looking up the load balancer "mylb"
+ Updating load balancer "mylb"
+ Looking up the load balancer "mylb"
data:    Id:                        /subscriptions/###############################/resourceGroups/myresourgroup/providers/Microso.Network/loadBalancers/mylb/backendAddressPools/myaddresspool
data:    Name:                      myaddresspool
data:    Type:                      Microsoft.Network/loadBalancers/backendAddressPools
data:    Provisioning state:        Succeeded
data:    Backend IP configurations:
data:    Load balancing rules:
data:
info:    network lb address-pool create command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-l, --lb-name <lb-name>                the name of the load balancer
-n, --name <name>                      the name of the backend address pool
-s, --subscription <subscription>      the subscription identifier

network lb address-pool list [options] <resource-group> <lb-name>

List backend IP address pool range for a specific resource group

azure network lb address-pool list -g myresourcegroup -l mylb

info:    Executing command network lb address-pool list
+ Looking up the load balancer "mylb"
data:    Name           Provisioning state
data:    -------------  ------------------
data:    mybackendpool  Succeeded
info:    network lb address-pool list command OK

Parameter options:

 -h, --help                             output usage information
 -v, --verbose                          use verbose output
 --json                                 use json output
 -g, --resource-group <resource-group>  the name of the resource group
 -l, --lb-name <lb-name>                the name of the load balancer
 -s, --subscription <subscription>      the subscription identifier

network lb address-pool delete [options] <resource-group> <lb-name> <name>

Removes the backend IP pool range resource from load balancer.

azure network lb address-pool delete -g myresourcegroup -l mylb -n mybackendpool

info:    Executing command network lb address-pool delete
+ Looking up the load balancer "mylb"
Delete backend address pool "mybackendpool"? [y/n] y
+ Updating load balancer "mylb"
info:    network lb address-pool delete command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-l, --lb-name <lb-name>                the name of the load balancer
-n, --name <name>                      the name of the backend address pool
-q, --quiet                            quiet mode, do not ask for delete confirmation
-s, --subscription <subscription>      the subscription identifier

Commands to manage load balancer rules

network lb rule create [options] <resource-group> <lb-name> <name>

Create load balancer rules.

You can create a load balancer rule configuring the frontend endpoint for the load balancer and the backend address pool range to receive the incoming network traffic. Settings also include the ports for frontend IP endpoint and ports for the backend address pool range.

The following example shows how to create a load balancer rule, the frontend endpoint listening to port 80 TCP and load balancing network traffic sending to port 8080 for the backend address pool range.

azure network lb rule create -g myresourcegroup -l mylb -n mylbrule -p tcp -f 80 -b 8080 -i 10


info:    Executing command network lb rule create
+ Looking up the load balancer "mylb"
+ Updating load balancer "mylb"
+ Loading rule state
data:    Id:                        /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/loadBalancers/mylb/loadBalancingRules/mylbrule
data:    Name:                      mylbrule
data:    Type:                      Microsoft.Network/loadBalancers/loadBalancingRules
data:    Provisioning state:        Succeeded
data:    Frontend IP configuration: /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/loadBalancers/mylb/frontendIPConfigurations/myfrontendip
data:    Backend address pool:      id=/subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/loadBalancers/mylb/backendAddressPools/mybackendpool
data:    Protocol:                  Tcp
data:    Frontend port:             80
data:    Backend port:              8080
data:    Enable floating IP:        false
data:    Idle timeout in minutes:   10
data:    Probes
data:
info:    network lb rule create command OK

network lb rule set [options] <resource-group> <lb-name> <name>

Updates an existing load balancer rule set in a specific resource group. In the following example, we changed the rule name from mylbrule to mynewlbrule.

azure network lb rule set -g myresourcegroup -l mylb -n mylbrule -r mynewlbrule -p tcp -f 80 -b 8080 -i 10 -t myfrontendip -o mybackendpool

info:    Executing command network lb rule set
+ Looking up the load balancer "mylb"
+ Updating load balancer "mylb"
+ Loading rule state
data:    Id:                        /subscriptions/###############################/resourceGroups/yresourcegroup/providers/Microsoft.Network/loadBalancers/mylb/loadBalancingRules/mynewlbrule
data:    Name:                      mynewlbrule
data:    Type:                      Microsoft.Network/loadBalancers/loadBalancingRules
data:    Provisioning state:        Succeeded
data:    Frontend IP configuration: /subscriptions/###############################/resourceGroups/yresourcegroup/providers/Microsoft.Network/loadBalancers/mylb/frontendIPConfigurations/myfrontendip
data:    Backend address pool:      id=/subscriptions/###############################/resourceGroups/yresourcegroup/providers/Microsoft.Network/loadBalancers/mylb/backendAddressPools/mybackendpool
data:    Protocol:                  Tcp
data:    Frontend port:             80
data:    Backend port:              8080
data:    Enable floating IP:        false
data:    Idle timeout in minutes:   10
data:    Probes
data:
info:    network lb rule set command OK

Parameter options:

-h, --help                                         output usage information
-v, --verbose                                      use verbose output
--json                                             use json output
-g, --resource-group <resource-group>              the name of the resource group
-l, --lb-name <lb-name>                            the name of the load balancer
-n, --name <name>                                  the name of the rule
-r, --new-rule-name <new-rule-name>                new rule name
-p, --protocol <protocol>                          the rule protocol
-f, --frontend-port <frontend-port>                the frontend port
-b, --backend-port <backend-port>                  the backend port
-e, --enable-floating-ip <enable-floating-ip>      enable floating point ip
-i, --idle-timeout <idle-timeout>                  the idle timeout in minutes
-a, --probe-name [probe-name]                      the name of the probe defined in the same load balancer
-t, --frontend-ip-name <frontend-ip-name>          the name of the frontend ip configuration in the same load balancer
-o, --backend-address-pool <backend-address-pool>  name of the backend address pool defined in the same load balancer
-s, --subscription <subscription>                  the subscription identifier


network lb rule list [options] <resource-group> <lb-name>

Lists all load balancer rules configured for a load balancer in a specific resource group.

azure network lb rule list -g myresourcegroup -l mylb

info:    Executing command network lb rule list
+ Looking up the load balancer "mylb"
data:    Name         Provisioning state  Protocol  Frontend port  Backend port  Enable floating IP  Idle timeout in minutes  Backend address pool  Probe data

data:    mynewlbrule  Succeeded           Tcp       80             8080          false               10                       /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/loadBalancers/mylb/backendAddressPools/mybackendpool
info:    network lb rule list command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-l, --lb-name <lb-name>                the name of the load balancer
-s, --subscription <subscription>      the subscription identifier

network lb rule delete [options] <resource-group> <lb-name> <name>

Deletes a load balancer rule.

azure network lb rule delete -g myresourcegroup -l mylb -n mynewlbrule

info:    Executing command network lb rule delete
+ Looking up the load balancer "mylb"
Delete load balancing rule mynewlbrule? [y/n] y
+ Updating load balancer "mylb"
info:    network lb rule delete command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-l, --lb-name <lb-name>                the name of the load balancer
-n, --name <name>                      the name of the rule
-q, --quiet                            quiet mode, do not ask for delete confirmation
-s, --subscription <subscription>      the subscription identifier

Commands to manage load balancer inbound NAT rules

network lb inbound-nat-rule create [options] <resource-group> <lb-name> <name>

Creates an inbound NAT rule for load balancer.

In the following example we created a NAT rule from frontend IP (which was previously defined using the "azure network frontend-ip" command) with an inbound listening port and outbound port that the load balancer uses to send the network traffic.

azure network lb inbound-nat-rule create -g myresourcegroup -l mylb -n myinboundnat -p tcp -f 80 -b 8080 -i myfrontendip

info:    Executing command network lb inbound-nat-rule create
+ Looking up the load balancer "mylb"
+ Updating load balancer "mylb"
+ Looking up the load balancer "mylb"
data:    Id:                        /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/loadBalancers/mylb/inboundNatRules/myinboundnat
data:    Name:                      myinboundnat
data:    Type:                      Microsoft.Network/loadBalancers/inboundNatRules
data:    Provisioning state:        Succeeded
data:    Frontend IP Configuration: id=/subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/loadBalancers/mylb/frontendIPConfigurations/myfrontendip
data:    Backend IP configuration
data:    Protocol                   Tcp
data:    Frontend port              80
data:    Backend port               8080
data:    Enable floating IP         false
info:    network lb inbound-nat-rule create command OK

Parameter options:

-h, --help                                     output usage information
-v, --verbose                                  use verbose output
--json                                         use json output
-g, --resource-group <resource-group>          the name of the resource group
-l, --lb-name <lb-name>                        the name of the load balancer
-n, --name <name>                              the name of the inbound NAT rule
-p, --protocol <protocol>                      the rule protocol [tcp,udp]
-f, --frontend-port <frontend-port>            the frontend port [0-65535]
-b, --backend-port <backend-port>              the backend port [0-65535]
-e, --enable-floating-ip <enable-floating-ip>  enable floating point ip [true,false]
-i, --frontend-ip <frontend-ip>                the name of the frontend ip configuration
-m, --vm-id <vm-id>                            the VM id.
e.g. /subscriptions/<subscription-id>/resourceGroups/<resource-group-name>/providers/Microsoft.Compute/virtualMachines/<vm-name>
-a, --vm-name <vm-name>                        the VM name.This VM must exist in the same resource group as the lb.
Please use vm-id if that is not the case.
this parameter will be ignored if --vm-id is specified
-s, --subscription <subscription>              the subscription identifier

network lb inbound-nat-rule set [options] <resource-group> <lb-name> <name>

Updates an existing inbound nat rule. In the following example, we changed the inbound listening port from 80 to 81.

azure network lb inbound-nat-rule set -g group-1 -l mylb -n myinboundnat -p tcp -f 81 -b 8080 -i myfrontendip

info:    Executing command network lb inbound-nat-rule set
+ Looking up the load balancer "mylb"
+ Updating load balancer "mylb"
+ Looking up the load balancer "mylb"
data:    Id:                        /subscriptions/###############################/resourceGroups/group-1/providers/Microsoft.Network/loadBalancers/mylb/inboundNatRules/myinboundnat
data:    Name:                      myinboundnat
data:    Type:                      Microsoft.Network/loadBalancers/inboundNatRules
data:    Provisioning state:        Succeeded
data:    Frontend IP Configuration: id=/subscriptions/###############################/resourceGroups/group-1/providers/Microsoft.Network/loadBalancers/mylb/frontendIPConfigurations/myfrontendip
data:    Backend IP configuration
data:    Protocol                   Tcp
data:    Frontend port              81
data:    Backend port               8080
data:    Enable floating IP         false
info:    network lb inbound-nat-rule set command OK

Parameter options:

-h, --help                                     output usage information
-v, --verbose                                  use verbose output
--json                                         use json output
-g, --resource-group <resource-group>          the name of the resource group
-l, --lb-name <lb-name>                        the name of the load balancer
-n, --name <name>                              the name of the inbound NAT rule
-p, --protocol <protocol>                      the rule protocol [tcp,udp]
-f, --frontend-port <frontend-port>            the frontend port [0-65535]
-b, --backend-port <backend-port>              the backend port [0-65535]
-e, --enable-floating-ip <enable-floating-ip>  enable floating point ip [true,false]
-i, --frontend-ip <frontend-ip>                the name of the frontend ip configuration
-m, --vm-id [vm-id]                            the VM id.
e.g. /subscriptions/<subscription-id>/resourceGroups/<resource-group-name>/providers/Microsoft.Compute/virtualMachines/<vm-name>
-a, --vm-name <vm-name>                        the VM name.
This virtual machine must exist in the same resource group as the lb.
Please use vm-id if that is not the case
-s, --subscription <subscription>              the subscription identifier

network lb inbound-nat-rule list [options] <resource-group> <lb-name>

Lists all inbound nat rules for load balancer.

azure network lb inbound-nat-rule list -g myresourcegroup -l mylb

info:    Executing command network lb inbound-nat-rule list
+ Looking up the load balancer "mylb"
data:    Name          Provisioning state  Protocol  Frontend port  Backend port  Enable floating IP  Idle timeout in minutes  Backend IP configuration
data:    ------------  ------------------  --------  -------------  ------------  ------------------  -----------------------  ---
---------------------
data:    myinboundnat  Succeeded           Tcp       81             8080          false               4

info:    network lb inbound-nat-rule list command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-l, --lb-name <lb-name>                the name of the load balancer
-s, --subscription <subscription>      the subscription identifier

network lb inbound-nat-rule delete [options] <resource-group> <lb-name> <name>

Deletes NAT rule for the load balancer in a specific resource group.

azure network lb inbound-nat-rule delete -g myresourcegroup -l mylb -n myinboundnat

info:    Executing command network lb inbound-nat-rule delete
+ Looking up the load balancer "mylb"
Delete inbound NAT rule "myinboundnat?" [y/n] y
+ Updating load balancer "mylb"
info:    network lb inbound-nat-rule delete command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-l, --lb-name <lb-name>                the name of the load balancer
-n, --name <name>                      the name of the inbound NAT rule
-q, --quiet                            quiet mode, do not ask for delete confirmation
-s, --subscription <subscription>      the subscription identifier

Commands to manage public ip addresses

network public-ip create [options] <resource-group> <name> <location>

Creates a public ip resource. You will create the public ip resource and associate to a domain name.

azure network public-ip create -g myresourcegroup -n mytestpublicip1 -l eastus -d azureclitest -a "Dynamic"
info:    Executing command network public-ip create
+ Looking up the public ip "mytestpublicip1"
+ Creating public ip address "mytestpublicip1"
+ Looking up the public ip "mytestpublicip1"
data:    Id:                   /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/publicIPAddresses/mytestpublicip1
data:    Name:                 mytestpublicip1
data:    Type:                 Microsoft.Network/publicIPAddresses
data:    Location:             eastus
data:    Provisioning state:   Succeeded
data:    Allocation method:    Dynamic
data:    Idle timeout:         4
data:    Domain name label:    azureclitest
data:    FQDN:                 azureclitest.eastus.cloudapp.azure.com
info:    network public-ip create command OK

Parameter options:

-h, --help                                   output usage information
-v, --verbose                                use verbose output
--json                                       use json output
-g, --resource-group <resource-group>        the name of the resource group
-n, --name <name>                            the name of the public ip
-l, --location <location>                    the location
-d, --domain-name-label <domain-name-label>  the domain name label.
This set DNS to <domain-name-label>.<location>.cloudapp.azure.com
-a, --allocation-method <allocation-method>  the allocation method [Static][Dynamic]
-i, --idletimeout <idletimeout>              the idle timeout in minutes
-f, --reverse-fqdn <reverse-fqdn>            the reverse fqdn
-t, --tags <tags>                            the list of tags.
Can be multiple. In the format of "name=value".
Name is required and value is optional.
For example, -t tag1=value1;tag2
-s, --subscription <subscription>            the subscription identifier

network public-ip set [options] <resource-group> <name>

Updates the properties of an existing public ip resource. In the following example we changed the public IP address from Dynamic to Static.

azure network public-ip set -g group-1 -n mytestpublicip1 -d azureclitest -a "Static"
info:    Executing command network public-ip set
+ Looking up the public ip "mytestpublicip1"
+ Updating public ip address "mytestpublicip1"
+ Looking up the public ip "mytestpublicip1"
data:    Id:                   /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/publicIPAddresses/mytestpublicip1
data:    Name:                 mytestpublicip1
data:    Type:                 Microsoft.Network/publicIPAddresses
data:    Location:             eastus
data:    Provisioning state:   Succeeded
data:    Allocation method:    Static
data:    Idle timeout:         4
data:    IP Address:           (static IP address)
data:    Domain name label:    azureclitest
data:    FQDN:                 azureclitest.eastus.cloudapp.azure.com
info:    network public-ip set command OK

Parameter options:

-h, --help                                   output usage information
-v, --verbose                                use verbose output
--json                                       use json output
-g, --resource-group <resource-group>        the name of the resource group
-n, --name <name>                            the name of the public ip
-d, --domain-name-label [domain-name-label]  the domain name label.
This set DNS to <domain-name-label>.<location>.cloudapp.azure.com
-a, --allocation-method <allocation-method>  the allocation method [Static][Dynamic]
-i, --idletimeout <idletimeout>              the idle timeout in minutes
-f, --reverse-fqdn [reverse-fqdn]            the reverse fqdn
-t, --tags <tags>                            the list of tags.
Can be multiple. In the format of "name=value".
Name is required and value is optional.
For example, -t tag1=value1;tag2
--no-tags                                    remove all existing tags
-s, --subscription <subscription>            the subscription identifier

network public-ip list [options] <resource-group>

Lists all public IP resources within a resource group.

azure network public-ip list -g myresourcegroup

info:    Executing command network public-ip list
+ Getting the public ip addresses
data:    Name             Location  Allocation  IP Address    Idle timeout  DNS Name
data:    ---------------  --------  ----------  ------------  ------------  -------------------------------------------
data:    mypubip5         westus    Dynamic                   4             "domain name".westus.cloudapp.azure.com
data:    myPublicIP       eastus    Dynamic                   4             "domain name".eastus.cloudapp.azure.com
data:    mytestpublicip   eastus    Dynamic                   4             "domain name".eastus.cloudapp.azure.com
data:    mytestpublicip1  eastus   Static (Static IP address) 4             azureclitest.eastus.cloudapp.azure.com

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-s, --subscription <subscription>      the subscription identifier

network public-ip show [options] <resource-group> <name>

Displays public ip properties for a public ip resource within a resource group.

azure network public-ip show -g myresourcegroup -n mytestpublicip

info:    Executing command network public-ip show
+ Looking up the public ip "mytestpublicip1"
data:    Id:                   /subscriptions/###############################/resourceGroups/myresourcegroup/providers/Microsoft.Network/publicIPAddresses/mytestpublicip
data:    Name:                 mytestpublicip
data:    Type:                 Microsoft.Network/publicIPAddresses
data:    Location:             eastus
data:    Provisioning state:   Succeeded
data:    Allocation method:    Static
data:    Idle timeout:         4
data:    IP Address:           (static IP address)
data:    Domain name label:    azureclitest
data:    FQDN:                 azureclitest.eastus.cloudapp.azure.com
info:    network public-ip show command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-n, --name <name>                      the name of the public IP
-s, --subscription <subscription>      the subscription identifier


network public-ip delete [options] <resource-group> <name>

Deletes public ip resource.

azure network public-ip delete -g group-1 -n mypublicipname
info:    Executing command network public-ip delete
+ Looking up the public ip "mypublicipname"
Delete public ip address "mypublicipname"? [y/n] y
+ Deleting public ip address "mypublicipname"
info:    network public-ip delete command OK

Parameter options:

-h, --help                             output usage information
-v, --verbose                          use verbose output
--json                                 use json output
-g, --resource-group <resource-group>  the name of the resource group
-n, --name <name>                      the name of the public IP
-q, --quiet                            quiet mode, do not ask for delete confirmation
-s, --subscription <subscription>      the subscription identifier

Commands to manage network interfaces

network nic create [options] <resource-group> <name> <location>

Creates a resource called network interface (NIC) which can be used for load balancers or associate to a Virtual Machine.

azure network nic create -g myresourcegroup -l eastus -n testnic1 --subnet-name subnet-1 --subnet-vnet-name myvnet

info:    Executing command network nic create
+ Looking up the network interface "testnic1"
+ Looking up the subnet "subnet-1"
+ Creating network interface "testnic1"
+ Looking up the network interface "testnic1"
data:    Id:                     /subscriptions/c4a17ddf-aa84-491c-b6f9-b90d882299f7/resourceGroups/group-1/providers/Microsoft.Network/networkInterfaces/testnic1
data:    Name:                   testnic1
data:    Type:                   Microsoft.Network/networkInterfaces
data:    Location:               eastus
data:    Provisioning state:     Succeeded
data:    IP configurations:
data:       Name:                         NIC-config
data:       Provisioning state:           Succeeded
data:       Private IP address:           10.0.0.5
data:       Private IP Allocation Method: Dynamic
data:       Subnet:                       /subscriptions/c4a17ddf-aa84-491c-b6f9-b90d882299f7/resourceGroups/group-1/providers/Microsoft.Network/virtualNetworks/myVNET/subnets/Subnet-1

Parameter options:

-h, --help                                                       output usage information
-v, --verbose                                                    use verbose output
--json                                                           use json output
-g, --resource-group <resource-group>                            the name of the resource group
-n, --name <name>                                                the name of the network interface
-l, --location <location>                                        the location
-w, --network-security-group-id <network-security-group-id>      the network security group identifier.
e.g. /subscriptions/<subscription-id>/resourceGroups/<resource-group-name>/providers/Microsoft.Network/networkSecurityGroups/<nsg-name>
-o, --network-security-group-name <network-security-group-name>  the network security group name.
This network security group must exist in the same resource group as the nic.
Please use network-security-group-id if that is not the case.
-i, --public-ip-id <public-ip-id>                                the public IP identifier.
e.g. /subscriptions/<subscription-id>/resourceGroups/<resource-group-name>/providers/Microsoft.Network/publicIPAddresses/<public-ip-name>
-p, --public-ip-name <public-ip-name>                            the public IP name.
This public ip must exist in the same resource group as the nic.
Please use public-ip-id if that is not the case.
-a, --private-ip-address <private-ip-address>                    the private IP address
-u, --subnet-id <subnet-id>                                      the subnet identifier.
e.g. /subscriptions/<subscription-id>/resourceGroups/<resource-group-name>/providers/Microsoft.Network/virtualNetworks/<vnet-name>/subnets/<subnet-name>
--subnet-name <subnet-name>                                  the subnet name
-m, --subnet-vnet-name <subnet-vnet-name>                        the vnet name under which subnet-name exists
-t, --tags <tags>                                                the comma separated list of tags.
Can be multiple. In the format of "name=value".
Name is required and value is optional.
For example, -t tag1=value1;tag2
-s, --subscription <subscription>                                the subscription identifier
data:
info:    network nic create command OK

network nic set [options] <resource-group> <name>

network nic list [options] <resource-group>
network nic show [options] <resource-group> <name>
network nic delete [options] <resource-group> <name>

Commands to manage network security groups

network nsg create [options] <resource-group> <name> <location>
network nsg set [options] <resource-group> <name>
network nsg list [options] <resource-group>
network nsg show [options] <resource-group> <name>
network nsg delete [options] <resource-group> <name>

Commands to manage network security group rules

network nsg rule create [options] <resource-group> <nsg-name> <name>
network nsg rule set [options] <resource-group> <nsg-name> <name>
network nsg rule list [options] <resource-group> <nsg-name>
network nsg rule show [options] <resource-group> <nsg-name> <name>
network nsg rule delete [options] <resource-group> <nsg-name> <name>

Commands to manage traffic manager profile

network traffic-manager profile create [options] <resource-group> <name>
network traffic-manager profile set [options] <resource-group> <name>
network traffic-manager profile list [options] <resource-group>
network traffic-manager profile show [options] <resource-group> <name>
network traffic-manager profile delete [options] <resource-group> <name>
network traffic-manager profile is-dns-available [options] <resource-group> <relative-dns-name>

Commands to manage traffic manager endpoints

network traffic-manager profile endpoint create [options] <resource-group> <profile-name> <name> <endpoint-location>
network traffic-manager profile endpoint set [options] <resource-group> <profile-name> <name>
network traffic-manager profile endpoint delete [options] <resource-group> <profile-name> <name>

Commands to manage virtual network gateways

network gateway list [options] <resource-group>

Resource provider registrations

List currently registered providers in Resource Manager

provider list [options]

Show details about the requested provider namespace

provider show [options] <namespace>

Register provider with the subscription

provider register [options] <namespace>

Unregister provider with the subscription

provider unregister [options] <namespace>

Resources

Creates a resource in a resource group

resource create [options] <resource-group> <name> <resource-type> <location> <api-version>

Updates a resource in a resource group without any templates or parameters

resource set [options] <resource-group> <name> <resource-type> <properties> <api-version>

Lists the resources

resource list [options] [resource-group]

Gets one resource within a resource group or subscription

resource show [options] <resource-group> <name> <resource-type> <api-version>

Deletes a resource in a resource group

resource delete [options] <resource-group> <name> <resource-type> <api-version>

Azure roles

Get all available role definitions

role list [options]

Get an available role definition

role show [options] [name]

Commands to manage your role assignment

role assignment create [options] [objectId] [upn] [mail] [spn] [role] [scope] [resource-group] [resource-type] [resource-name]
role assignment list [options] [objectId] [upn] [mail] [spn] [role] [scope] [resource-group] [resource-type] [resource-name]
role assignment delete [options] [objectId] [upn] [mail] [spn] [role] [scope] [resource-group] [resource-type] [resource-name]

Storage objects

Commands to manage your Storage accounts

storage account list [options]
storage account show [options] <name>
storage account create [options] <name>
storage account set [options] <name>
storage account delete [options] <name>

Commands to manage your Storage account keys

storage account keys list [options] <name>
storage account keys renew [options] <name>

Commands to show your Storage connection string

storage account connectionstring show [options] <name>

Commands to manage your Storage containers

storage container list [options] [prefix]
storage container show [options] [container]
storage container create [options] [container]
storage container delete [options] [container]
storage container set [options] [container]

Commands to manage shared access signatures of your Storage container

storage container sas create [options] [container] [permissions] [expiry]

Commands to manage stored access policies of your Storage container

storage container policy create [options] [container] [name]
storage container policy show [options] [container] [name]
storage container policy list [options] [container]
storage container policy set [options] [container] [name]
storage container policy delete [options] [container] [name]

Commands to manage your Storage blobs

storage blob list [options] [container] [prefix]
storage blob show [options] [container] [blob]
storage blob delete [options] [container] [blob]
storage blob upload [options] [file] [container] [blob]
storage blob download [options] [container] [blob] [destination]

Commands to manage your blob copy operations

storage blob copy start [options] [sourceUri] [destContainer]
storage blob copy show [options] [container] [blob]
storage blob copy stop [options] [container] [blob] [copyid]

Commands to manage shared access signature of your Storage blob

storage blob sas create [options] [container] [blob] [permissions] [expiry]

Commands to manage your Storage file shares

storage share create [options] [share]
storage share show [options] [share]
storage share delete [options] [share]
storage share list [options] [prefix]

Commands to manage your Storage files

storage file list [options] [share] [path]
storage file delete [options] [share] [path]
storage file upload [options] [source] [share] [path]
storage file download [options] [share] [path] [destination]

Commands to manage your Storage file directory

storage directory create [options] [share] [path]
storage directory delete [options] [share] [path]

Commands to manage your Storage queues

storage queue create [options] [queue]
storage queue list [options] [prefix]
storage queue show [options] [queue]
storage queue delete [options] [queue]

Commands to manage shared access signatures of your Storage queue

storage queue sas create [options] [queue] [permissions] [expiry]

Commands to manage stored access policies of your Storage queue

storage queue policy create [options] [queue] [name]
storage queue policy show [options] [queue] [name]
storage queue policy list [options] [queue]
storage queue policy set [options] [queue] [name]
storage queue policy delete [options] [queue] [name]

Commands to manage your Storage logging properties

storage logging show [options]
storage logging set [options]

Commands to manage your Storage metrics properties

storage metrics show [options]
storage metrics set [options]

Commands to manage your Storage tables

storage table create [options] [table]
storage table list [options] [prefix]
storage table show [options] [table]
storage table delete [options] [table]

Commands to manage shared access signatures of your Storage table

storage table sas create [options] [table] [permissions] [expiry]

Commands to manage stored access policies of your Storage table

storage table policy create [options] [table] [name]
storage table policy show [options] [table] [name]
storage table policy list [options] [table]
storage table policy set [options] [table] [name]
storage table policy delete [options] [table] [name]

Tags

Add a tag

tag create [options] <name> <value>

Remove an entire tag or a tag value

tag delete [options] <name> <value>

Lists the tag information

tag list [options]

Get a tag

tag show [options] [name]

Virtual Machines

Create a VM

vm create [options] <resource-group> <name> <location> <os-type>

Create a VM with default resources

vm quick-create [options] <resource-group> <name> <location> <os-type> <image-urn> <admin-username> <admin-password

Tip

Starting with CLI version 0.10, you can provide a short alias such as "UbuntuLTS" or "Win2012R2Datacenter" as the image-urn for some popular Marketplace images. Run azure help vm quick-create for options. Additionally, starting with version 0.10, azure vm quick-create uses premium storage by default if it's available in the selected region.

List the virtual machines within an account

vm list [options]

Get one virtual machine within a resource group

vm show [options] <resource-group> <name>

Delete one virtual machine within a resource group

vm delete [options] <resource-group> <name>

Shutdown one virtual machine within a resource group

vm stop [options] <resource-group> <name>

Restart one virtual machine within a resource group

vm restart [options] <resource-group> <name>

Start one virtual machine within a resource group

vm start [options] <resource-group> <name>

Shutdown one virtual machine within a resource group and releases the compute resources

vm deallocate [options] <resource-group> <name>

List available virtual machine sizes

vm sizes [options]

Capture the VM as OS Image or VM Image

vm capture [options] <resource-group> <name> <vhd-name-prefix>

Set the state of the VM to Generalized

vm generalize [options] <resource-group> <name>

Get instance view of the VM

vm get-instance-view [options] <resource-group> <name>

Enable you to reset Remote Desktop Access or SSH settings on a Virtual Machine and to reset the password for the account that has administrator or sudo authority

vm reset-access [options] <resource-group> <name>

Update VM with new data

vm set [options] <resource-group> <name>

Commands to manage your Virtual Machine data disks

vm disk attach-new [options] <resource-group> <vm-name> <size-in-gb> [vhd-name]
vm disk detach [options] <resource-group> <vm-name> <lun>
vm disk attach [options] <resource-group> <vm-name> [vhd-url]

Commands to manage VM resource extensions

vm extension set [options] <resource-group> <vm-name> <name> <publisher-name> <version>
vm extension get [options] <resource-group> <vm-name>

Commands to manage your Docker Virtual Machine

vm docker create [options] <resource-group> <name> <location> <os-type>

Commands to manage VM images

vm image list-publishers [options] <location>
vm image list-offers [options] <location> <publisher>
vm image list-skus [options] <location> <publisher> <offer>
vm image list [options] <location> <publisher> [offer] [sku]