SAPAzurePowerShellModules.psm1
$SupportedAzureVMExtensions = @( [pscustomobject]@{Name="MonitorX64Linux";Publisher="Microsoft.AzureCAT.AzureEnhancedMonitoring";VirtualMachineExtensionType="MonitorX64Linux"}, [pscustomobject]@{Name="MonitorX64Windows";Publisher="Microsoft.AzureCAT.AzureEnhancedMonitoring";VirtualMachineExtensionType="MonitorX64Windows"} ) function Write-WithTime { [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string]$Message, [string]$Level = "INFO", $Colour = "NONE", [switch] $AddNewEmptyLine ) BEGIN{} PROCESS{ try{ #$DateAndTime = Get-Date -Format g $DateAndTime = (Get-Date).ToString() $FormatedMessage = "[$DateAndTime] [$Level] $Message" if($Colour -eq "NONE"){ Write-Host $FormatedMessage }elseif ($Colour -eq "Green"){ Write-Host $FormatedMessage -ForegroundColor Green } if($AddNewEmptyLine){ Write-Host } } catch{ Write-Error $_.Exception.Message } } END {} } function Write-WithTime_Using_WriteHost { <# .SYNOPSIS Formats messages includign the time stamp. .DESCRIPTION Formats messages includign the time stamp. .PARAMETER Message Specify the the text Message. .PARAMETER Level Specifiy severity level. Deafult is "Info". Optional parameter. .PARAMETER Colour Specifiy Colour of message. Deafult is "NONE". Optional parameter. .EXAMPLE $VMName = "myVM" Write-WithTime "Virtual Machine '$VMName' is alreaday running." #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$Message, [string] $Level = "INFO", [switch] $PrependEmptyLine, [switch] $AppendEmptyLine #[switch] $AddNewEmptyLine ) BEGIN {} PROCESS { try { $DateAndTime = Get-Date -Format g $FormatedMessage = "[$DateAndTime] [$Level] $Message" if($PrependEmptyLine){ Write-Host } # switch ($Level) { # "INFO" { Write-Information -MessageData $FormatedMessage -InformationAction Continue } # "WARNING" { Write-Warning -Message $FormatedMessage } # "ERROR" { Write-Error -Message $FormatedMessage } "INFO" { Write-Host $FormatedMessage } "WARN" { Write-Host $FormatedMessage -ForegroundColor Yellow} "ERROR" { Write-Host $FormatedMessage -ForegroundColor Red} Default {} } if($AppendEmptyLine){ write-host } } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzVMManagedDisksType { <# .SYNOPSIS List the disk and disk types attached to the VM. .DESCRIPTION List the disk and disk types attached to the VM. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .EXAMPLE # List all disk with disk type of the VM 'PR1-DB' in Azure resource group 'SAP-PR1-RG' . $ResourceGroupName = "SAP-PR1-RG" $VirtualMachineName = "PR1-DB" Get-AzVMManagedDisksType -ResourceGroupName $ResourceGroupName -VMName $VirtualMachineName #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName ) BEGIN {} PROCESS { try { $obj = New-Object -TypeName psobject $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName $OSDisk = $VM.StorageProfile.OsDisk $OSDiskName = $OSDisk.Name $OSDiskAllProperties = Get-AzDisk -ResourceGroupName $ResourceGroupName -DiskName $OSDiskName $OSDiskType = $OSDiskAllProperties.Sku.Name $obj | add-member -NotePropertyName "DiskName" -NotePropertyValue $OSDiskName $obj | add-member -NotePropertyName "DiskType" -NotePropertyValue $OSDiskType $obj | add-member -NotePropertyName "DiskRole" -NotePropertyValue "OSDisk" Write-Output $obj $DataDisks = $VM.StorageProfile.DataDisks $DataDisksNames = $DataDisks.Name foreach ($DataDiskName in $DataDisksNames) { $obj = New-Object -TypeName psobject $DataDiskAllProperties = Get-AzDisk -ResourceGroupName $ResourceGroupName -DiskName $DataDiskName $obj | add-member -NotePropertyName "DiskName" -NotePropertyValue $DataDiskName $obj | add-member -NotePropertyName "DiskType" -NotePropertyValue $DataDiskAllProperties.Sku.Name $obj | add-member -NotePropertyName "DiskRole" -NotePropertyValue "DataDisk" Write-Output $obj } } catch { Write-Error $_.Exception.Message } } END {} } function Start-AzVMTagAndCheckVMStatus { <# .SYNOPSIS Starts the VM(s) with a certain tag. .DESCRIPTION Starts the VM(s) with a certain SAP Instance type tag. The expected types are: - SAP_ASCS - SAP_SCS - SAP_DVEBMGS - DBMS - SAP_D - SAP_J .PARAMETER SAPVMs List of VM resources. This collection is a list of VMs with same 'SAPSID' tag. .PARAMETER SAPInstanceType One of the SAP Instance types: - SAP_ASCS - SAP_SCS - SAP_DVEBMGS - DBMS - SAP_D - SAP_J .EXAMPLE # Get all the VMS with SAPSID tag 'PR1', and start ALL SAP ABAP application servers 'SAP_D' $SAPSID = "PR1" $tags = @{"SAPSystemSID"=$SAPSID} $SAPVMs = Get-AzResource -ResourceType "Microsoft.Compute/virtualMachines" -Tag $tags Start-AzVMTagAndCheckVMStatus -SAPVMs $SAPVMs -SAPInstanceType "SAP_D" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPVMs, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPInstanceType ) BEGIN {} PROCESS { try { $SAPInstanceSpecificVMResources = $SAPVMs | Where-Object { $_.SAPInstanceType -EQ $SAPInstanceType } #Write-Host " " if ($SAPInstanceSpecificVMResources -eq $null) { Switch ($SAPInstanceType) { "SAP_ASCS" { Write-WithTime "No SAP Central Service Instance 'ASCS' VMs found in VMs Tags." } "SAP_SCS" { Write-WithTime "No SAP Central Service Instance 'SCS' Instance VMs found in VMs Tags." } "SAP_DVEBMGS" { Write-WithTime "No SAP ABAP Central Instance 'DVEBMGS' VM found in VMs Tags." } "SAP_DBMS" { Write-WithTime "No SAP DBMS Instance VMs found in VMs Tags." } "SAP_D" { Write-WithTime "No SAP SAP ABAP Application Server 'D' Instance VM found in VMs Tags." } "SAP_J" { Write-WithTime "No SAP Java Application Server Instance 'J' found in VMs Tags." } Default { Write-WithTime "Specified SAP Instance Type '$SAPInstanceType' is not existing." Write-WithTime "Use one of these SAP instance types: 'SAP_ASCS', 'SAP_SCS', 'SAP_DVEBMGS', 'SAP_D', 'SAP_J', 'DBMS'." } } } else { Switch ($SAPInstanceType) { "SAP_ASCS" { Write-WithTime "Starting SAP Central Service Instance 'ASCS' VMs ..." } "SAP_SCS" { Write-WithTime "Starting Central Service Instance 'SCS' Instance VMs ..." } "SAP_DVEBMGS" { Write-WithTime "Starting SAP ABAP Central Instance 'DVEBMGS' VM ..." } "SAP_DBMS" { Write-WithTime "Starting SAP DBMS Instance VMs ..." } "SAP_D" { Write-WithTime "Starting SAP ABAP Application Server Instance 'D' VM ..." } "SAP_J" { Write-WithTime "Starting SAP Java Application Server Instance 'J' VMs ..." } Default { Write-WithTime "Specified SAP Instance Type '$SAPInstanceType' is not existing." Write-WithTime "Use one of these SAP instance types: 'SAP_ASCS', 'SAP_SCS', 'SAP_DVEBMGS', 'SAP_D', 'SAP_J', 'DBMS'." } } } ForEach ($VMResource in $SAPInstanceSpecificVMResources) { $VMName = $VMResource.VMName $ResourceGroupName = $VMResource.ResourceGroupName $VMIsRunning = Test-AzVMIsStarted -ResourceGroupName $ResourceGroupName -VMName $VMName if ($VMIsRunning -eq $False) { # Start VM Write-WithTime "Starting VM '$VMName' in Azure Resource Group '$ResourceGroupName' ..." Start-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName -WarningAction "SilentlyContinue" $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName -Status $VMStatus = $VM.Statuses[1].DisplayStatus Write-WithTime "Virtual Machine '$VMName' status: $VMStatus" Start-Sleep 60 } else { Write-WithTime "Virtual Machine '$VMName' is alreaday running." } } Write-Output " " } catch { Write-Error $_.Exception.Message } } END {} } function Stop-AzVMTagAndCheckVMStatus { <# .SYNOPSIS Stops the VM(s) with a certain tag. .DESCRIPTION Stops the VM(s) with a certain SAP Instance type tag. The expected types are: - SAP_ASCS - SAP_SCS - SAP_DVEBMGS - DBMS - SAP_D - SAP_J .PARAMETER SAPVMs List of VM resources. This collection is a list of VMs with same 'SAPSID' tag. .PARAMETER SAPInstanceType One of the SAP Instance types: - SAP_ASCS - SAP_SCS - SAP_DVEBMGS - DBMS - SAP_D - SAP_J .EXAMPLE # Get all the VMS with SAPSID tag 'PR1', and start ALL SAP ABAP application servers 'SAP_D' $SAPSID = "PR1" $tags = @{"SAPSystemSID"=$SAPSID} $SAPVMs = Get-AzResource -ResourceType "Microsoft.Compute/virtualMachines" -Tag $tags Stop-AzVMTagAndCheckVMStatus -SAPVMs $SAPVMs -SAPInstanceType "SAP_D" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPVMs, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPInstanceType ) BEGIN {} PROCESS { try { $SAPInstanceSpecificVMResources = $SAPVMs | Where-Object { $_.SAPInstanceType -EQ $SAPInstanceType } if ($SAPInstanceSpecificVMResources -eq $null) { Switch ($SAPInstanceType) { "SAP_ASCS" { Write-WithTime "No SAP Central Service Instance 'ASCS' VMs found in VMs Tags." } "SAP_SCS" { Write-WithTime "No SAP Central Service Instance 'SCS' Instance VMs found in VMs Tags." } "SAP_DVEBMGS" { Write-WithTime "No SAP ABAP Central Instance 'DVEBMGS' VM found in VMs Tags ..." } "SAP_DBMS" { Write-WithTime "No SAP DBMS Instance VMs found in VMs Tags ..." } "SAP_D" { Write-WithTime "No SAP SAP ABAP Application Server 'D' Instance VM found in VMs Tags." } "SAP_J" { Write-WithTime "No SAP Java Application Server Instance 'J' found in VMs Tags." } Default { Write-WithTime "Specified SAP Instance Type '$SAPInstanceType' is not existing." Write-WithTime "Use one of these SAP instance types: 'SAP_ASCS', 'SAP_SCS', 'SAP_DVEBMGS', 'SAP_D', 'SAP_J', 'DBMS'." } } } else { Switch ($SAPInstanceType) { "SAP_ASCS" { Write-WithTime "Stopping SAP Central Service Instance 'ASCS' VMs ..." } "SAP_SCS" { Write-WithTime "Stopping SAP Central Service Instance 'SCS' VMs ..." } "SAP_DVEBMGS" { Write-WithTime "Stopping SAP ABAP Central Instance 'DVEBMG' VM ..." } "SAP_DBMS" { Write-WithTime "Stopping SAP DBMS Instance VMs ..." } "SAP_D" { Write-WithTime "Stopping SAP ABAP Application Server 'D' Instance VMs ..." } "SAP_J" { Write-WithTime "Stopping SAP Java Application Server Instance 'J' VMs ..." } Default { Write-WithTime "Specified SAP Instance Type '$SAPInstanceType' is not existing." Write-WithTime "Use one of these SAP instance types: 'SAP_ASCS', 'SAP_SCS', 'SAP_DVEBMGS', 'SAP_D', 'SAP_J', 'DBMS'." } } } ForEach ($VMResource in $SAPInstanceSpecificVMResources) { $VMName = $VMResource.VMName $ResourceGroupName = $VMResource.ResourceGroupName #$VMIsRunning = Test-AzVMIsStarted -ResourceGroupName $ResourceGroupName -VMName $VMName #if ($VMIsRunning -eq $False) { # Stop VM Write-WithTime "Stopping VM '$VMName' in Azure Resource Group '$ResourceGroupName' ..." Stop-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName -WarningAction "SilentlyContinue" -Force $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName -Status $VMStatus = $VM.Statuses[1].DisplayStatus #Write-Host "" Write-WithTime "Virtual Machine '$VMName' status: $VMStatus" #} #else { #Write-WithTime "Virtual Machine '$VMName' is alreaday running." #} } #Write-Host " " } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzSAPInstances { <# .SYNOPSIS Get ALL VMs with same SAPSID tag. .DESCRIPTION Get ALL VMs with same SAPSID tag. For each VM it will display: - SAPSID - Azure Resource Group Name - VM Name - SAP Instance Type - OS type .PARAMETER SAPSID SAP system SID. .EXAMPLE # specify SAP SID 'PR1' $SAPSID = "PR1" # Collect SAP VM instances with the same Tag $SAPInstances = Get-AzSAPInstances -SAPSID $SAPSID # List all collected instances $SAPInstances #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPSID ) BEGIN {} PROCESS { try { $tags = @{"SAPSystemSID" = $SAPSID } $SAPVMs = Get-AzResource -ResourceType "Microsoft.Compute/virtualMachines" -Tag $tags foreach ($VMResource in $SAPVMs) { $obj = New-Object -TypeName psobject $OSType = Get-AzVMOSType -VMName $VMResource.Name -ResourceGroupName $VMResource.ResourceGroupName $obj | add-member -NotePropertyName "SAPSID" -NotePropertyValue $SAPSID $obj | add-member -NotePropertyName "ResourceGroupName" -NotePropertyValue $VMResource.ResourceGroupName $obj | add-member -NotePropertyName "VMName" -NotePropertyValue $VMResource.Name $obj | add-member -NotePropertyName "SAPInstanceType" -NotePropertyValue $VMResource.Tags.Item("SAPInstanceType") $obj | add-member -NotePropertyName "OSType" -NotePropertyValue $OSType #Return formated object Write-Output $obj } } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzSAPApplicationInstances { <# .SYNOPSIS Get ALL VMs with same SAPSID tag, that runs applictaion layer. .DESCRIPTION Get ALL VMs with same SAPSID tag, that runs applictaion layer. For each VM it will display: - SAPSID - Azure Resource Group Name - VM Name - SAP Instance Type - OS type .PARAMETER SAPSID SAP system SID. .EXAMPLE # specify SAP SID 'PR1' $SAPSID = "PR1" # Collect SAP VM instances with the same Tag $SAPInstances = Get-AzSAPApplicationInstances -SAPSID $SAPSID # List all collected instances $SAPInstances #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPSID ) BEGIN {} PROCESS { try { $tags = @{"SAPSystemSID" = $SAPSID } $SAPVMs = Get-AzResource -ResourceType "Microsoft.Compute/virtualMachines" -Tag $tags $SAPApplicationInstances = $SAPVMs | Where-Object { ($_.Tags.Item("SAPApplicationInstanceType") -EQ 'SAP_D') -or ($_.Tags.Item("SAPApplicationInstanceType") -EQ 'SAP_ASCS') -or ($_.Tags.Item("SAPApplicationInstanceType") -EQ 'SAP_SCS') -or ($_.Tags.Item("SAPApplicationInstanceType") -EQ 'SAP_DVEBMGS') } foreach ($VMResource in $SAPApplicationInstances) { $obj = New-Object -TypeName psobject $OSType = Get-AzVMOSType -VMName $VMResource.Name -ResourceGroupName $VMResource.ResourceGroupName $obj | add-member -NotePropertyName "SAPSID" -NotePropertyValue $SAPSID $obj | add-member -NotePropertyName "ResourceGroupName" -NotePropertyValue $VMResource.ResourceGroupName $obj | add-member -NotePropertyName "VMName" -NotePropertyValue $VMResource.Name $obj | add-member -NotePropertyName "OSType" -NotePropertyValue $OSType $obj | add-member -NotePropertyName "SAPInstanceType" -NotePropertyValue $VMResource.Tags.Item("SAPApplicationInstanceType") #Return formated object Write-Output $obj } } catch { Write-Error $_.Exception.Message } } END {} } function Test-AzVMIsStarted { <# .SYNOPSIS Checks if VM is started. .DESCRIPTION Checks if VM is started. If VM reachs status 'VM running', it will return $True, otherwise it will return $False .PARAMETER ResourceGroupName VM Azure Resource Group Name. .PARAMETER VMName VM Name. .EXAMPLE Test-AzVMIsStarted -ResourceGroupName "PR1-RG" -VMName "PR1-DB" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName ) BEGIN {} PROCESS { try { $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName -Status $VMStatus = $VMStatus = $VM.Statuses[1].DisplayStatus if ($VMStatus -eq "VM running") { return $True } else { return $False } } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzVMOSType { <# .SYNOPSIS Get-AzVMOSType gets the VM OS type. .DESCRIPTION Get-AzVMOSType gets the VM OS type, as a return value. .PARAMETER ResourceGroupName VM Azure Resource Group Name. .PARAMETER VMName VM Name. .EXAMPLE $OSType = Get-AzVMOSType -ResourceGroupName "PR1-RG" -VMName "PR1-DB" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName ) BEGIN {} PROCESS { try { $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName Write-Output $VM.StorageProfile.OsDisk.OsType } catch { Write-Error $_.Exception.Message } } END {} } # NOT needed anymore function Get-AzSAPHANAParametersFromTags { <# .SYNOPSIS Get SAP HANA parameters from DBMS VM tags. .DESCRIPTION Get SAP HANA parameters from DBMS VM tags. It returns an object with:[SAPHANADBSID;SAPHANAInstanceNumber,SAPHANAResourceGroupName,SAPHANAVMName] .PARAMETER SAPVMs List of SAP VMs. Get all VMs bound by SAPSID with Get-AzSAPInstances .EXAMPLE $SAPSID = "PR1" Get-AzSAPHANAParametersFromTags -SAPSID $SAPSID #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPSID ) BEGIN {} PROCESS { try { $tags = @{"SAPSystemSID" = $SAPSID } $VMResources = Get-AzResource -ResourceType "Microsoft.Compute/virtualMachines" -Tag $tags $HANAVMResource = $VMResources | Where-Object { $_.Tags.Item("SAPInstanceType") -EQ "SAP_DBMS" } $SAPHANADBSID = $HANAVMResource.Tags.Item("SAPHANADBSID") $SAPHANAInstanceNumber = $HANAVMResource.Tags.Item("SAPHANAInstanceNumber") $SAPHANAResourceGroupName = $HANAVMResource.ResourceGroupName $SAPHANAVMName = $HANAVMResource.Name $obj = New-Object -TypeName psobject $obj | add-member -NotePropertyName "SAPHANADBSID" -NotePropertyValue $SAPHANADBSID $obj | add-member -NotePropertyName "SAPHANAInstanceNumber" -NotePropertyValue $SAPHANAInstanceNumber $obj | add-member -NotePropertyName "SAPHANAResourceGroupName" -NotePropertyValue $SAPHANAResourceGroupName $obj | add-member -NotePropertyName "SAPHANAVMName" -NotePropertyValue $SAPHANAVMName Write-Output $obj } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzHANADBStatus { <# .SYNOPSIS Get SAP HANA DB status. .DESCRIPTION Get SAP HANA DB status. .PARAMETER VMName VM name where HANA is installed. .PARAMETER ResourceGroupName Resource Group Name of the HANA VM. .PARAMETER HANADBSID SAP HANA SID .PARAMETER HANAInstanceNumber SAP HANA Instance Number .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE Get-AzHANADBStatus -ResourceGroupName "PR1-RG" -VMName "PR1-DB" -HANADBSID "PR1" -HANAInstanceNumber 0 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True, HelpMessage = "HANA DB SID")] [string] $HANADBSID, [Parameter(Mandatory = $True, HelpMessage = "HANA Instance Number")] [string] $HANAInstanceNumber, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { Write-WithTime "HANA DBMS '$HANADBSID' status:" $SAPSidUser = $HANADBSID.ToLower() + "adm" $SAPSIDUpper = $HANADBSID.ToUpper() $SAPControlPath = "/usr/sap/$SAPSIDUpper/SYS/exe/hdb/sapcontrol" $Command = "su --login $SAPSidUser -c '$SAPControlPath -prot NI_HTTP -nr $HANAInstanceNumber -function GetSystemInstanceList'" if ($PrintExecutionCommand -eq $True) { Write-WithTime "Executing command '$Command' " } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunShellScript -ScriptPath command.txt $ret.Value[0].Message Start-Sleep 5 } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzSQLServerDBStatus { <# .SYNOPSIS Get SQL Server DB status. .DESCRIPTION Get SQL Server DB status. .PARAMETER VMName VM name where SQL Server is installed. .PARAMETER ResourceGroupName Resource Group Name of the SQL Server VM. .PARAMETER DBSIDName SAP Database SID Name .PARAMETER DBInstanceName SQL Server DB Instance Name .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE #Get status of default SQL Server Instance Get-AzSQLServerDBStatus -VMName pr1-db -ResourceGroupName gor-shared-disk-east-us -DBSIDName PR1 -PrintExecutionCommand $true .EXAMPLE #Get status of default SQL Server Instance Get-AzSQLServerDBStatus -VMName pr1-db -ResourceGroupName gor-shared-disk-east-us -DBSIDName PR1 -DBInstanceName PR1 -PrintExecutionCommand $true #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True, HelpMessage = "SQL Server DB SID")] [string] $DBSIDName, [Parameter(Mandatory = $False, HelpMessage = "SQL Server DB Instance Name")] [string] $DBInstanceName = "", [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { Write-WithTime "SQL Server DBMS '$DBSIDName' status:" $Command = "cd 'C:\Program Files\SAP\hostctrl\exe\' ; .\saphostctrl.exe -function GetDatabaseStatus -dbname $DBSIDName -dbtype mss -dbinstance $DBInstanceName" if ($PrintExecutionCommand -eq $True) { Write-WithTime "Executing command '$Command' " } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunPowerShellScript -ScriptPath command.txt $ret.Value[0].Message Start-Sleep 10 } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzDBMSStatus { <# .SYNOPSIS Get DB status. .DESCRIPTION Get DB status. .PARAMETER SAPSID SAP SID. .PARAMETER SAPSIDDBMSVMs Collection of DB VMs .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE $SAPSIDDBMSVMs = Get-AzSAPDBMSInstances -SAPSID "PR2" Get-AzDBMSStatus -SAPSIDDBMSVMs $SAPSIDDBMSVMs #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] $SAPSIDDBMSVMs, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { Switch ($SAPSIDDBMSVMs.SAPDBMSType) { "HANA" { # Get SAP HANA status Get-AzHANADBStatus -ResourceGroupName $SAPSIDDBMSVMs.ResourceGroupName -VMName $SAPSIDDBMSVMs.VMName -HANADBSID $SAPSIDDBMSVMs.SAPHANASID -HANAInstanceNumber $SAPSIDDBMSVMs.SAPHANAInstanceNumber -PrintExecutionCommand $PrintExecutionCommand } "SQLServer" { # Get SQL Server status Get-AzSQLServerDBStatus -ResourceGroupName $SAPSIDDBMSVMs.ResourceGroupName -VMName $SAPSIDDBMSVMs.VMName -DBSIDName $SAPSIDDBMSVMs.SAPSID -DBInstanceName $SAPSIDDBMSVMs.DBInstanceName -PrintExecutionCommand $PrintExecutionCommand } "Sybase" { # Not yet Implemented Write-WithTime "Getting Sybase DBMS status is not yet implenented." } "MaxDB" { # Not yet Implemented Write-WithTime "Getting MaxDB DBMS status is not yet implenented." } "Oracle" { # Not yet Implemented Write-WithTime "Getting Oracle DBMS status is not yet implenented." } "IBMDB2" { # Not yet Implemented Write-WithTime "Getting IBMDB2 DBMS status is not yet implenented." } default { Write-WithTime "Couldn't find any supported DBMS type. Please check on DB VM '$($SAPSIDDBMSVMs.VMName)', Tag 'SAPDBMSType'. It must have value like: 'HANA', 'SQLServer', 'Sybase', 'MaxDB' , 'Oracle', 'IBMDB2'. Current 'SAPDBMSType' Tag value is '$($SAPSIDDBMSVMs.SAPDBMSType)'" } } } catch { Write-Error $_.Exception.Message } } END {} } function Stop-AzHANADB { <# .SYNOPSIS Stop SAP HANA DB. .DESCRIPTION Stop SAP HANA DB. .PARAMETER VMName VM name where HANA is installed. .PARAMETER ResourceGroupName Resource Group Name of the HANA VM. .PARAMETER HANADBSID SAP HANA SID .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE Stop-AzHANADB -ResourceGroupName "PR1-RG" -VMName "PR1-DB" -HANADBSID "PR1" -SAPHANAInstanceNumber 0 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True, HelpMessage = "HANA DB SID")] [string] $HANADBSID, [Parameter(Mandatory=$True, HelpMessage="HANA Instance Number")] [string] $SAPHANAInstanceNumber, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { Write-WithTime "Stopping SAP HANA DBMS '$HANADBSID' ... " $SAPSidUser = $HANADBSID.ToLower() + "adm" $SAPSIDUpper = $HANADBSID.ToUpper() $SAPControlPath = "/usr/sap/$SAPSIDUpper/SYS/exe/hdb/sapcontrol" # HDB wrapper aproach #$Command = "su --login $SAPSidUser -c 'HDB stop'" # Execute stop $Command = "su --login $SAPSidUser -c '$SAPControlPath -prot NI_HTTP -nr $SAPHANAInstanceNumber -function Stop 400'" if ($PrintExecutionCommand -eq $True) { Write-WithTime "Executing command '$Command' " } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunShellScript -ScriptPath command.txt $ret.Value[0].Message Start-Sleep 20 # Wait for 600 sec -deafult value $Command = "su --login $SAPSidUser -c '$SAPControlPath -prot NI_HTTP -nr $SAPHANAInstanceNumber -function WaitforStopped 600 2'" if ($PrintExecutionCommand -eq $True) { Write-WithTime "Executing command '$Command' " } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunShellScript -ScriptPath command.txt $ret.Value[0].Message Start-Sleep 60 Write-WithTime "SAP HANA DB '$HANADBSID' is stopped." } catch { Write-Error $_.Exception.Message } } END {} } function Start-AzHANADB { <# .SYNOPSIS Start SAP HANA DB. .DESCRIPTION Start SAP HANA DB. .PARAMETER VMName VM name where HANA is installed. .PARAMETER ResourceGroupName Resource Group Name of the HANA VM. .PARAMETER SAPHANAInstanceNumber SAP HANA SID .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE Start-AzHANADB -ResourceGroupName "PR1-RG" -VMName "PR1-DB" -HANADBSID "PR1" -SAPHANAInstanceNumber 0 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True, HelpMessage = "HANA DB SID")] [string] $HANADBSID, [Parameter(Mandatory=$True, HelpMessage="HANA Instance Number")] [ValidateLength(1, 2)] [string] $SAPHANAInstanceNumber, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { Write-WithTime "Starting SAP HANA DBMS '$HANADBSID' ... " $SAPSidUser = $HANADBSID.ToLower() + "adm" $SAPSIDUpper = $HANADBSID.ToUpper() $SAPControlPath = "/usr/sap/$SAPSIDUpper/SYS/exe/hdb/sapcontrol" $Command = "su --login $SAPSidUser -c '$SAPControlPath -prot NI_HTTP -nr $SAPHANAInstanceNumber -function StartWait 2700 2'" #$Command = "su --login $SAPSidUser -c 'HDB start'" if ($PrintExecutionCommand -eq $True) { Write-WithTime "Executing command '$Command' " } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunShellScript -ScriptPath command.txt $ret.Value[0].Message Start-Sleep 20 } catch { Write-Error $_.Exception.Message } } END {} } function Start-AzSQLServerDB { <# .SYNOPSIS Start SQL Server DB status. .DESCRIPTION Get SQL Server DB status. .PARAMETER VMName VM name where SQL Server is installed. .PARAMETER ResourceGroupName Resource Group Name of the SQL Server VM. .PARAMETER DBSIDName SAP Database SID Name .PARAMETER DBInstanceName SQL Server DB Instance Name .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE # Start default SQL Server Instance Start-AzSQLServerDB -VMName pr1-db -ResourceGroupName gor-shared-disk-east-us -DBSIDName PR1 -DBInstanceName -PrintExecutionCommand $true .EXAMPLE # Start named SQL Server Instance Start-AzSQLServerDB -VMName pr1-db -ResourceGroupName gor-shared-disk-east-us -DBSIDName PR1 -DBInstanceName PR1 -PrintExecutionCommand $true #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True, HelpMessage = "SQL Server DB SID")] [string] $DBSIDName, [Parameter(Mandatory = $False, HelpMessage = "SQL Server DB Instance Name")] [string] $DBInstanceName = "", [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { Write-WithTime "Starting SQL Server DBMS '$DBSIDName' ..." $Command = "cd 'C:\Program Files\SAP\hostctrl\exe\' ; .\saphostctrl.exe -function StartDatabase -dbname $DBSIDName -dbtype mss -dbinstance $DBInstanceName" if ($PrintExecutionCommand -eq $True) { Write-WithTime "Executing command '$Command' " } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunPowerShellScript -ScriptPath command.txt $ret.Value[0].Message Start-Sleep 10 } catch { Write-Error $_.Exception.Message } } END {} } function Stop-AzSQLServerDB { <# .SYNOPSIS Stop SQL Server DB status. .DESCRIPTION Stop SQL Server DB status. .PARAMETER VMName VM name where SQL Server is installed. .PARAMETER ResourceGroupName Resource Group Name of the SQL Server VM. .PARAMETER DBSIDName SAP Database SID Name .PARAMETER DBInstanceName SQL Server DB Instance Name .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE # Stop default SQL Server Instance Stop-AzSQLServerDB -VMName pr1-db -ResourceGroupName gor-shared-disk-east-us -DBSIDName PR1 -DBInstanceName .EXAMPLE # Stop default SQL Server Instance Stop-AzSQLServerDB -VMName pr1-db -ResourceGroupName gor-shared-disk-east-us -DBSIDName PR1 -DBInstanceName PR1 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True, HelpMessage = "SQL Server DB SID")] [string] $DBSIDName, [Parameter(Mandatory = $False, HelpMessage = "SQL Server DB Instance Name")] [string] $DBInstanceName = "", [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { Write-WithTime "Stopping SQL Server DBMS '$DBSIDName' ... :" $Command = "cd 'C:\Program Files\SAP\hostctrl\exe\' ; .\saphostctrl.exe -function StopDatabase -dbname $DBSIDName -dbtype mss -dbinstance $DBInstanceName" if ($PrintExecutionCommand -eq $True) { Write-WithTime "Executing command '$Command' " } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunPowerShellScript -ScriptPath command.txt $ret.Value[0].Message Start-Sleep 10 } catch { Write-Error $_.Exception.Message } } END {} } function Start-AzDBMS { <# .SYNOPSIS Start DBMS. .DESCRIPTION Start DBMS. .PARAMETER SAPSID SAP SID. .PARAMETER DatabaseType Database Type. Allowed values are: "HANA","SQLServer","MaxDB","Sybase","Oracle","IBMDB2" .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE Start-AzDBMS -SAPSID "PR1" -DatabaseType "HANA" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] $SAPSIDDBMSVMs, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { Switch ($SAPSIDDBMSVMs.SAPDBMSType) { "HANA" { # Start SAP HANA DB Start-AzHANADB -ResourceGroupName $SAPSIDDBMSVMs.ResourceGroupName -VMName $SAPSIDDBMSVMs.VMName -HANADBSID $SAPSIDDBMSVMs.SAPHANASID -SAPHANAInstanceNumber $SAPSIDDBMSVMs.SAPHANAInstanceNumber -PrintExecutionCommand $PrintExecutionCommand } "SQLServer" { # Start SQL Server DB Start-AzSQLServerDB -ResourceGroupName $SAPSIDDBMSVMs.ResourceGroupName -VMName $SAPSIDDBMSVMs.VMName -DBSIDName $SAPSIDDBMSVMs.SAPSID -DBInstanceName $SAPSIDDBMSVMs.DBInstanceName -PrintExecutionCommand $PrintExecutionCommand } "Sybase" { # Not yet Implemented Write-WithTime "Start of SAP Sybase is not yet implemented. Relying on automatic SAP Sybase start." write-output "" Write-WithTime "Waiting for 3 min for DBMS auto start." Start-Sleep 180 } "MaxDB" { # Not yet Implemented Write-WithTime "Start of SAP MaxDB is not yet implemented. Relying on automatic SAP MaxDB start." write-output "" Write-WithTime "Waiting for 3 min for DBMS auto start." Start-Sleep 180 } "Oracle" { # Not yet Implemented Write-WithTime "Start of Oracle is not yet implemented. Relying on automatic Oracle start." write-output "" Write-WithTime "Waiting for 3 min for DBMS auto start." Start-Sleep 180 } "IBMDB2" { # Not yet Implemented Write-WithTime "Start of IBM DB2 is not yet implemented. Relying on automatic IBM DB2 start." write-output "" Write-WithTime "Waiting for 3 min for DBMS autostart." Start-Sleep 180 } } } catch { Write-Error $_.Exception.Message } } END {} } function Stop-AzDBMS { <# .SYNOPSIS Start DBMS. .DESCRIPTION Start DBMS. .PARAMETER SAPSID SAP SID. .PARAMETER DatabaseType Database Type. Allowed values are: "HANA","SQLServer","MaxDB","Sybase","Oracle","IBMDB2" .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE Stop-AzDBMS -SAPSID "PR1" -DatabaseType "HANA" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] $SAPSIDDBMSVMs, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { Switch ($SAPSIDDBMSVMs.SAPDBMSType) { "HANA" { # Stop SAP HANA DBMS Stop-AzHANADB -ResourceGroupName $SAPSIDDBMSVMs.ResourceGroupName -VMName $SAPSIDDBMSVMs.VMName -HANADBSID $SAPSIDDBMSVMs.SAPHANASID -SAPHANAInstanceNumber $SAPSIDDBMSVMs.SAPHANAInstanceNumber -PrintExecutionCommand $PrintExecutionCommand } "SQLServer" { # Start SQL Server DB Stop-AzSQLServerDB -ResourceGroupName $SAPSIDDBMSVMs.ResourceGroupName -VMName $SAPSIDDBMSVMs.VMName -DBSIDName $SAPSIDDBMSVMs.SAPSID -DBInstanceName $SAPSIDDBMSVMs.DBInstanceName -PrintExecutionCommand $PrintExecutionCommand } "Sybase" { # Not yet Implemented Write-WithTime "Stop of SAP Sybase is not yet implemented." } "MaxDB" { # Not yet Implemented Write-WithTime "Stop of SAP MaxDB is not yet implemented." } "Oracle" { # Not yet Implemented Write-WithTime "Stop of Oracle is not yet implemented." } "IBMDB2" { # Not yet Implemented Write-WithTime "Stop of IBM DB2 is not yet implemented." } } } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzONESAPApplicationInstance { <# .SYNOPSIS Get one SAPSID Instance. .DESCRIPTION Get one SAPSID Instance. Returned object has [VMName;SAPInstanceNumber;SAPInstanceType] .PARAMETER SAPSID SAP SID .EXAMPLE Get-AzONESAPApplicationInstance -SAPSID "PR1" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] $SAPSIDApplicationVMs, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { $SAPSID = $SAPSIDApplicationVMs[0].SAPSID $VMName = $SAPSIDApplicationVMs[0].VMName $ResourceGroupName = $SAPSIDApplicationVMs[0].ResourceGroupName $SAPApplicationInstanceNumber = $SAPSIDApplicationVMs[0].SAPApplicationInstanceNumber $SAPInstanceType = $SAPSIDApplicationVMs[0].SAPInstanceType $OSType = Get-AzVMOSType -VMName $VMName -ResourceGroupName $ResourceGroupName if ($OSType -eq "Windows") { #$SAPSIDPassword = Get-AzVMTagValue -ResourceGroupName $ResourceGroupName -VMName $VMName -KeyName "SAPSIDPassword" $SIDADMUser = $SAPSID.Trim().ToLower() + "adm" $SAPSIDCredentials = Get-AzAutomationSAPPSCredential -CredentialName $SIDADMUser $SAPSIDPassword = $SAPSIDCredentials.Password $PathToSAPControl = Get-AzVMTagValue -ResourceGroupName $ResourceGroupName -VMName $VMName -KeyName "PathToSAPControl" } $obj = New-Object -TypeName psobject $obj | add-member -NotePropertyName "SAPSID" -NotePropertyValue $SAPSID $obj | add-member -NotePropertyName "VMName" -NotePropertyValue $VMName $obj | add-member -NotePropertyName "ResourceGroupName" -NotePropertyValue $ResourceGroupName $obj | add-member -NotePropertyName "SAPApplicationInstanceNumber" -NotePropertyValue $SAPApplicationInstanceNumber $obj | add-member -NotePropertyName "SAPInstanceType" -NotePropertyValue $SAPInstanceType $obj | add-member -NotePropertyName "OSType" -NotePropertyValue $OSType if ($OSType -eq "Windows") { $obj | add-member -NotePropertyName "SAPSIDPassword" -NotePropertyValue $SAPSIDPassword $obj | add-member -NotePropertyName "PathToSAPControl" -NotePropertyValue $PathToSAPControl } #Return formated object Write-Output $obj } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzSAPSystemStatusLinux { <# .SYNOPSIS Get SAP System Status on Linux. .DESCRIPTION Get SAP System Status on Linux. .PARAMETER VMName VM name where SAP instance is installed. .PARAMETER ResourceGroupName Resource Group Name of the SAP instance VM. .PARAMETER InstanceNumberToConnect SAP Instance Number to Connect .PARAMETER SAPSID SAP SID .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE Get-AzSAPSystemStatusLinux -ResourceGroupName "PR1-RG" -VMName "PR1-DB" -SAPSID "PR1" -InstanceNumberToConnect 1 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateLength(1, 2)] [string] $InstanceNumberToConnect, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False, [switch] $PrintOutputWithWriteHost ) BEGIN {} PROCESS { try { if ($PrintOutputWithWriteHost) { Write-WithTime_Using_WriteHost "SAP System '$SAPSID' Status:" }else { Write-WithTime "SAP System '$SAPSID' Status:" } $SAPSidUser = $SAPSID.ToLower() + "adm" $Command = "su --login $SAPSidUser -c 'sapcontrol -nr $InstanceNumberToConnect -function GetSystemInstanceList'" if ($PrintExecutionCommand -eq $True) { if ($PrintOutputWithWriteHost) { Write-WithTime_Using_WriteHost "Executing command '$Command'" }else { Write-WithTime "Executing command '$Command'" } } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunShellScript -ScriptPath command.txt $ret.Value[0].Message #Write-Host "Waiting for 10 sec ..." Start-Sleep 10 } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzSAPSystemStatusWindows { <# .SYNOPSIS Get SAP System Status on Windows. .DESCRIPTION Get SAP System Status on Windows. .PARAMETER VMName VM name where SAP instance is installed. .PARAMETER ResourceGroupName Resource Group Name of the SAP instance VM. .PARAMETER InstanceNumberToConnect SAP Instance Number to Connect .PARAMETER PathToSAPControl Full path to SAP Control executable. .PARAMETER SAPSID SAP SID .PARAMETER SAPSidPwd SAP <sid>adm user password .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE Get-AzSAPSystemStatusWindows -ResourceGroupName "PR1-RG" -VMName "PR1-DB" -SAPSID "PR1" -InstanceNumberToConnect 1 -PathToSAPControl "C:\usr\sap\PR2\ASCS00\exe\sapcontrol.exe" -SAPSidPwd "MyPassword12" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateLength(1, 2)] [string] $InstanceNumberToConnect, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $PathToSAPControl, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPSidPwd, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False, [switch] $PrintOutputWithWriteHost ) BEGIN {} PROCESS { try { $SAPSidUser = $SAPSID.ToLower() + "adm" if ($PrintOutputWithWriteHost) { Write-WithTime_Using_WriteHost "SAP System '$SAPSID' Status:" }else { Write-WithTime "SAP System '$SAPSID' Status:" } $Command = "$PathToSAPControl -nr $InstanceNumberToConnect -user $SAPSidUser '$SAPSidPwd' -function GetSystemInstanceList" $CommandToPrint = "$PathToSAPControl -nr $InstanceNumberToConnect -user $SAPSidUser '***pwd***' -function GetSystemInstanceList" if ($PrintExecutionCommand -eq $True) { if ($PrintOutputWithWriteHost) { Write-WithTime_Using_WriteHost "Executing command '$CommandToPrint' " }else { Write-WithTime "Executing command '$CommandToPrint' " } } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunPowerShellScript -ScriptPath command.txt $ret.Value[0].Message # Waiting for 10 sec ... Start-Sleep 10 } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzSAPSystemStatus { <# .SYNOPSIS Get SAP System Status. .DESCRIPTION Get SAP System Status. Module will automaticaly recognize Windows or Linux OS. .PARAMETER SAPSID SAP SID .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE $SAPSIDApplicationVMs = Get-AzSAPApplicationInstances -SAPSID "SP1" Get-AzSAPSystemStatus -SAPSIDApplicationVMs $SAPSIDApplicationVMs #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] $SAPSIDApplicationVMs, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { $ONESAPInstance = Get-AzONESAPApplicationInstance -SAPSIDApplicationVMs $SAPSIDApplicationVMs if ($ONESAPInstance.OSType -eq "Linux") { Get-AzSAPSystemStatusLinux -ResourceGroupName $ONESAPInstance.ResourceGroupName -VMName $ONESAPInstance.VMName -InstanceNumberToConnect $ONESAPInstance.SAPApplicationInstanceNumber -SAPSID $ONESAPInstance.SAPSID -PrintExecutionCommand $PrintExecutionCommand } elseif ($ONESAPInstance.OSType -eq "Windows") { Get-AzSAPSystemStatusWindows -ResourceGroupName $ONESAPInstance.ResourceGroupName -VMName $ONESAPInstance.VMName -InstanceNumberToConnect $ONESAPInstance.SAPApplicationInstanceNumber -SAPSID $ONESAPInstance.SAPSID -PathToSAPControl $ONESAPInstance.PathToSAPControl -SAPSidPwd $ONESAPInstance.SAPSIDPassword -PrintExecutionCommand $PrintExecutionCommand } } catch { Write-Error $_.Exception.Message } } END {} } function Start-AzSAPSystemLinux { <# .SYNOPSIS Start SAP System on Linux. .DESCRIPTION Start SAP System on Linux. .PARAMETER VMName VM name where SAP instance is installed. .PARAMETER ResourceGroupName Resource Group Name of the SAP instance VM. .PARAMETER InstanceNumberToConnect SAP Instance Number to Connect .PARAMETER SAPSID SAP SID .PARAMETER WaitForStartTimeInSeconds Number of seconds to wait for SAP system to start. .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE Start-AzSAPSystemLinux -ResourceGroupName "PR1-RG" -VMName "PR1-DB" -SAPSID "PR1" -InstanceNumberToConnect 1 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateLength(1, 2)] [string] $InstanceNumberToConnect, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $False)] [int] $WaitForStartTimeInSeconds = 600, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { $SAPSidUser = $SAPSID.ToLower() + "adm" #$SAPSIDUpper = $SAPSID.ToUpper() Write-WithTime "Starting SAP '$SAPSID' System ..." $Command = "su --login $SAPSidUser -c 'sapcontrol -nr $InstanceNumberToConnect -function StartSystem'" if ($PrintExecutionCommand -eq $True) { Write-WithTime "Executing command '$Command' " } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunShellScript -ScriptPath command.txt $ret.Value[0].Message Write-Output " " Write-WithTime "Waiting $WaitForStartTimeInSeconds seconds for SAP system '$SAPSID' to start ..." Start-Sleep $WaitForStartTimeInSeconds } catch { Write-Error $_.Exception.Message } } END {} } function Start-AzSAPSystemWindows { <# .SYNOPSIS Get SAP System Status on Windows. .DESCRIPTION Get SAP System Status on Windows. .PARAMETER VMName VM name where SAP instance is installed. .PARAMETER ResourceGroupName Resource Group Name of the SAP instance VM. .PARAMETER InstanceNumberToConnect SAP Instance Number to Connect .PARAMETER PathToSAPControl Full path to SAP Control executable. .PARAMETER SAPSID SAP SID .PARAMETER SAPSidPwd SAP <sid>adm user password .PARAMETER WaitForStartTimeInSeconds Number of seconds to wait for SAP system to start. .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE Start-AzSAPSystemWindows -ResourceGroupName "PR1-RG" -VMName "PR1-DB" -SAPSID "PR1" -InstanceNumberToConnect 1 -PathToSAPControl "C:\usr\sap\PR2\ASCS00\exe\sapcontrol.exe" -SAPSidPwd "MyPassword12" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateLength(1, 2)] [string] $InstanceNumberToConnect, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $PathToSAPControl, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPSidPwd, [Parameter(Mandatory = $False)] [int] $WaitForStartTimeInSeconds = 600, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { $SAPSidUser = $SAPSID.ToLower() + "adm" Write-WithTime "Starting SAP '$SAPSID' System ..." $Command = "$PathToSAPControl -nr $InstanceNumberToConnect -user $SAPSidUser '$SAPSidPwd' -function StartSystem" $CommandToPrint = "$PathToSAPControl -nr $InstanceNumberToConnect -user $SAPSidUser '***pwd***' -function StartSystem" if ($PrintExecutionCommand -eq $True) { Write-WithTime "Executing command '$CommandToPrint' " } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunPowerShellScript -ScriptPath command.txt $ret.Value[0].Message Write-Output " " Write-WithTime "Waiting $WaitForStartTimeInSeconds seconds for SAP system '$SAPSID' to start ..." Start-Sleep $WaitForStartTimeInSeconds } catch { Write-Error $_.Exception.Message } } END {} } function Start-AzSAPSystem { <# .SYNOPSIS Start SAP System. .DESCRIPTION Start SAP System. Module will automaticaly recognize Windows or Linux OS. .PARAMETER SAPSID SAP SID .PARAMETER WaitForStartTimeInSeconds Number of seconds to wait for SAP system to start. .EXAMPLE Start-AzSAPSystem -SAPSID "PR1" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] $SAPSIDApplicationVMs, [Parameter(Mandatory = $False)] [int] $WaitForStartTimeInSeconds = 600, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { # get one / any SAP instance $ONESAPInstance = Get-AzONESAPApplicationInstance -SAPSIDApplicationVMs $SAPSIDApplicationVMs if ($ONESAPInstance.OSType -eq "Linux") { Start-AzSAPSystemLinux -ResourceGroupName $ONESAPInstance.ResourceGroupName -VMName $ONESAPInstance.VMName -InstanceNumberToConnect $ONESAPInstance.SAPApplicationInstanceNumber -SAPSID $ONESAPInstance.SAPSID -WaitForStartTimeInSeconds $WaitForStartTimeInSeconds -PrintExecutionCommand $PrintExecutionCommand } elseif ($ONESAPInstance.OSType -eq "Windows") { Start-AzSAPSystemWindows -ResourceGroupName $ONESAPInstance.ResourceGroupName -VMName $ONESAPInstance.VMName -InstanceNumberToConnect $ONESAPInstance.SAPApplicationInstanceNumber -SAPSID $ONESAPInstance.SAPSID -WaitForStartTimeInSeconds $WaitForStartTimeInSeconds -PathToSAPControl $ONESAPInstance.PathToSAPControl -SAPSidPwd $ONESAPInstance.SAPSIDPassword -PrintExecutionCommand $PrintExecutionCommand } } catch { Write-Error $_.Exception.Message } } END {} } function Stop-AzSAPSystemLinux { <# .SYNOPSIS Stop SAP System on Linux. .DESCRIPTION Stop SAP System on Linux. .PARAMETER VMName VM name where SAP instance is installed. .PARAMETER ResourceGroupName Resource Group Name of the SAP instance VM. .PARAMETER InstanceNumberToConnect SAP Instance Number to Connect .PARAMETER SAPSID SAP SID .PARAMETER SoftShutdownTimeInSeconds Soft shutdown time for SAP system to stop. .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE Stop-AzSAPSystemLinux -ResourceGroupName "PR1-RG" -VMName "PR1-DB" -SAPSID "PR1" -InstanceNumberToConnect 1 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateLength(1, 2)] [string] $InstanceNumberToConnect, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $False)] [int] $SoftShutdownTimeInSeconds = "600", [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { $SAPSidUser = $SAPSID.ToLower() + "adm" # Stop SAP ABAP Application Server Write-WithTime "Stopping SAP '$SAPSID' System ..." $Command = "su --login $SAPSidUser -c 'sapcontrol -nr $InstanceNumberToConnect -function StopSystem ALL $SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds'" if ($PrintExecutionCommand -eq $True) { Write-WithTime "Executing command '$Command' " } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunShellScript -ScriptPath command.txt $ret.Value[0].Message Write-Output " " Write-WithTime "Waiting $SoftShutdownTimeInSeconds seconds for SAP system '$SAPSID' to stop ..." Start-Sleep ($SoftShutdownTimeInSeconds + 30) } catch { Write-Error $_.Exception.Message } } END {} } function Stop-AzSAPSystemWindows { <# .SYNOPSIS Stop SAP System on Windows. .DESCRIPTION Stop SAP System Windows. .PARAMETER VMName VM name where SAP instance is installed. .PARAMETER ResourceGroupName Resource Group Name of the SAP instance VM. .PARAMETER InstanceNumberToConnect SAP Instance Number to Connect .PARAMETER PathToSAPControl Full path to SAP Control executable. .PARAMETER SAPSID SAP SID .PARAMETER SAPSidPwd SAP <sid>adm user password .PARAMETER SoftShutdownTimeInSeconds Soft shutdown time for SAP system to stop. .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .EXAMPLE Stop-AzSAPSystemWindows -ResourceGroupName "PR1-RG" -VMName "PR1-DB" -SAPSID "PR1" -InstanceNumberToConnect 1 -PathToSAPControl "C:\usr\sap\PR2\ASCS00\exe\sapcontrol.exe" -SAPSidPwd "MyPassword12" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateLength(1, 2)] [string] $InstanceNumberToConnect, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $PathToSAPControl, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPSidPwd, [Parameter(Mandatory = $False)] [int] $SoftShutdownTimeInSeconds = 600, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { $SAPSidUser = $SAPSID.ToLower() + "adm" Write-WithTime "Stopping SAP '$SAPSID' System ..." $Command = "$PathToSAPControl -nr $InstanceNumberToConnect -user $SAPSidUser '$SAPSidPwd' -function StopSystem ALL $SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds" $CommandToPrint = "$PathToSAPControl -nr $InstanceNumberToConnect -user $SAPSidUser '***pwd****' -function StopSystem ALL $SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds" if ($PrintExecutionCommand -eq $True) { Write-WithTime "Executing command '$CommandToPrint' " } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunPowerShellScript -ScriptPath command.txt $ret.Value[0].Message Write-Output " " Write-WithTime "Waiting $SoftShutdownTimeInSeconds seconds for SAP system '$SAPSID' to stop ..." Start-Sleep ($SoftShutdownTimeInSeconds + 30) } catch { Write-Error $_.Exception.Message } } END {} } function Stop-AzSAPSystem { <# .SYNOPSIS Stop SAP System. .DESCRIPTION Stop SAP System. Module will automaticaly recognize Windows or Linux OS. .PARAMETER SAPSID SAP SID .PARAMETER SoftShutdownTimeInSeconds Soft shutdown time for SAP system to stop. .EXAMPLE Stop-AzSAPSystem -SAPSID "PR1" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] $SAPSIDApplicationVMs, [Parameter(Mandatory = $False)] [int] $SoftShutdownTimeInSeconds = 600, [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { # get one / any SAP instance $ONESAPInstance = Get-AzONESAPApplicationInstance -SAPSIDApplicationVMs $SAPSIDApplicationVMs if ($ONESAPInstance.OSType -eq "Linux") { Stop-AzSAPSystemLinux -ResourceGroupName $ONESAPInstance.ResourceGroupName -VMName $ONESAPInstance.VMName -InstanceNumberToConnect $ONESAPInstance.SAPApplicationInstanceNumber -SAPSID $ONESAPInstance.SAPSID -SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds -PrintExecutionCommand $PrintExecutionCommand } elseif ($ONESAPInstance.OSType -eq "Windows") { Stop-AzSAPSystemWindows -ResourceGroupName $ONESAPInstance.ResourceGroupName -VMName $ONESAPInstance.VMName -InstanceNumberToConnect $ONESAPInstance.SAPApplicationInstanceNumber -SAPSID $ONESAPInstance.SAPSID -SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds -PathToSAPControl $ONESAPInstance.PathToSAPControl -SAPSidPwd $ONESAPInstance.SAPSIDPassword -PrintExecutionCommand $PrintExecutionCommand } } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzVMTags { <# .SYNOPSIS Gets Key/Value pair tags objects. .DESCRIPTION Gets Key/Value pair tags objects. .PARAMETER ResourceGroupName ResourceGroupName. .PARAMETER VMName VMName. .EXAMPLE Get-AzVMTags #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName ) BEGIN {} PROCESS { try { $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -VMName $VMName $Tags = $VM.Tags foreach ($Tag in $Tags.GetEnumerator()) { $obj = New-Object -TypeName psobject $obj | add-member -NotePropertyName "Key" -NotePropertyValue $Tag.Key $obj | add-member -NotePropertyName "Value" -NotePropertyValue $Tag.Value #Return formated object Write-Output $obj } } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzVMTagValue { <# .SYNOPSIS Gets Value of Key tag for specified VM. .DESCRIPTION Gets Value of Key tag for specified VM. If key do not exist, empty string is returned. .PARAMETER ResourceGroupName ResourceGroupName. .PARAMETER VMName VMName. .PARAMETER KeyName KeyName. .EXAMPLE Get-AzVMTagValue -ResourceGroupName "gor-linux-eastus2-2" -VMName "pr2-ascs" -KeyName "PathToSAPControl" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $KeyName ) BEGIN {} PROCESS { try { $VMTags = Get-AzVMTags -ResourceGroupName $ResourceGroupName -VMName $VMName $TagWithSpecificKey = $VMTags | Where-Object Key -EQ $KeyName $ValueOfTheTag = $TagWithSpecificKey.Value Write-Output $ValueOfTheTag } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzSAPDBMSInstances { <# .SYNOPSIS Get ALL VMs with same SAPSID tag, that runs DBMS layer. .DESCRIPTION Get ALL VMs with same SAPSID tag, that runs DBMS layer. For each VM it will display: - SAPSID - SAP Instance Type [DBMS] - SAPDBMSType - SAPHANASID (for HANA) - SAPHANAInstanceNumber (for HANA) - Azure Resource Group Name - VM Name - OS type .PARAMETER SAPSID SAP system SID. .EXAMPLE # specify SAP SID 'PR1' $SAPSID = "PR1" # Collect SAP VM instances with the same Tag $SAPDBMSInstance = Get-AzSAPDBMSInstances -SAPSID $SAPSID # List all collected instances $SAPDBMSInstance #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPSID ) BEGIN {} PROCESS { try { $tags = @{"SAPSystemSID" = $SAPSID } $SAPVMs = Get-AzResource -ResourceType "Microsoft.Compute/virtualMachines" -Tag $tags foreach ($VMResource in $SAPVMs) { $VMTags = Get-AzVMTags -ResourceGroupName $VMResource.ResourceGroupName -VMName $VMResource.Name #Check if VM is DBMS host $IsDBMSHost = $false # If 'SAPDBMSType' Tag exist, then VM is DBMS VM $SAPDBMSTypeTag = $VMTags | Where-Object Key -EQ "SAPDBMSType" if ($SAPDBMSTypeTag -ne $Null) { $IsDBMSHost = $True } if ($IsDBMSHost) { $obj = New-Object -TypeName psobject $OSType = Get-AzVMOSType -VMName $VMResource.Name -ResourceGroupName $VMResource.ResourceGroupName $obj | add-member -NotePropertyName "SAPSID" -NotePropertyValue $SAPSID # Get DBMS type $SAPDBMSTypeTag = $VMTags | Where-Object Key -EQ "SAPDBMSType" $SAPDBMSType = $SAPDBMSTypeTag.Value If ($SAPDBMSType -eq "HANA") { # Get HANA SID $SAPHANASIDTag = $VMTags | Where-Object Key -EQ "SAPHANASID" $SAPHANASID = $SAPHANASIDTag.Value $obj | add-member -NotePropertyName "SAPHANASID" -NotePropertyValue $SAPHANASID # Get SAPHANAInstanceNumber $SAPHANAInstanceNumberTag = $VMTags | Where-Object Key -EQ "SAPHANAInstanceNumber" $SAPHANAInstanceNumber = $SAPHANAInstanceNumberTag.Value $obj | add-member -NotePropertyName "SAPHANAInstanceNumber" -NotePropertyValue $SAPHANAInstanceNumber }elseif ($SAPDBMSType -eq "SQLServer") { $SQLServerInstanceNameTag = $VMTags | Where-Object Key -EQ "DBInstanceName" $SQLServerInstanceName = $SQLServerInstanceNameTag.Value $obj | add-member -NotePropertyName "DBInstanceName" -NotePropertyValue $SQLServerInstanceName } $obj | add-member -NotePropertyName "SAPInstanceType" -NotePropertyValue "SAP_DBMS" $obj | add-member -NotePropertyName "SAPDBMSType" -NotePropertyValue $SAPDBMSType $obj | add-member -NotePropertyName "ResourceGroupName" -NotePropertyValue $VMResource.ResourceGroupName $obj | add-member -NotePropertyName "VMName" -NotePropertyValue $VMResource.Name $obj | add-member -NotePropertyName "OSType" -NotePropertyValue $OSType #Return formated object Write-Output $obj } } } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzSAPHANAInstances { <# .SYNOPSIS Get ALL VMs with same SAPHANASID tag, that runs DBMS layer. .DESCRIPTION Get ALL VMs with same SAPSID tag, that runs DBMS layer. For each VM it will display: - SAP Instance Type [DBMS] - SAPDBMSType - SAPHANASID (for HANA) - SAPHANAInstanceNumber (for HANA) - Azure Resource Group Name - VM Name - OS type .PARAMETER SAPHANASID SAP HANA SID. .EXAMPLE # specify SAP HANA SID 'CE1' $SAPSID = "CE1" # Collect SAP VM instances with the same Tag $SAPDBMSInstance = Get-AzSAPHANAInstances -SAPSID $SAPSID # List all collected instances $SAPDBMSInstance #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPHANASID ) BEGIN {} PROCESS { try { $tags = @{"SAPHANASID" = $SAPHANASID } $SAPVMs = Get-AzResource -ResourceType "Microsoft.Compute/virtualMachines" -Tag $tags foreach ($VMResource in $SAPVMs) { $VMTags = Get-AzVMTags -ResourceGroupName $VMResource.ResourceGroupName -VMName $VMResource.Name $obj = New-Object -TypeName psobject $OSType = Get-AzVMOSType -VMName $VMResource.Name -ResourceGroupName $VMResource.ResourceGroupName $SAPDBMSType = "HANA" $obj | add-member -NotePropertyName "SAPHANASID" -NotePropertyValue $SAPHANASID # Get SAPHANAInstanceNumber $SAPHANAInstanceNumberTag = $VMTags | Where-Object Key -EQ "SAPHANAInstanceNumber" $SAPHANAInstanceNumber = $SAPHANAInstanceNumberTag.Value $obj | add-member -NotePropertyName "SAPHANAInstanceNumber" -NotePropertyValue $SAPHANAInstanceNumber $obj | add-member -NotePropertyName "SAPInstanceType" -NotePropertyValue "SAP_DBMS" $obj | add-member -NotePropertyName "SAPDBMSType" -NotePropertyValue $SAPDBMSType $obj | add-member -NotePropertyName "ResourceGroupName" -NotePropertyValue $VMResource.ResourceGroupName $obj | add-member -NotePropertyName "VMName" -NotePropertyValue $VMResource.Name $obj | add-member -NotePropertyName "OSType" -NotePropertyValue $OSType #Return formated object Write-Output $obj } } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzSAPApplicationInstances { <# .SYNOPSIS Get ALL VMs with same SAPSID tag, that runs application layer. .DESCRIPTION Get ALL VMs with same SAPSID tag, that runs application layer. For each VM it will display: - SAPSID - SAP Instance Type - SAP Application Instance Number - Azure Resource Group Name - VM Name - OS type .PARAMETER SAPSID SAP system SID. .EXAMPLE # specify SAP SID 'PR1' $SAPSID = "PR1" # Collect SAP VM instances with the same Tag $SAPApplicationInstances = Get-AzSAPApplicationInstances -SAPSID $SAPSID # List all collected instances $SAPApplicationInstances #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPSID ) BEGIN {} PROCESS { try { $tags = @{"SAPSystemSID" = $SAPSID } $SAPVMs = Get-AzResource -ResourceType "Microsoft.Compute/virtualMachines" -Tag $tags foreach ($VMResource in $SAPVMs) { $VMTags = Get-AzVMTags -ResourceGroupName $VMResource.ResourceGroupName -VMName $VMResource.Name $SAPApplicationInstanceTypeTag = $VMTags | Where-Object Key -EQ "SAPApplicationInstanceType" if ($SAPApplicationInstanceTypeTag -ne $Null) { # it is application SAP instance $obj = New-Object -TypeName psobject # Get 'SAPApplicationInstanceType' $SAPApplicationInstanceType = $SAPApplicationInstanceTypeTag.Value # Get 'SAPApplicationInstanceNumber' $SAPApplicationInstanceNumberTag = $VMTags | Where-Object Key -EQ "SAPApplicationInstanceNumber" $SAPApplicationInstanceNumber = $SAPApplicationInstanceNumberTag.Value $OSType = Get-AzVMOSType -VMName $VMResource.Name -ResourceGroupName $VMResource.ResourceGroupName #Write-Host "OSType: $OSType" $obj | add-member -NotePropertyName "SAPSID" -NotePropertyValue $SAPSID $obj | add-member -NotePropertyName "SAPInstanceType" -NotePropertyValue $SAPApplicationInstanceType $obj | add-member -NotePropertyName "SAPApplicationInstanceNumber" -NotePropertyValue $SAPApplicationInstanceNumber $obj | add-member -NotePropertyName "ResourceGroupName" -NotePropertyValue $VMResource.ResourceGroupName $obj | add-member -NotePropertyName "VMName" -NotePropertyValue $VMResource.Name $obj | add-member -NotePropertyName "OSType" -NotePropertyValue $OSType #Return formated object Write-Output $obj } } } catch { Write-Error $_.Exception.Message } } END {} } function Test-AzSAPSIDTagExist { <# .SYNOPSIS Test if Tag with 'SAPSystemSID' = '$SAPSID' exist. If not, exit. .DESCRIPTION Test if Tag with 'SAPSystemSID' = '$SAPSID' exist. If not, exit. .PARAMETER SAPSID SAP system SID. .EXAMPLE # specify SAP SID 'PR1' $SAPSID = "PR1" # test if SAPSIDSystem Tag with $SAPSID value exist Test-AzSAPSIDTagExist -SAPSID $SAPSID # List all collected instances $SAPInstances #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPSID ) BEGIN {} PROCESS { try { $tags = @{"SAPSystemSID" = $SAPSID } $SAPVMs = Get-AzResource -ResourceType "Microsoft.Compute/virtualMachines" -Tag $tags if ($SAPVMs -eq $null) { Write-WithTime "Cannot find VMs with Tag 'SAPSystemSID' = '$SAPSID'" Write-WithTime "Exiting runbook." exit } else { Write-WithTime "Found VMs with Tag 'SAPSystemSID' = '$SAPSID'" } } catch { Write-Error $_.Exception.Message } } END {} } function Test-AzSAPHANASIDTagExist { <# .SYNOPSIS Test if Tag with 'SAPHANASID' = '$SAPHANASID' exist. If not, exit. .DESCRIPTION Test if Tag with 'SAPHANASID' = '$SAPHANASID' exist. If not, exit. .PARAMETER SAPSID SAP system SID. .EXAMPLE # specify SAP SIDHANA 'PR1' $SAPHANASID = "PR1" # test if SAPSIDSystem Tag with $SAPSID value exist Test-AzSAPHANASIDTagExist -SAPHANASID $SAPHANASID #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPHANASID ) BEGIN {} PROCESS { try { $tags = @{"SAPHANASID" = $SAPHANASID } $SAPVMs = Get-AzResource -ResourceType "Microsoft.Compute/virtualMachines" -Tag $tags if ($SAPVMs -eq $null) { Write-WithTime "Cannot find VMs with Tag 'SAPHANASID' = '$SAPHANASID'" Write-WithTime "Exiting runbook." exit } else { Write-WithTime "Found VMs with Tag 'SAPHANASID' = '$SAPHANASID'" } } catch { Write-Error $_.Exception.Message } } END {} } function Show-AzSAPSIDVMApplicationInstances { <# .SYNOPSIS Print the SAP VMs. .DESCRIPTION Print the SAP VMs. .PARAMETER SAPVMs List of VM resources. This collection is a list of VMs with same 'SAPSID' tag. .EXAMPLE $SAPSID = "PR2" $SAPSIDApplicationVMs = Get-AzSAPApplicationInstances -SAPSID $SAPSID Show-AzSAPSIDVMApplicationInstances -SAPVMs $SAPSIDApplicationVMs #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPVMs ) BEGIN {} PROCESS { try { ForEach ($SAPVM in $SAPVMs) { Write-Output "SAPSID: $($SAPVM.SAPSID)" Write-Output "SAPInstanceType: $($SAPVM.SAPInstanceType)" Write-Output "SAPApplicationInstanceNumber: $($SAPVM.SAPApplicationInstanceNumber)" Write-Output "ResourceGroupName: $($SAPVM.ResourceGroupName)" Write-Output "VMName: $($SAPVM.VMName)" Write-Output "OSType: $($SAPVM.OSType)" Write-Output "" } } catch { Write-Error $_.Exception.Message } } END {} } function Show-AzSAPSIDVMDBMSInstances { <# .SYNOPSIS Print the SAP VMs. .DESCRIPTION Print the SAP VMs. .PARAMETER SAPVMs List of VM resources. This collection is a list of VMs with same 'SAPSID' tag. .EXAMPLE $SAPSID = "PR2" $SAPSIDDBMSVMs = Get-AzSAPDBMSInstances -SAPSID $SAPSID Show-AzSAPSIDVMDBMSInstances -SAPVMs $SAPSIDApplicationVMs #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPVMs ) BEGIN {} PROCESS { try { ForEach ($SAPVM in $SAPVMs) { Write-Output "SAPSID: $($SAPVM.SAPSID)" Write-Output "SAPInstanceType: $($SAPVM.SAPInstanceType)" Write-Output "SAPDBMSType: $($SAPVM.SAPDBMSType)" if ($SAPVM.SAPDBMSType -eq "HANA") { Write-Output "SAPHANASID: $($SAPVM.SAPHANASID)" Write-Output "SAPHANAInstanceNumber: $($SAPVM.SAPHANAInstanceNumber)" } Write-Output "ResourceGroupName: $($SAPVM.ResourceGroupName)" Write-Output "VMName: $($SAPVM.VMName)" Write-Output "OSType: $($SAPVM.OSType)" Write-Output "" } } catch { Write-Error $_.Exception.Message } } END {} } function ConvertTo-AzVMManagedDisksToPremium { <# .SYNOPSIS Convert all disks of one VM to Premium type. .DESCRIPTION Convert all disks of one VM to Premium type. .PARAMETER ResourceGroupName VM Resource Group Name. .PARAMETER VMName VM Name. .EXAMPLE Convert-AzVMManagedDisksToPremium -ResourceGroupName "gor-linux-eastus2-2" -VMName "ts2-di1" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName ) BEGIN {} PROCESS { try { Convert-AzVMManagedDisks -ResourceGroupName $ResourceGroupName -VMName $VMName -storageType "Premium_LRS" } catch { Write-Error $_.Exception.Message } } END {} } function ConvertTo-AzVMManagedDisksToStandard { <# .SYNOPSIS Convert all disks of one vM to Standard type. .DESCRIPTION Convert all disks of one vM to Standard type. .PARAMETER ResourceGroupName VM Resource Group Name. .PARAMETER VMName VM Name. .EXAMPLE Convert-AzVMManagedDisksToStandard -ResourceGroupName "gor-linux-eastus2-2" -VMName "ts2-di1" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName ) BEGIN {} PROCESS { try { Convert-AzVMManagedDisks -ResourceGroupName $ResourceGroupName -VMName $VMName -storageType "Standard_LRS" } catch { Write-Error $_.Exception.Message } } END {} } function Convert-AzVMCollectionManagedDisksToStandard { <# .SYNOPSIS Convert all disks of VMs collection to Standard type. .DESCRIPTION Convert all disks of VMs collection to Standard type. .PARAMETER SAPVMs VM collection. .EXAMPLE $SAPSID = "TS1" $SAPSIDApplicationVMs = Get-AzSAPApplicationInstances -SAPSID $SAPSID Convert-AzVMCollectionManagedDisksToStandard -SAPVMs $SAPSIDApplicationVMs #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPVMs ) BEGIN {} PROCESS { try { ForEach ($VM in $SAPVMs) { Write-WithTime "Converting all managed disks of VM '$($VM.VMName)' in Azure resource group '$($VM.ResourceGroupName)' to 'Standard_LRS' type .." ConvertTo-AzVMManagedDisksToStandard -ResourceGroupName $VM.ResourceGroupName -VMName $VM.VMName Write-Output "" } } catch { Write-Error $_.Exception.Message } } END {} } function Convert-AzVMCollectionManagedDisksToPremium { <# .SYNOPSIS Convert all disks of VMs collection to Premium type. .DESCRIPTION Convert all disks of VMs collection to Premium type. .PARAMETER SAPVMs VM collection. .EXAMPLE $SAPSID = "TS1" $SAPSIDApplicationVMs = Get-AzSAPApplicationInstances -SAPSID $SAPSID Convert-AzVMCollectionManagedDisksToPremium -SAPVMs $SAPSIDApplicationVMs #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPVMs ) BEGIN {} PROCESS { try { ForEach ($VM in $SAPVMs) { Write-WithTime "Converting all managed disks of VM '$($VM.VMName)' in Azure resource group '$($VM.ResourceGroupName)' to 'Premium_LRS' type .." ConvertTo-AzVMManagedDisksToPremium -ResourceGroupName $VM.ResourceGroupName -VMName $VM.VMName Write-Output "" } } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzVMCollectionManagedDiskType { <# .SYNOPSIS List all disks and disk type of VMs collection. .DESCRIPTION List all disks and disk type of VMs collection. .PARAMETER SAPVMs VM collection. .EXAMPLE $SAPSID = "TS1" $SAPSIDApplicationVMs = Get-AzSAPApplicationInstances -SAPSID $SAPSID Get-AzVMCollectionManagedDiskType -SAPVMs $SAPSIDApplicationVMs #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPVMs ) BEGIN {} PROCESS { try { ForEach ($VM in $SAPVMs) { $VMIsRunning = Test-AzVMIsStarted -ResourceGroupName $VM.ResourceGroupName -VMName $VM.VMName if ($VMIsRunning -eq $True) { # VM is runnign. Return to the main Runbook without listing the disks return } Write-WithTime "'$($VM.VMName)' VM in Azure resource group '$($VM.ResourceGroupName)' disks:" Get-AzVMManagedDiskType -ResourceGroupName $VM.ResourceGroupName -VMName $VM.VMName Write-Output "" } } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzVMManagedDiskType { <# .SYNOPSIS List all disks and disk type of one VM. .DESCRIPTION List all disks and disk type of one VM. .PARAMETER ResourceGroupName Resource Group Name. .PARAMETER VMName VM Name. .EXAMPLE $SAPSID = "TS1" $SAPSIDApplicationVMs = Get-AzSAPApplicationInstances -SAPSID $SAPSID Get-AzVMCollectionManagedDiskType -ResourceGroupName "MyResourceGroupName" -VMName "myVM1" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName ) BEGIN {} PROCESS { try { $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName #OS Disk $OSDisk = $VM.StorageProfile.OsDisk $OSDiskName = $OSDisk.Name $OSDiskAllProperties = Get-AzDisk -ResourceGroupName $ResourceGroupName -DiskName $OSDiskName Write-Output "$OSDiskName [$($OSDiskAllProperties.Sku.Name)]" #Data Disks $DataDisks = $VM.StorageProfile.DataDisks $DataDisksNames = $DataDisks.Name ForEach ($DataDiskName in $DataDisksNames) { $DataDiskAllProperties = Get-AzDisk -ResourceGroupName $ResourceGroupName -DiskName $DataDiskName Write-Output "$DataDiskName [$($DataDiskAllProperties.Sku.Name)]" } } catch { Write-Error $_.Exception.Message } } END {} } function Convert-AzVMManagedDisks { <# .SYNOPSIS Convert all disks of one VM to Premium or Standard type. .DESCRIPTION Convert all disks of one vM to Standard type. .PARAMETER ResourceGroupName VM Resource Group Name. .PARAMETER VMName VM Name. .EXAMPLE # Convert to Premium disks Convert-AzVMManagedDisks -ResourceGroupName "gor-linux-eastus2-2" -VMName "ts2-di1" -storageType "Premium_LRS" .EXAMPLE # Convert to Standard disks Convert-AzVMManagedDisks -ResourceGroupName "gor-linux-eastus2-2" -VMName "ts2-di1" -storageType "Standard_LRS" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $storageType ) BEGIN {} PROCESS { try { $VMIsRunning = Test-AzVMIsStarted -ResourceGroupName $ResourceGroupName -VMName $VMName if ($VMIsRunning -eq $True) { Write-WithTime("VM '$VMName' in resource group '$ResourceGroupName' is running. ") Write-WithTime("Skipping the disk conversion for the VM '$VMName' in resource group '$ResourceGroupName'. Disks cannot be converted when VM is running. ") return } $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName $OSDisk = $VM.StorageProfile.OsDisk $OSDiskName = $OSDisk.Name $OSDiskAllProperties = Get-AzDisk -ResourceGroupName $ResourceGroupName -DiskName $OSDiskName Write-Output "Converting OS disk $OSDiskName to '$storageType' type ..." $OSDiskAllProperties.Sku = [Microsoft.Azure.Management.Compute.Models.DiskSku]::new($storageType) $OSDiskAllProperties | Update-AzDisk > $Null Write-Output "Done!" $DataDisks = $VM.StorageProfile.DataDisks $DataDisksNames = $DataDisks.Name ForEach ($DataDiskName in $DataDisksNames) { Write-Output "Converting data disk $DataDiskName to '$storageType' type ..." $DataDiskAllProperties = Get-AzDisk -ResourceGroupName $ResourceGroupName -DiskName $DataDiskName $DataDiskAllProperties.Sku = [Microsoft.Azure.Management.Compute.Models.DiskSku]::new($storageType) $DataDiskAllProperties | Update-AzDisk > $Null Write-Output "Done!" } } catch { Write-Error $_.Exception.Message } } END {} } function Convert-AzALLSAPSystemVMsCollectionManagedDisksToPremium { <# .SYNOPSIS Convert all disks of ALL SAP SID VMs to Premium type. .DESCRIPTION Convert all disks of ALL SAP SID VMs to Premium type. .PARAMETER SAPSIDApplicationVMs Colelctions of VMs belonging to SAP apllication layer. .PARAMETER SAPSIDDBMSVMs Colelctions of VMs belonging to SAP DBMS layer. .EXAMPLE $SAPSID = "TS1" $SAPSIDApplicationVMs = Get-AzSAPApplicationInstances -SAPSID $SAPSID $SAPSIDDBMSVMs = Get-AzSAPDBMSInstances -SAPSID $SAPSID Convert-AzALLSAPSystemVMsCollectionManagedDisksToPremium -SAPSIDApplicationVMs $SAPSIDApplicationVMs -SAPSIDDBMSVMs $SAPSIDDBMSVMs #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPSIDApplicationVMs, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPSIDDBMSVMs ) BEGIN {} PROCESS { try { Write-WithTime "SAP Application layer VMs disks:" Write-Output "" Get-AzVMCollectionManagedDiskType -SAPVMs $SAPSIDApplicationVMs Write-WithTime "Converting SAP Application layer VMs disks to 'Premium_LRS' ..." Convert-AzVMCollectionManagedDisksToPremium -SAPVMs $SAPSIDApplicationVMs Write-Output "" Write-WithTime "SAP Application layer VMs disks after conversion:" Write-Output "" Get-AzVMCollectionManagedDiskType -SAPVMs $SAPSIDApplicationVMs Write-WithTime "SAP DBMS layer VM(s)disks:" Write-Output "" Get-AzVMCollectionManagedDiskType -SAPVMs $SAPSIDDBMSVMs Write-WithTime "Converting DBMS layer VMs disks to 'Premium_LRS' ..." Convert-AzVMCollectionManagedDisksToPremium -SAPVMs $SAPSIDDBMSVMs Write-Output "" Write-WithTime "SAP DBMS layer VMs disks after conversion:" Write-Output "" Get-AzVMCollectionManagedDiskType -SAPVMs $SAPSIDDBMSVMs } catch { Write-Error $_.Exception.Message } } END {} } function Convert-AzALLSAPVMsCollectionManagedDisksToPremium { <# .SYNOPSIS Convert all disks of ALL VMs to Premium type. .DESCRIPTION Convert all disks of ALL VMs to Premium type. .PARAMETER SAPSIDApplicationVMs Colelctions of VMs belonging to SAP apllication layer. .PARAMETER SAPSIDDBMSVMs Colelctions of VMs belonging to SAP DBMS layer. .EXAMPLE $SAPSID = "TS1" $SAPVMs = Get-AzSAPApplicationInstances -SAPSID $SAPSID Convert-AzALLSAPVMsCollectionManagedDisksToPremium -SAPVMs $SAPVMs #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPVMs ) BEGIN {} PROCESS { try { Write-WithTime "VMs disks:" Write-Output "" Get-AzVMCollectionManagedDiskType -SAPVMs $SAPVMs Write-WithTime "Converting VMs disks to 'Premium_LRS' ..." Convert-AzVMCollectionManagedDisksToPremium -SAPVMs $SAPVMs Write-Output "" Write-WithTime "VMs disks after conversion:" Write-Output "" Get-AzVMCollectionManagedDiskType -SAPVMs $SAPVMs } catch { Write-Error $_.Exception.Message } } END {} } function Convert-AzALLSAPSystemVMsCollectionManagedDisksToStandard { <# .SYNOPSIS Convert all disks of ALL SAP SID VMs to Standard type. .DESCRIPTION Convert all disks of ALL SAP SID VMs to Standard type. .PARAMETER SAPSIDApplicationVMs Collrctions of VMs belonging to SAP apllication layer. .PARAMETER SAPSIDDBMSVMs Colelctions of VMs belonging to SAP DBMS layer. .EXAMPLE $SAPSID = "TS1" $SAPSIDApplicationVMs = Get-AzSAPApplicationInstances -SAPSID $SAPSID $SAPSIDDBMSVMs = Get-AzSAPDBMSInstances -SAPSID $SAPSID Convert-AzALLSAPSystemVMsCollectionManagedDisksToStandard -SAPSIDApplicationVMs $SAPSIDApplicationVMs -SAPSIDDBMSVMs $SAPSIDDBMSVMs #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPSIDApplicationVMs, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPSIDDBMSVMs ) BEGIN {} PROCESS { try { Write-WithTime "SAP Application layer VMs disks:" Write-Output "" Get-AzVMCollectionManagedDiskType -SAPVMs $SAPSIDApplicationVMs Write-WithTime "Converting SAP Application layer VMs disks to 'Standard_LRS' ..." Convert-AzVMCollectionManagedDisksToStandard -SAPVMs $SAPSIDApplicationVMs Write-Output "" Write-WithTime "SAP Application layer VMs disks after conversion:" Write-Output "" Get-AzVMCollectionManagedDiskType -SAPVMs $SAPSIDApplicationVMs Write-WithTime "SAP DBMS layer VM(s)disks:" Write-Output "" Get-AzVMCollectionManagedDiskType -SAPVMs $SAPSIDDBMSVMs Write-WithTime "Converting DBMS layer VMs disks to 'Standard_LRS' ..." Convert-AzVMCollectionManagedDisksToStandard -SAPVMs $SAPSIDDBMSVMs Write-Output "" Write-WithTime "SAP DBMS layer VMs disks after conversion:" Write-Output "" Get-AzVMCollectionManagedDiskType -SAPVMs $SAPSIDDBMSVMs } catch { Write-Error $_.Exception.Message } } END {} } function Convert-AzALLSAPVMsCollectionManagedDisksToStandard { <# .SYNOPSIS Convert all disks of VMs to Standard type. .DESCRIPTION Convert all disks of VMs to Standard type. .PARAMETER SAPSIDApplicationVMs Collrctions of VMs belonging to SAP apllication layer. .PARAMETER SAPVMs Collections of VMs . .EXAMPLE $SAPSID = "TS1" $SAPSIDApplicationVMs = Get-AzSAPApplicationInstances -SAPSID $SAPSID Convert-AzALLSAPVMsCollectionManagedDisksToStandard -SAPVMs $SAPSIDApplicationVMs #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $SAPVMs ) BEGIN {} PROCESS { try { Write-WithTime "VMs disks:" Write-Output "" Get-AzVMCollectionManagedDiskType -SAPVMs $SAPVMs Write-WithTime "Converting VMs disks to 'Standard_LRS' ..." Convert-AzVMCollectionManagedDisksToStandard -SAPVMs $SAPVMs Write-Output "" Write-WithTime "VMs disks after conversion:" Write-Output "" Get-AzVMCollectionManagedDiskType -SAPVMs $SAPVMs } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPSystemHANATags { <# .SYNOPSIS Set Tags on Standalone SAP HANA belonging to an SAP SID system. .DESCRIPTION Set Tags on Standalone SAP HANA belonging to an SAP SID system. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPHANASID SAP HANA SID. .PARAMETER SAPHANAINstanceNumber SAP HANA InstanceNumber. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" $VMName = "ts2-db" New-AzSAPSystemHANATags -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPHANASID "TS2" -SAPHANAINstanceNumber 0 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True, HelpMessage = "SAP HANA <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPHANASID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [ValidateLength(1, 2)] [string] $SAPHANAInstanceNumber ) BEGIN {} PROCESS { try { $SAPDBMSType = "HANA" $tags = @{"SAPSystemSID" = $SAPSID; "SAPHANASID" = $SAPHANASID; "SAPHANAINstanceNumber" = $SAPHANAInstanceNumber; "SAPDBMSType" = $SAPDBMSType; } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPStandaloneHANATags { <# .SYNOPSIS Set Tags on Standalone SAP HANA. .DESCRIPTION Set Tags on Standalone SAP HANA. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPHANASID SAP HANA SID. .PARAMETER SAPHANAINstanceNumber SAP HANA InstanceNumber. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" $VMName = "ts2-db" New-AzSAPHANATags -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPHANASID "TS2" -SAPHANAINstanceNumber 0 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP HANA <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPHANASID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [ValidateLength(1, 2)] [string] $SAPHANAInstanceNumber ) BEGIN {} PROCESS { try { $SAPDBMSType = "HANA" $tags = @{"SAPHANASID" = $SAPHANASID; "SAPHANAINstanceNumber" = $SAPHANAInstanceNumber; "SAPDBMSType" = $SAPDBMSType; } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPSystemHANAAndASCSTags { <# .SYNOPSIS Set Tags on Standalone SAP HANA with SAP 'ASCS' instance. .DESCRIPTION Set Tags on Standalone SAP HANA with SAP 'ASCS' instance. This is used with SAP Central System where complete system is isntelld on one VM, or distributed system where HANA and ASCS instance are located on the same VM .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPHANASID SAP HANA SID. .PARAMETER SAPHANAINstanceNumber SAP HANA InstanceNumber. .PARAMETER SAPApplicationInstanceNumber SAP ASCS Instance Number. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" $VMName = "ts2-db" New-AzSAPSystemHANATags -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPHANASID "TS2" -SAPHANAINstanceNumber 0 -SAPApplicationInstanceNumber 1 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True, HelpMessage = "SAP HANA <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPHANASID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [ValidateLength(1, 2)] [string] $SAPHANAInstanceNumber, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [ValidateLength(1, 2)] [string] $SAPApplicationInstanceNumber ) BEGIN {} PROCESS { try { #$DBMSInstance = $true $SAPDBMSType = "HANA" $SAPApplicationInstanceType = "SAP_ASCS" $tags = @{"SAPSystemSID" = $SAPSID; "SAPHANASID" = $SAPHANASID; "SAPHANAINstanceNumber" = $SAPHANAInstanceNumber; "SAPDBMSType" = $SAPDBMSType; "SAPApplicationInstanceType" = $SAPApplicationInstanceType ; "SAPApplicationInstanceNumber" = $SAPApplicationInstanceNumber } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPSystemASCSLinuxTags { <# .SYNOPSIS Set Tags on Standalone SAP 'ASCS' instance on Linux. .DESCRIPTION Set Tags on Standalone SAP 'ASCS' instance on Linux. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPApplicationInstanceNumber SAP ASCS Instance Number. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" $VMName = "ts2-db" New-AzSAPSystemASCSLinux -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPApplicationInstanceNumber 1 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateLength(1, 2)] [string] $SAPApplicationInstanceNumber ) BEGIN {} PROCESS { try { $SAPApplicationInstanceType = "SAP_ASCS" $tags = @{"SAPSystemSID" = $SAPSID; "SAPApplicationInstanceType" = $SAPApplicationInstanceType ; "SAPApplicationInstanceNumber" = $SAPApplicationInstanceNumber } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPSystemSCSLinuxTags { <# .SYNOPSIS Set Tags on Standalone SAP 'SCS' instance on Linux. .DESCRIPTION Set Tags on Standalone SAP 'SCS' instance on Linux. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPApplicationInstanceNumber SAP ASCS Instance Number. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" $VMName = "ts2-db" New-AzSAPSystemSCSLinux -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPApplicationInstanceNumber 1 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateLength(1, 2)] [string] $SAPApplicationInstanceNumber ) BEGIN {} PROCESS { try { $SAPApplicationInstanceType = "SAP_SCS" $tags = @{"SAPSystemSID" = $SAPSID; "SAPApplicationInstanceType" = $SAPApplicationInstanceType ; "SAPApplicationInstanceNumber" = $SAPApplicationInstanceNumber } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPSystemSAPDVEBMGSLinuxTags { <# .SYNOPSIS Set Tags on Standalone SAP 'DVEBMGS' instance on Linux. .DESCRIPTION Set Tags on Standalone SAP 'DVEBMGS' instance on Linux. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPApplicationInstanceNumber SAP DVEBMGS Instance Number. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" $VMName = "ts2-db" New-AzSAPSystemSAPDVEBMGSLinux -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPApplicationInstanceNumber 1 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [ValidateLength(1, 2)] [string] $SAPApplicationInstanceNumber ) BEGIN {} PROCESS { try { $SAPApplicationInstanceType = "SAP_DVEBMGS" $tags = @{"SAPSystemSID" = $SAPSID; "SAPApplicationInstanceType" = $SAPApplicationInstanceType ; "SAPApplicationInstanceNumber" = $SAPApplicationInstanceNumber } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPSystemSAPDialogInstanceApplicationServerLinuxTags { <# .SYNOPSIS Set Tags on Standalone SAP Dialog 'D' Instance Application Server instance on Linux. .DESCRIPTION Set Tags on Standalone SAP Dialog 'D' Instance Application Server instance on Linux. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPApplicationInstanceNumber SAP SAP Dialog 'D' Instance Application Server Instance Number. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" $VMName = "ts2-db" New-AzSAPSystemSAPDialogInstanceApplicationServerLinux -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPApplicationInstanceNumber 1 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [ValidateLength(1, 2)] [string] $SAPApplicationInstanceNumber ) BEGIN {} PROCESS { try { $SAPApplicationInstanceType = "SAP_D" $tags = @{"SAPSystemSID" = $SAPSID; "SAPApplicationInstanceType" = $SAPApplicationInstanceType ; "SAPApplicationInstanceNumber" = $SAPApplicationInstanceNumber } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPSystemSAPJavaApplicationServerInstanceLinuxTags { <# .SYNOPSIS Set Tags on Standalone SAP Java 'J' Instance Application Server instance on Linux. .DESCRIPTION Set Tags on Standalone SAP Java 'J' Instance Application Server instance on Linux. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPApplicationInstanceNumber SAP SAP Dialog 'D' Instance Application Server Instance Number. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" $VMName = "ts2-db" New-AzSAPSystemSAPJavaApplicationServerInstanceLinuxTags -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPApplicationInstanceNumber 1 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [ValidateLength(1, 2)] [string] $SAPApplicationInstanceNumber ) BEGIN {} PROCESS { try { $SAPApplicationInstanceType = "SAP_J" $tags = @{"SAPSystemSID" = $SAPSID; "SAPApplicationInstanceType" = $SAPApplicationInstanceType ; "SAPApplicationInstanceNumber" = $SAPApplicationInstanceNumber } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPsidadmUserAutomationCredential { <# .SYNOPSIS Creates new Azure Automation credentials for SAP <sid>adm user,need on Windows OS. .DESCRIPTION Creates new Azure Automation credentials for SAP <sid>adm user,need on Windows OS. .PARAMETER AutomationAccountResourceGroupName Azure Automation Account Resource Group Name. .PARAMETER AutomationAccountName Azure Automation Account Name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPsidadmUserPassword SAP <sidadm> user password. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" New-AzSAPsidadmUserAutomationCredential -AutomationAccountResourceGroupName $ResourceGroupName -AutomationAccountName "MyAzureAutomationAccount" -SAPSID "TS1" -SAPsidadmUserPassword "MyPwd" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$AutomationAccountResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $AutomationAccountName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPsidadmUserPassword ) BEGIN {} PROCESS { try { $User = $SAPSID.Trim().ToLower() + "adm" $Password = ConvertTo-SecureString $SAPsidadmUserPassword -AsPlainText -Force $Credential = New-Object -TypeName System.Management.Automation.PSCredential -ArgumentList $User, $Password New-AzAutomationCredential -AutomationAccountName $AutomationAccountName -Name $user -Value $Credential -ResourceGroupName $AutomationAccountResourceGroupName } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPSystemASCSWindowsTags { <# .SYNOPSIS Set Tags on Standalone SAP 'ASCS' instance on Windows. .DESCRIPTION Set Tags on Standalone SAP 'ASCS' instance on Windows. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPApplicationInstanceNumber SAP ASCS Instance Number. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" $VMName = "ts2-db" New-AzSAPSystemASCSWindowsTags -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPApplicationInstanceNumber 1 -PathToSAPControl "S:\usr\sap\ASCS00\exe\sapcontrol.exe" -AutomationAccountResourceGroupName "RG-AutomationAccount" -AutomationAccountName "my-sap-autoamtion-account" -SAPsidadmUserPassword "MyPwd374" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [ValidateLength(1, 2)] [string] $SAPApplicationInstanceNumber, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $PathToSAPControl, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$AutomationAccountResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $AutomationAccountName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPsidadmUserPassword ) BEGIN {} PROCESS { try { $SAPApplicationInstanceType = "SAP_ASCS" # Create VM Tags Write-WithTime "Creating '$SAPApplicationInstanceType' Tags on VM '$VMName' in resource group '$ResourceGroupName' ...." $tags = @{"SAPSystemSID" = $SAPSID; "SAPApplicationInstanceType" = $SAPApplicationInstanceType ; "SAPApplicationInstanceNumber" = $SAPApplicationInstanceNumber; "PathToSAPControl" = $PathToSAPControl } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge # Create Credetnials in Azure Automation Secure Area $User = $SAPSID.Trim().ToLower() + "adm" Write-WithTime "Creating credentials in Azure automation account secure area for user '$User' ...." New-AzSAPsidadmUserAutomationCredential -AutomationAccountResourceGroupName $AutomationAccountResourceGroupName -AutomationAccountName $AutomationAccountName -SAPSID $SAPSID -SAPsidadmUserPassword $SAPsidadmUserPassword } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPSystemSCSWindowsTags { <# .SYNOPSIS Set Tags on Standalone SAP Java 'SCS' instance on Windows. .DESCRIPTION Set Tags on Standalone SAP Java 'SCS' instance on Windows. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPApplicationInstanceNumber SAP ASCS Instance Number. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" $VMName = "ts2-db" New-AzSAPSystemSCSWindowsTags -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPApplicationInstanceNumber 1 -PathToSAPControl "S:\usr\sap\TS1\SCS01\exe\sapcontrol.exe" -AutomationAccountResourceGroupName "RG-AutomationAccount" -AutomationAccountName "my-sap-autoamtion-account" -SAPsidadmUserPassword "MyPwd374" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [ValidateLength(1, 2)] [string] $SAPApplicationInstanceNumber, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $PathToSAPControl, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$AutomationAccountResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $AutomationAccountName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPsidadmUserPassword ) BEGIN {} PROCESS { try { $SAPApplicationInstanceType = "SAP_SCS" # Create VM Tags Write-WithTime "Creating '$SAPApplicationInstanceType' Tags on VM '$VMName' in resource group '$ResourceGroupName' ...." $tags = @{"SAPSystemSID" = $SAPSID; "SAPApplicationInstanceType" = $SAPApplicationInstanceType ; "SAPApplicationInstanceNumber" = $SAPApplicationInstanceNumber; "PathToSAPControl" = $PathToSAPControl } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge # Create Credetnials in Azure Automation Secure Area $User = $SAPSID.Trim().ToLower() + "adm" Write-WithTime "Creating credentials in Azure automation account secure area for user '$User' ...." New-AzSAPsidadmUserAutomationCredential -AutomationAccountResourceGroupName $AutomationAccountResourceGroupName -AutomationAccountName $AutomationAccountName -SAPSID $SAPSID -SAPsidadmUserPassword $SAPsidadmUserPassword } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPSystemDVEBMGSWindowsTags { <# .SYNOPSIS Set Tags on Standalone SAP 'DVEBMGS' instance on Windows. .DESCRIPTION Set Tags on Standalone SAP 'DVEBMGS' instance on Windows. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPApplicationInstanceNumber SAP DVEBMGS Instance Number. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" $VMName = "ts2-db" New-AzSAPSystemDVEBMGSWindows -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPApplicationInstanceNumber 1 -PathToSAPControl "S:\usr\sap\TS1\J01\exe\sapcontrol.exe" -AutomationAccountResourceGroupName "rg-autom-account" -AutomationAccountName "sap-automat-acc" -SAPsidadmUserPassword "MyPass789j$&" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [ValidateLength(1, 2)] [string] $SAPApplicationInstanceNumber, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $PathToSAPControl, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$AutomationAccountResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $AutomationAccountName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPsidadmUserPassword ) BEGIN {} PROCESS { try { $SAPApplicationInstanceType = "SAP_DVEBMGS" # Create VM Tags Write-WithTime "Creating '$SAPApplicationInstanceType' Tags on VM '$VMName' in resource group '$ResourceGroupName' ...." $tags = @{"SAPSystemSID" = $SAPSID; "SAPApplicationInstanceType" = $SAPApplicationInstanceType ; "SAPApplicationInstanceNumber" = $SAPApplicationInstanceNumber; "PathToSAPControl" = $PathToSAPControl } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge # Create Credetnials in Azure Automation Secure Area $User = $SAPSID.Trim().ToLower() + "adm" Write-WithTime "Creating credentials in Azure automation account secure area for user '$User' ...." New-AzSAPsidadmUserAutomationCredential -AutomationAccountResourceGroupName $AutomationAccountResourceGroupName -AutomationAccountName $AutomationAccountName -SAPSID $SAPSID -SAPsidadmUserPassword $SAPsidadmUserPassword } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPSystemSAPDialogInstanceApplicationServerWindowsTags { <# .SYNOPSIS Set Tags on Standalone Dialog Instance Application Server instance on Windows. .DESCRIPTION Set Tags on Standalone Dialog Instance Application Server instance on Windows. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPApplicationInstanceNumber SAP 'D' Dialog Instance Application Server Instance Number. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-eastus2" $VMName = "ts2-di0" New-AzSAPSystemSAPDialogInstanceApplicationServerWindowsTags -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPApplicationInstanceNumber 1 -PathToSAPControl "S:\usr\sap\TS1\J01\exe\sapcontrol.exe" -AutomationAccountResourceGroupName "rg-autom-account" -AutomationAccountName "sap-automat-acc" -SAPsidadmUserPassword "MyPass789j$&" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [ValidateLength(1, 2)] [string] $SAPApplicationInstanceNumber, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $PathToSAPControl, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$AutomationAccountResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $AutomationAccountName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPsidadmUserPassword ) BEGIN {} PROCESS { try { $SAPApplicationInstanceType = "SAP_D" # Create VM Tags Write-WithTime "Creating '$SAPApplicationInstanceType' Tags on VM '$VMName' in resource group '$ResourceGroupName' ...." $tags = @{"SAPSystemSID" = $SAPSID; "SAPApplicationInstanceType" = $SAPApplicationInstanceType ; "SAPApplicationInstanceNumber" = $SAPApplicationInstanceNumber; "PathToSAPControl" = $PathToSAPControl } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge # Create Credetnials in Azure Automation Secure Area $User = $SAPSID.Trim().ToLower() + "adm" Write-WithTime "Creating credentials in Azure automation account secure area for user '$User' ...." New-AzSAPsidadmUserAutomationCredential -AutomationAccountResourceGroupName $AutomationAccountResourceGroupName -AutomationAccountName $AutomationAccountName -SAPSID $SAPSID -SAPsidadmUserPassword $SAPsidadmUserPassword } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPSystemSAPJavaApplicationServerInstanceWindowsTags { <# .SYNOPSIS Set Tags on Standalone JavaApplication Server instance on Windows. .DESCRIPTION Set Tags on Standalone Java Application Server instance on Windows. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPApplicationInstanceNumber SAP 'J' Java Application Server Instance Number. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-eastus2" $VMName = "ts2-di0" New-AzSAPSystemSAPJavaApplicationServerInstanceWindowsTags -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPApplicationInstanceNumber 1 -PathToSAPControl "S:\usr\sap\AB1\J01\exe\sapcontrol.exe" -AutomationAccountResourceGroupName "rg-autom-account" -AutomationAccountName "sap-automat-acc" -SAPsidadmUserPassword "MyPass789j$&" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [ValidateLength(1, 2)] [string] $SAPApplicationInstanceNumber, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $PathToSAPControl, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$AutomationAccountResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $AutomationAccountName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPsidadmUserPassword ) BEGIN {} PROCESS { try { $SAPApplicationInstanceType = "SAP_J" # Create VM Tags Write-WithTime "Creating '$SAPApplicationInstanceType' Tags on VM '$VMName' in resource group '$ResourceGroupName' ...." $tags = @{"SAPSystemSID" = $SAPSID; "SAPApplicationInstanceType" = $SAPApplicationInstanceType ; "SAPApplicationInstanceNumber" = $SAPApplicationInstanceNumber; "PathToSAPControl" = $PathToSAPControl } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge # Create Credetnials in Azure Automation Secure Area $User = $SAPSID.Trim().ToLower() + "adm" Write-WithTime "Creating credentials in Azure automation account secure area for user '$User' ...." New-AzSAPsidadmUserAutomationCredential -AutomationAccountResourceGroupName $AutomationAccountResourceGroupName -AutomationAccountName $AutomationAccountName -SAPSID $SAPSID -SAPsidadmUserPassword $SAPsidadmUserPassword } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPStandaloneSQLServerTags { <# .SYNOPSIS Set Tags on Standalone SAP SQL Server. .DESCRIPTION Set Tags on Standalone SAP SQL Server in distributed SAP installation. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID, SAPSID. .PARAMETER DBInstanceName SQL Server DB Instance Name. Empty string is deafult SQL Server instance. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" $VMName = "ts2-db" New-AzSAPStandaloneSQLServerTags -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -DBInstanceName $DBInstanceName #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory=$True, HelpMessage="SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3,3)] [string] $SAPSID, [Parameter(Mandatory=$false, HelpMessage="SQL Server DB Instance Name. Empty string is deafult SQL instance name.")] [string] $DBInstanceName = "" ) BEGIN {} PROCESS { try { $SAPDBMSType = "SQLServer" $tags = @{"SAPSystemSID" = $SAPSID; "DBInstanceName" = $DBInstanceName; "SAPDBMSType" = $SAPDBMSType; } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge } catch { Write-Error $_.Exception.Message } } END {} } function New-AzSAPCentralSystemSQLServerTags { <# .SYNOPSIS Set Tags on Standalone SAP 'ASCS' instance on Windows. .DESCRIPTION Set Tags on Standalone SAP 'ASCS' instance on Windows. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .PARAMETER SAPSID SAP system SID. .PARAMETER SAPApplicationInstanceNumber SAP ASCS Instance Number. .PARAMETER DBInstanceName SQL Server DB Instance Name. Empty string is deafult SQL Server instance. .EXAMPLE # Set Tags on Standalone HANA belonging to an SAP system $ResourceGroupName = "gor-linux-eastus2" $VMName = "ts2-db" New-AzSAPCentralSystemSQLServerTags -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID "TS1" -SAPApplicationInstanceNumber 1 -DBInstanceName TS1 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [ValidateLength(1, 2)] [string] $SAPApplicationInstanceNumber, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $PathToSAPControl, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$AutomationAccountResourceGroupName, [Parameter(Mandatory=$false, HelpMessage="SQL Server DB Instance Name. Empty string is deafult SQL instance name.")] [string] $DBInstanceName = "", [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $AutomationAccountName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPsidadmUserPassword ) BEGIN {} PROCESS { try { $SAPApplicationInstanceType = "SAP_ASCS" $SAPDBMSType = "SQLServer" # Create VM Tags Write-WithTime "Creating '$SAPApplicationInstanceType' Tags on VM '$VMName' in resource group '$ResourceGroupName' ...." $tags = @{"SAPSystemSID" = $SAPSID; "SAPApplicationInstanceType" = $SAPApplicationInstanceType ; "SAPApplicationInstanceNumber" = $SAPApplicationInstanceNumber; "PathToSAPControl" = $PathToSAPControl ; "DBInstanceName" = $DBInstanceName; "SAPDBMSType" = $SAPDBMSType; } $resource = Get-AzResource -ResourceGroupName $ResourceGroupName -ResourceName $VMName #New-AzTag -ResourceId $resource.id -Tag $tags Update-AzTag -ResourceId $resource.id -Tag $tags -Operation Merge # Create Credetnials in Azure Automation Secure Area $User = $SAPSID.Trim().ToLower() + "adm" Write-WithTime "Creating credentials in Azure automation account secure area for user '$User' ...." New-AzSAPsidadmUserAutomationCredential -AutomationAccountResourceGroupName $AutomationAccountResourceGroupName -AutomationAccountName $AutomationAccountName -SAPSID $SAPSID -SAPsidadmUserPassword $SAPsidadmUserPassword } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzAutomationSAPPSCredential { <# .SYNOPSIS Get Azure Automation Account credential user name and password. .DESCRIPTION Get Azure Automation Account credential user name and password. .PARAMETER CredentialName Credential Name. .EXAMPLE Get-AzAutomationSAPPSCredential -CredentialName "pr1adm" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $CredentialName ) BEGIN {} PROCESS { try { $myCredential = Get-AutomationPSCredential -Name $CredentialName $userName = $myCredential.UserName $securePassword = $myCredential.Password $password = $myCredential.GetNetworkCredential().Password write-output "user name: $userName" write-output "password : $password" $obj = New-Object -TypeName psobject $obj | add-member -NotePropertyName "UserName" -NotePropertyValue $userName $obj | add-member -NotePropertyName "Password" -NotePropertyValue $password Write-Output $obj } catch { Write-Error $_.Exception.Message } } END {} } function Stop-AzSAPApplicationServerLinux { <# .SYNOPSIS Stop SAP Application server on Linux. .DESCRIPTION Stop SAP Application server on Linux. .PARAMETER ResourceGroupName Resource Group Name of the SAP instance VM. .PARAMETER VMName VM name where SAP instance is installed. .PARAMETER SAPInstanceNumber SAP Instance Number to Connect .PARAMETER SAPSID SAP SID .PARAMETER SoftShutdownTimeInSeconds Soft shutdown time for SAP system to stop. .EXAMPLE Stop-AzSAPApplicationServerLinux -ResourceGroupName "myRG" -VMName SAPApServerVM -SAPInstanceNumber 0 -SAPSID "TS2" -SoftShutdownTimeInSeconds 180 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateRange(0, 99)] [ValidateLength(1, 2)] [string] $SAPInstanceNumber, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $False)] [int] $SoftShutdownTimeInSeconds = "300", [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False, [switch] $PrintOutputWithWriteHost ) BEGIN {} PROCESS { try { $SAPSidUser = $SAPSID.ToLower() + "adm" # Stop SAP ABAP Application Server if ($PrintOutputWithWriteHost) { Write-WithTime_Using_WriteHost "Stopping SAP SID '$SAPSID' application server with instance number '$SAPInstanceNumber' on VM '$VMName' , with application time out $SoftShutdownTimeInSeconds seconds ..." }else { Write-WithTime "Stopping SAP SID '$SAPSID' application server with instance number '$SAPInstanceNumber' on VM '$VMName' , with application time out $SoftShutdownTimeInSeconds seconds ..." } $Command = "su --login $SAPSidUser -c 'sapcontrol -nr $SAPInstanceNumber -function Stop $SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds'" if ($PrintExecutionCommand -eq $True) { if ($PrintOutputWithWriteHost) { Write-WithTime_Using_WriteHost "Executing command '$Command' " }else { Write-WithTime "Executing command '$Command' " } } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunShellScript -ScriptPath command.txt $ret.Value[0].Message [int] $SleepTime = $SoftShutdownTimeInSeconds + 60 if ($PrintOutputWithWriteHost) { Write-WithTime_Using_WriteHost "Waiting $SoftShutdownTimeInSeconds seconds for SAP application server with SAP SID '$SAPSID' and instance number '$SAPInstanceNumber' to stop ..." }else { Write-WithTime "Waiting $SoftShutdownTimeInSeconds seconds for SAP application server with SAP SID '$SAPSID' and instance number '$SAPInstanceNumber' to stop ..." } Start-Sleep $SleepTime if ($PrintOutputWithWriteHost) { Write-WithTime_Using_WriteHost "SAP Application server with SAP SID '$SAPSID' and instance number '$SAPInstanceNumber' on VM '$VMName' and Azure resource group '$ResourceGroupName' stopped." }else { Write-WithTime "SAP Application server with SAP SID '$SAPSID' and instance number '$SAPInstanceNumber' on VM '$VMName' and Azure resource group '$ResourceGroupName' stopped." } } catch { Write-Error $_.Exception.Message } } END {} } function Stop-AzSAPApplicationServerWindows { <# .SYNOPSIS Stop SAP Application server on Linux. .DESCRIPTION Stop SAP Application server on Linux. .PARAMETER ResourceGroupName Resource Group Name of the SAP instance VM. .PARAMETER VMName VM name where SAP instance is installed. .PARAMETER SAPInstanceNumber SAP Instance Number to Connect .PARAMETER SAPSID SAP SID .PARAMETER SoftShutdownTimeInSeconds Soft shutdown time for SAP system to stop. .EXAMPLE Stop-AzSAPApplicationServerLinux -ResourceGroupName "myRG" -VMName SAPApServerVM -SAPSID "TS2" -SAPInstanceNumber 0 -PathToSAPControl "C:\usr\sap\PR2\D00\exe\sapcontrol.exe" -SAPSidPwd "Mypwd36" -SoftShutdownTimeInSeconds 180 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateLength(1, 2)] [string] $SAPInstanceNumber, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPSidPwd, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $PathToSAPControl, [Parameter(Mandatory = $False)] [int] $SoftShutdownTimeInSeconds = "300", [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False, [switch] $PrintOutputWithWriteHost ) BEGIN {} PROCESS { try { $SAPSidUser = $SAPSID.ToLower() + "adm" # Stop SAP ABAP Application Server if ($PrintOutputWithWriteHost) { Write-WithTime_Using_WriteHost "Stopping SAP SID '$SAPSID' application server with instance number '$SAPInstanceNumber' on VM '$VMName' , with application time out $SoftShutdownTimeInSeconds seconds ..." }else { Write-WithTime "Stopping SAP SID '$SAPSID' application server with instance number '$SAPInstanceNumber' on VM '$VMName' , with application time out $SoftShutdownTimeInSeconds seconds ..." } $Command = "$PathToSAPControl -nr $SAPInstanceNumber -user $SAPSidUser '$SAPSidPwd' -function Stop $SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds" $CommandToPrint = "$PathToSAPControl -nr $SAPInstanceNumber -user $SAPSidUser '***pwd****' -function Stop $SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds" if ($PrintExecutionCommand -eq $True) { if ($PrintOutputWithWriteHost) { Write-WithTime_Using_WriteHost "Executing command '$CommandToPrint' " }else { Write-WithTime "Executing command '$CommandToPrint' " } } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunPowerShellScript -ScriptPath command.txt $ret.Value[0].Message [int] $SleepTime = $SoftShutdownTimeInSeconds + 60 if ($PrintOutputWithWriteHost) { Write-WithTime_Using_WriteHost "Waiting $SoftShutdownTimeInSeconds seconds for SAP application server with SAP SID '$SAPSID' and instance number '$SAPInstanceNumber' to stop ..." }else { Write-WithTime "Waiting $SoftShutdownTimeInSeconds seconds for SAP application server with SAP SID '$SAPSID' and instance number '$SAPInstanceNumber' to stop ..." } Start-Sleep $SleepTime if ($PrintOutputWithWriteHost) { Write-WithTime_Using_WriteHost "SAP Application server with SAP SID '$SAPSID' and instance number '$SAPInstanceNumber' on VM '$VMName' and Azure resource group '$ResourceGroupName' stopped." }else { Write-WithTime "SAP Application server with SAP SID '$SAPSID' and instance number '$SAPInstanceNumber' on VM '$VMName' and Azure resource group '$ResourceGroupName' stopped." } } catch { Write-Error $_.Exception.Message } } END {} } function Start-AzSAPApplicationServerLinux { <# .SYNOPSIS Start SAP Application server on Linux. .DESCRIPTION Start SAP Application server on Linux. .PARAMETER ResourceGroupName Resource Group Name of the SAP instance VM. .PARAMETER VMName VM name where SAP instance is installed. .PARAMETER SAPInstanceNumber SAP Instance Number to Connect .PARAMETER SAPSID SAP SID .PARAMETER WaitTime WaitTime for SAP application server to start. .EXAMPLE Start-AzSAPApplicationServerLinux -ResourceGroupName "myRG" -VMName SAPApServerVM -SAPInstanceNumber 0 -SAPSID "TS2" -WaitTime 180 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateLength(1, 2)] [string] $SAPInstanceNumber, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $False)] [int] $WaitTime = "300", [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { $SAPSidUser = $SAPSID.ToLower() + "adm" # Stop SAP ABAP Application Server Write-WithTime "Starting SAP SID '$SAPSID' application server with instance number '$SAPInstanceNumber' on VM '$VMName' , with wait time $WaitTime seconds ..." $Command = "su --login $SAPSidUser -c 'sapcontrol -nr $SAPInstanceNumber -function Start'" if ($PrintExecutionCommand -eq $True) { Write-WithTime "Executing command '$Command' " } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunShellScript -ScriptPath command.txt $ret.Value[0].Message Write-WithTime "Waiting $WaitTime seconds for SAP application server with SAP SID '$SAPSID' and instance number '$SAPInstanceNumber' to start ..." Start-Sleep $WaitTime Write-WithTime "SAP Application server with SAP SID '$SAPSID' and instance number '$SAPInstanceNumber' on VM '$VMName' and Azure resource group '$ResourceGroupName' started." } catch { Write-Error $_.Exception.Message } } END {} } function Start-AzSAPApplicationServerWindows { <# .SYNOPSIS Start SAP Application server on Windows. .DESCRIPTION Start SAP Application server on Windows. .PARAMETER ResourceGroupName Resource Group Name of the SAP instance VM. .PARAMETER VMName VM name where SAP instance is installed. .PARAMETER SAPSID SAP SID .PARAMETER SAPInstanceNumber SAP Instance Number to Connect .PARAMETER SAPSidPwd SAP <sid>adm user password .PARAMETER PathToSAPControl Full path to SAP Control executable. .PARAMETER SoftShutdownTimeInSeconds Soft shutdown time for SAP system to stop. .EXAMPLE Start-AzSAPApplicationServerWindows -ResourceGroupName "myRG" -VMName SAPApServerVM -SAPSID "TS2" -SAPInstanceNumber 0 -PathToSAPControl "C:\usr\sap\PR2\D00\exe\sapcontrol.exe" -SAPSidPwd "Mypwd36" -WaitTime 180 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateLength(1, 2)] [string] $SAPInstanceNumber, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $SAPSidPwd, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $PathToSAPControl, [Parameter(Mandatory = $False)] [int] $WaitTime = "300", [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { $SAPSidUser = $SAPSID.ToLower() + "adm" # Start SAP ABAP Application Server Write-WithTime "Starting SAP SID '$SAPSID' application server with instance number '$SAPInstanceNumber' on VM '$VMName' , with wait time $WaitTime seconds ..." $Command = "$PathToSAPControl -nr $SAPInstanceNumber -user $SAPSidUser '$SAPSidPwd' -function Start" $CommandToPrint = "$PathToSAPControl -nr $SAPInstanceNumber -user $SAPSidUser '***pwd***' -function Start" if ($PrintExecutionCommand -eq $True) { Write-WithTime "Executing command '$CommandToPrint' " } $Command | Out-File "command.txt" $ret = Invoke-AzVMRunCommand -ResourceGroupName $ResourceGroupName -VMName $VMName -CommandId RunPowerShellScript -ScriptPath command.txt $ret.Value[0].Message Write-WithTime "Waiting $WaitTime seconds for SAP application server with SAP SID '$SAPSID' and instance number '$SAPInstanceNumber' to start ..." Start-Sleep $WaitTime Write-WithTime "SAP Application server with SAP SID '$SAPSID' and instance number '$SAPInstanceNumber' on VM '$VMName' and Azure resource group '$ResourceGroupName' started." } catch { Write-Error $_.Exception.Message } } END {} } function Start-AzSAPApplicationServer { <# .SYNOPSIS Start SAP application server running on VM. .DESCRIPTION Start SAP application server running on VM. .PARAMETER ResourceGroupName Azure Resource Group Name .PARAMETER ResourceGroupName Azure VM Name .PARAMETER WaitTime Number of seconds to wait for SAP system to start. .PARAMETER PrintExecutionCommand If set to $True it will pring the run command. .EXAMPLE Start-AzSAPApplicationServer -ResourceGroupName "AzResourceGroup" -VMName "VMname" -WaitTime 60 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $False)] [int] $WaitTime = "300", [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { # get SAP server datza from VM Tags $SAPApplicationServerData = Get-AzSAPApplicationInstanceData -ResourceGroupName $ResourceGroupName -VMName $VMName #Write-Host $SAPApplicationServerData if ($SAPApplicationServerData.OSType -eq "Linux") { Start-AzSAPApplicationServerLinux -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPInstanceNumber $SAPApplicationServerData.SAPApplicationInstanceNumber -SAPSID $SAPApplicationServerData.SAPSID -WaitTime $WaitTime -PrintExecutionCommand $PrintExecutionCommand } elseif ($SAPAPPLicationServerData.OSType -eq "Windows") { Start-AzSAPApplicationServerWindows -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID $SAPApplicationServerData.SAPSID -SAPInstanceNumber $SAPApplicationServerData.SAPApplicationInstanceNumber -PathToSAPControl $SAPApplicationServerData.PathToSAPControl -SAPSidPwd $SAPApplicationServerData.SAPSIDPassword -WaitTime $WaitTime -PrintExecutionCommand $PrintExecutionCommand } } catch { Write-Error $_.Exception.Message } } END {} } function Stop-AzSAPApplicationServer { <# .SYNOPSIS Start SAP application server running on VM. .DESCRIPTION Start SAP application server running on VM. .PARAMETER ResourceGroupName Azure Resource Group Name .PARAMETER ResourceGroupName Azure VM Name .PARAMETER SoftShutdownTimeInSeconds Soft shutdown time for SAP system to stop. .PARAMETER PrintExecutionCommand If set to $True it will pring the run command. .EXAMPLE Start-AzSAPApplicationServer -ResourceGroupName "AzResourceGroup" -VMName "VMname" -WaitTime 60 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $False)] [int] $SoftShutdownTimeInSeconds = "300", [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False ) BEGIN {} PROCESS { try { # get SAP server data from VM Tags $SAPApplicationServerData = Get-AzSAPApplicationInstanceData -ResourceGroupName $ResourceGroupName -VMName $VMName #Write-Host $SAPApplicationServerData if ($SAPApplicationServerData.OSType -eq "Linux") { Stop-AzSAPApplicationServerLinux -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPInstanceNumber $SAPApplicationServerData.SAPApplicationInstanceNumber -SAPSID $SAPApplicationServerData.SAPSID -SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds -PrintExecutionCommand $PrintExecutionCommand } elseif ($SAPAPPLicationServerData.OSType -eq "Windows") { Stop-AzSAPApplicationServerWindows -ResourceGroupName $ResourceGroupName -VMName $VMName -SAPSID $SAPApplicationServerData.SAPSID -SAPInstanceNumber $SAPApplicationServerData.SAPApplicationInstanceNumber -PathToSAPControl $SAPApplicationServerData.PathToSAPControl -SAPSidPwd $SAPApplicationServerData.SAPSIDPassword -SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds -PrintExecutionCommand $PrintExecutionCommand } } catch { Write-Error $_.Exception.Message } } END {} } function Confirm-AzResoureceGroupExist { <# .SYNOPSIS Check if Azure resource Group exists. .DESCRIPTION Check if Azure resource Group exists. .PARAMETER ResourceGroupName Azure Resource Group Name .EXAMPLE Confirm-AzResoureceGroupExist -ResourceGroupName "AzResourceGroupName" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName ) BEGIN {} PROCESS { try { $RG = Get-AzResourceGroup -Name $ResourceGroupName -ErrorVariable -notPresent -ErrorAction SilentlyContinue if ($RG -eq $null) { Write-Error "Azure resource group '$ResourceGroupName' do not exists. Check your input parameter 'RESOURCEGROUPNAME'." exit } else { Write-WithTime "Azure resource group '$ResourceGroupName' exist." } } catch { Write-Error $_.Exception.Message } } END {} } function Confirm-AzVMExist { <# .SYNOPSIS Check if Azure VM exists. .DESCRIPTION Check if Azure VM exists. .PARAMETER ResourceGroupName Azure Resource Group Name .PARAMETER VMName Azure VM Name .EXAMPLE Confirm-AzVMExist -ResourceGroupName "AzResourceGroupName" -VMName "MyVMName" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName ) BEGIN {} PROCESS { try { $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName -ErrorVariable -notPresent -ErrorAction SilentlyContinue if ($VM -eq $null) { Write-Error "Azure virtual machine '$VMName' in Azure resource group '$ResourceGroupName' do not exists. Check your VM name and resource group name input parameter." exit } else { Write-WithTime_Using_WriteHost "Azure VM '$VMName' in Azure resource group '$ResourceGroupName' exist." } } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzSAPApplicationInstanceData { <# .SYNOPSIS Get SAP Application Instance Data from tags from one VM. .DESCRIPTION Get SAP Application Instance Data from tags from one VM. .PARAMETER ResourceGroupName Resource Group Name of the VM. .PARAMETER VMName VM name. .EXAMPLE # Collect SAP VM instances with the same Tag $SAPAPPLicationServerData = Get-AzSAPApplicationInstanceData -ResourceGroupName "AzResourceGroup" -VMName "SAPApplicationServerVMName" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName ) BEGIN {} PROCESS { try { $SAPSID = Get-AzVMTagValue -ResourceGroupName $ResourceGroupName -VMName $VMName -KeyName "SAPSystemSID" if ($SAPSID -eq $null) { Throw "Tag 'SAPSystemSID' on VM '$VMName' in Azure resource group $ResourceGroupName not found." } #Write-Host "SAPSID = $SAPSID" $SAPApplicationInstanceNumber = Get-AzVMTagValue -ResourceGroupName $ResourceGroupName -VMName $VMName -KeyName "SAPApplicationInstanceNumber" if ($SAPApplicationInstanceNumber -eq $null) { Throw "Tag 'SAPApplicationInstanceNumber' on VM '$VMName' in Azure resource group $ResourceGroupName not found." } #Write-Host "SAPApplicationInstanceNumber = $SAPApplicationInstanceNumber" $SAPApplicationInstanceType = Get-AzVMTagValue -ResourceGroupName $ResourceGroupName -VMName $VMName -KeyName "SAPApplicationInstanceType" if ($SAPApplicationInstanceType -eq $null) { Throw "Tag 'SAPApplicationInstanceType' on VM '$VMName' in Azure resource group $ResourceGroupName not found." } #Write-Host "SAPApplicationInstanceType = $SAPApplicationInstanceType" If (-Not (Test-SAPApplicationInstanceIsApplicationServer $SAPApplicationInstanceType)) { Throw "SAP Instance type '$SAPApplicationInstanceType' is not an SAP application server." } $OSType = Get-AzVMOSType -VMName $VMName -ResourceGroupName $ResourceGroupName if ($OSType -eq "Windows") { $SIDADMUser = $SAPSID.Trim().ToLower() + "adm" $SAPSIDCredentials = Get-AzAutomationSAPPSCredential -CredentialName $SIDADMUser $SAPSIDPassword = $SAPSIDCredentials.Password $PathToSAPControl = Get-AzVMTagValue -ResourceGroupName $ResourceGroupName -VMName $VMName -KeyName "PathToSAPControl" } $obj = New-Object -TypeName psobject $obj | add-member -NotePropertyName "SAPSID" -NotePropertyValue $SAPSID $obj | add-member -NotePropertyName "VMName" -NotePropertyValue $VMName $obj | add-member -NotePropertyName "ResourceGroupName" -NotePropertyValue $ResourceGroupName $obj | add-member -NotePropertyName "SAPApplicationInstanceNumber" -NotePropertyValue $SAPApplicationInstanceNumber $obj | add-member -NotePropertyName "SAPInstanceType" -NotePropertyValue $SAPApplicationInstanceType $obj | add-member -NotePropertyName "OSType" -NotePropertyValue $OSType if ($OSType -eq "Windows") { $obj | add-member -NotePropertyName "SAPSIDPassword" -NotePropertyValue $SAPSIDPassword $obj | add-member -NotePropertyName "PathToSAPControl" -NotePropertyValue $PathToSAPControl } # Return formated object Write-Output $obj } catch { Write-Error $_.Exception.Message } } END {} } function Test-SAPApplicationInstanceIsApplicationServer { <# .SYNOPSIS If SAP Application Instance is application server['SAP_D','SAP_DVEBMGS','SAP_J'] , retruns $True. Otherwise return $False. .DESCRIPTION If SAP Application Instance is application server['SAP_D','SAP_DVEBMGS','SAP_J'] , retruns $True. Otherwise return $False. .PARAMETER SAPApplicationInstanceType SAP ApplicationInstance Type ['SAP_D','SAP_DVEBMGS','SAP_J'] .EXAMPLE Test-SAPApplicationInstanceIsApplicationServer "SAP_D" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$SAPApplicationInstanceType ) BEGIN {} PROCESS { try { switch ($SAPApplicationInstanceType) { "SAP_D" { return $True } "SAP_DVEBMGS" { return $True } "SAP_J" { return $True } Default { return $False } } } catch { Write-Error $_.Exception.Message } } END {} } function Stop-AzVMAndPrintStatus { <# .SYNOPSIS Stop Azure VM and printa status. .DESCRIPTION Stop Azure VM and printa status. .PARAMETER ResourceGroupName VM Azure Resource Group Name. .PARAMETER VMName VM Name. .EXAMPLE Stop-AzVMAndPrintStatus -ResourceGroupName "PR1-RG" -VMName "PR1-DB" #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName ) BEGIN {} PROCESS { try { Write-WithTime "Stopping VM '$VMName' in Azure Resource Group '$ResourceGroupName' ..." Stop-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName -WarningAction "SilentlyContinue" -Force $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName -Status $VMStatus = $VM.Statuses[1].DisplayStatus Write-WithTime "Virtual Machine '$VMName' status: $VMStatus" } catch { Write-Error $_.Exception.Message } } END {} } function Start-AzVMAndPrintStatus { <# .SYNOPSIS Start Azure VM and printa status. .DESCRIPTION Start Azure VM and printa status. .PARAMETER ResourceGroupName VM Azure Resource Group Name. .PARAMETER VMName VM Name. .PARAMETER SleepTimeAfterVMStart Wait time in seconds after VM is started. .EXAMPLE # Start VM and wait for 60 seconds [default] Start-AzVMAndPrintStatus -ResourceGroupName "PR1-RG" -VMName "PR1-DB" .EXAMPLE # Start VM and do not wait Start-AzVMAndPrintStatus -ResourceGroupName "PR1-RG" -VMName "PR1-DB" -SleepTimeAfterVMStart 0 #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMName, [Parameter(Mandatory = $false)] [int] $SleepTimeAfterVMStart = 60 ) BEGIN {} PROCESS { try { # Start VM Write-WithTime "Starting VM '$VMName' in Azure Resource Group '$ResourceGroupName' ..." Start-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName -WarningAction "SilentlyContinue" $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName -Status $VMStatus = $VM.Statuses[1].DisplayStatus #Write-Host "" Write-WithTime "Virtual Machine '$VMName' status: $VMStatus" # Wait for $SleepTimeAfterVMStart seconds after VM is started Start-Sleep $SleepTimeAfterVMStart } catch { Write-Error $_.Exception.Message } } END {} } # https://docs.microsoft.com/en-us/azure/load-balancer/quickstart-create-standard-load-balancer-powershell # https://docs.microsoft.com/en-us/azure/load-balancer/upgrade-basicinternal-standard Function Move-AzVMToAvailabilitySetAndOrProximityPlacementGroup { <# .SYNOPSIS Moves a VM into an: - Availability Set - Proximity Placement Group - Availability Set and Proximity Placement Group .DESCRIPTION The script deletes the VM and recreates it preserving networking and storage configuration. There is no need to reinstall the operating system. IMPORTANT: The script does not preserve VM extensions. Also, the script does not spport VMs with public IP addresses. Zonal VMs are not supported, because you cannot combine Availability Set and Zone. VM, Availabity Set and VM must be members of the same Azure resource group. Proximity Placement Group can be member of some other resource group. IMPORTANT: SAP context You can use the script to: - Move SAP Application Servers to new Availability Set - Move SAP Application Servers to new Availability Set and Proximity Placement Group: - It can be used in Azure Zones context, where you move SAP Application Server to Zone. One group of SAP Application Servers are indirectly part of Zone1 (via AvSet1 and PPGZone1), and other part of SAP Application Servers are indirectly part of Zone2 (via AvSet2 and PPGZone2). First ancor VM (this is DBMS VM) is alreday deplyed in a Zone and same Proximity Placement Group - It can be used to move an SAP Application Server from current AvSet1 and PPGZone1 to AvSet2 and PPGZone2, e.g. indirectly from Zone1 to Zone2. First ancor VM (this is DBMS VM) is alreday deplyed in a Zone2 and same Proximity Placement Group 2 (PPGZone2). - It can be used in non-Zonal context, where group of SAP Application Servers are part of new Av Set and Proximity Placement Group, together with the SAP ASCS and DB VM that are part of one SAP SID. - Group all VMs to Proximity Placement Group .PARAMETER VMResourceGroupName Resource Group Name of the VM, and Availability Set. .PARAMETER VirtualMachineName Virtual Machine Name. .PARAMETER AvailabilitySetName Availability Set Name. .PARAMETER PPGResourceGroupName Resource Group Name of the Proximity Placemen tGroup .PARAMETER ProximityPlacementGroupName Proximity PlacementGroup Name .PARAMETER DoNotCopyTags Switch paramater. If specified, VM tags will NOT be copied. .PARAMETER NewVMSize If NewVMSize is specified , VM will be set to a new VM size. Otherwise, original VM size will be used. .PARAMETER KeepSameDiskNames Keep the original disk names. If not specified, generate new disk names. .PARAMETER Force Forces the command to run without asking for user confirmation. .EXAMPLE # THis is example that can be used for moving (indirectly via PPG) SAP Application Servers to a desired Azure zone # Move VM 'VM1' to Azure Availability Set and Proximity Placement GroupName (PPG) # Proximity Placement Group must alreday exist # Availability Set must exist and be associated to Proximity Placement Group # VM tags will not be copied : swicth parameter -DoNotCopyTags is set # If Av Set doesn't exist, you can create it like this: $Location = "eastus" $AzureAvailabilitySetName = "TargetAvSetZone1" $ResourceGroupName = "gor-Zone-Migration" $ProximityPlacementGroupName = "PPGZone1" $PPGResourceGroupName "MyPPGResourceGroupName" $PlatformFaultDomainCount = 3 $PlatformUpdateDomainCount = 2 $PPG = Get-AzProximityPlacementGroup -ResourceGroupName $PPGResourceGroupName -Name $ProximityPlacementGroupName New-AzAvailabilitySet -Location $Location -Name $AzureAvailabilitySetName -ResourceGroupName $ResourceGroupName -PlatformFaultDomainCount $PlatformFaultDomainCount -PlatformUpdateDomainCount $PlatformUpdateDomainCount -ProximityPlacementGroupId $PPG.Id -Sku Aligned # Move VM Move-AzVMToAvailabilitySetAndOrProximityPlacementGroup -VMResourceGroupName "gor-Zone-Migration" -VirtualMachineName "VM1" -AvailabilitySetName "TargetAvSetZone1" -ProximityPlacementGroupName "PPGZone1" -PPGResourceGroupName "MyPPGResourceGroupName" -DoNotCopyTags .EXAMPLE # Move VM to Proximity Placement Group # Proximity Placement Group must alreday exist # VM will be set to NEW VM size, e.g. not original VM size , because 'NewVMSize' is specified Move-AzVMToAvailabilitySetAndOrProximityPlacementGroup -ResourceGroupName "gor-Zone-Migration" -VirtualMachineName "VM1" -ProximityPlacementGroupName "PPGZone1" -NewVMSize "Standard_E4s_v3" .EXAMPLE # Move VM to Azure Availability Set # If Av Set doesn't exist, you can create it like this: # If Av Set doesn't exist, you can create it like this: $Location = "westeurope" $AzureAvailabilitySetName = "sap-app-servers-zone1" $VMResourceGroupName = "gor-Zone-Migration" $ProximityPlacementGroupName = "PPGZone1" $PPGResourceGroupName "MyPPGResourceGroupName" $PlatformFaultDomainCount = 3 $PlatformUpdateDomainCount = 2 $PPG = Get-AzProximityPlacementGroup -ResourceGroupName $PPGResourceGroupName -Name $ProximityPlacementGroupName New-AzAvailabilitySet -Location $Location -Name $AzureAvailabilitySetName -ResourceGroupName $VMResourceGroupName -PlatformFaultDomainCount $PlatformFaultDomainCount -PlatformUpdateDomainCount $PlatformUpdateDomainCount -ProximityPlacementGroupId $PPG.Id -Sku Aligned .EXAMPLE # Move SAP application server VM to Azure Availability Set and PPG # If Av Set doesn't exist, you can create it like this: # If Av Set doesn't exist, you can create it like this: $Location = "westeurope" $AzureAvailabilitySetName = "sap-app-servers-zone1" $VMResourceGroupName = "gor-Zone-Migration" $ProximityPlacementGroupName = "PPGZone1" $PPGResourceGroupName "MyPPGResourceGroupName" $PlatformFaultDomainCount = 3 $PlatformUpdateDomainCount = 2 $PPG = Get-AzProximityPlacementGroup -ResourceGroupName $PPGResourceGroupName -Name $ProximityPlacementGroupName New-AzAvailabilitySet -Location $Location -Name $AzureAvailabilitySetName -ResourceGroupName $VMResourceGroupName -PlatformFaultDomainCount $PlatformFaultDomainCount -PlatformUpdateDomainCount $PlatformUpdateDomainCount -ProximityPlacementGroupId $PPG.Id -Sku Aligned # Option 1 - you will be asked for confirmation for stopping VM and removing the VM definitition # This will move SAP application server VM to new Availability Set and PPG $VMName = "sap-as-3" Move-AzVMToAvailabilitySetAndOrProximityPlacementGroup -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VMName -AvailabilitySetName $AzureAvailabilitySetName -PPGResourceGroupName $PPGResourceGroupName -ProximityPlacementGroupName $ProximityPlacementGroupName # Option 2 - you will NOT be asked for confirmation for stopping VM and removing the VM definitition # This will move SAP application server VM to new Availability Set and PPG Move-AzVMToAvailabilitySetAndOrProximityPlacementGroup -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VMName -AvailabilitySetName $AzureAvailabilitySetName -PPGResourceGroupName $PPGResourceGroupName -ProximityPlacementGroupName $ProximityPlacementGroupName -Force .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VMResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory=$False)] [string] $AvailabilitySetName, [Parameter(Mandatory=$False)] [string] $PPGResourceGroupName, [Parameter(Mandatory=$False)] [string] $ProximityPlacementGroupName, [switch] $DoNotCopyTags, [Parameter(Mandatory=$False)] [string] $NewVMSize, [switch] $KeepSameDiskNames, [switch] $Force ) BEGIN{ $AvailabilitySetExist = $False $ProximityPlacementGroupExist = $False } PROCESS{ try{ if(($AvailabilitySetName -eq "") -and ($ProximityPlacementGroupName -eq "")){ Write-Error "Availability Set Name and Proximity Placement Group Name are not specified. You need to specify at least one of the parameters." return } # Proximity Placement Group must exist if (($ProximityPlacementGroupName -ne "") -and ($PPGResourceGroupName -ne "")){ $ppg = Get-AzProximityPlacementGroup -ResourceGroupName $PPGResourceGroupName -Name $ProximityPlacementGroupName -ErrorAction Stop $ProximityPlacementGroupExist = $True Write-WithTime_Using_WriteHost "Proximity Placement Group '$ProximityPlacementGroupName' in resource group '$PPGResourceGroupName' exist." #-PrependEmptyLine }else{ if (($ProximityPlacementGroupName -ne "") -and ($PPGResourceGroupName -eq "")) { Throw "Only '-ProximityPlacementGroupName' PowerShell parameter is specified. Please specify also parameter '-PPGResourceGroupName'." }elseif (($ProximityPlacementGroupName -eq "") -and ($PPGResourceGroupName -ne "")) { Throw "Only '-PPGResourceGroupName' PowerShell parameter is specified. Please specify also parameter '-ProximityPlacementGroupName'." }else{ Write-WithTime_Using_WriteHost "Proximity Placement Group is not specified." #-PrependEmptyLine } } # Availabity Set Must exist if ($AvailabilitySetName -ne ""){ $AvailabilitySet = Get-AzAvailabilitySet -ResourceGroupName $VMResourceGroupName -Name $AvailabilitySetName -ErrorAction Stop $AvailabilitySetExist = $True Write-WithTime_Using_WriteHost "Availability Set '$AvailabilitySetName' in Azure resource group '$VMResourceGroupName' exist." #-PrependEmptyLine # Check if Av Set is in the proper PPG if($ProximityPlacementGroupExist){ if($AvailabilitySet.ProximityPlacementGroup.id -ne $ppg.Id){ Throw "Existing Availability Set '$AvailabilitySetName' is not member of Proximity Placement Group '$ProximityPlacementGroupName'. Please configure Availability Set '$AvailabilitySetName' (go to 'Configuration' tab of '$AvailabilitySetName') to use Proximity Placement Group '$ProximityPlacementGroupName'. " } Write-WithTime_Using_WriteHost "Availability Set '$AvailabilitySetName' is configured in appropriate Proximity Placement Group '$ProximityPlacementGroupName'." #-PrependEmptyLine } # Chekc if Availability Set SKU is 'Aligned' if ($AvailabilitySet.Sku -ne "Aligned" ) { Throw "Existing Availability Set '$AvailabilitySetName' SKU is '$($AvailabilitySet.Sku)'. Adding the VMs with managed disks to non-managed Availability Set is not supported. Please create an Availability Set with 'Aligned' SKU in order to add a VM with managed disks to it." }else{ Write-WithTime_Using_WriteHost "Availability Set '$AvailabilitySetName' has appropriate SKU 'Aligned'." # -PrependEmptyLine } }else{ Write-WithTime_Using_WriteHost "Availability Set is not specified." #-PrependEmptyLine } Write-WithTime_Using_WriteHost "Starting Virtual Machine '$VirtualMachineName' ..." #-PrependEmptyLine $StartVMStatus = Start-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -ErrorAction Stop # Get the VM and check existance Write-WithTime_Using_WriteHost "Getting Virtual Machine '$VirtualMachineName' configuration ..." #-PrependEmptyLine $originalVM = Get-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -ErrorAction Stop [string] $osType = $originalVM.StorageProfile.OsDisk.OsType [string] $location = $originalVM.Location [string] $storageType = $originalVM.StorageProfile.OsDisk.ManagedDisk.StorageAccountType [string] $OSDiskName = $originalVM.StorageProfile.OsDisk.Name $OSDisk = Get-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OSDiskName $OSDiskTags = $OSDisk.Tags # when non-Zonal disk / VM this value is an empty string [string] $VMDiskZone = $originalVM.Zones $VMPlan = $originalVM.Plan $VMSecurityType = $originalVM.SecurityProfile.SecurityType [bool] $VMSecureBootEnabled = $originalVM.SecurityProfile.UefiSettings.SecureBootEnabled [bool] $VMVTpmEnabled = $originalVM.SecurityProfile.UefiSettings.VTpmEnabled $VMLicenseType = $originalVM.LicenseType Write-WithTime_Using_WriteHost "Checking Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' ..." #-PrependEmptyLine $VMStatus = Get-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -Status $GenType = $VMStatus.HyperVGeneration if ($GenType -eq "V1") { Write-WithTime_Using_WriteHost "Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' is 'V1' - VM is Generation 1." #-PrependEmptyLine }elseif ($GenType -eq "V2") { Write-WithTime_Using_WriteHost "Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' is 'V2' - VM is Generation 2." #-PrependEmptyLine } if ($VMSecurityType) { Write-WithTime_Using_WriteHost "VM security type is '$VMSecurityType'." #-PrependEmptyLine Write-WithTime_Using_WriteHost "VM secure boot is set to '$VMSecureBootEnabled'." #-PrependEmptyLine Write-WithTime_Using_WriteHost "VM vTPM (Trusted Platform Module) is set to '$VMVTpmEnabled'." #-PrependEmptyLine }else { Write-WithTime_Using_WriteHost "VM security type is 'Standard'." #-PrependEmptyLine } # Premium V2 disks is not suported Write-WithTime_Using_WriteHost "Checking if virtual machine '$VirtualMachineName' has Azure Premium V2 data disks ... " $VMHasAzurePremiumV2Disks = Test-AzVMHasPremiumV2Disks -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName if ($VMHasAzurePremiumV2Disks) { Throw "VM '$VirtualMachineName' has Azure Azure Premium V2 data disks. It is not possible to convert zonal Azure Premium V2 data disks to regional disks, because Premium V2 are not supported as regional disks." }else { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' has no Azure Premium V2 data disks." } # Ultra disks is not suported Write-WithTime_Using_WriteHost "Checking if virtual machine '$VirtualMachineName' has Azure Ultra data disks ... " $VMHasAzureUltraDisks = Test-AzVMHasUltraDisks -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName if ($VMHasAzureUltraDisks) { Throw "VM '$VirtualMachineName' has Azure Azure Ultra data disks. Azure Ultra data disks are not supported." }else { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' has no Azure Ultra data disks." } # Azure shared disks are not supported Write-WithTime_Using_WriteHost "Checking if virtual machine '$VirtualMachineName' has Azure shared data disks ... " $VMHasAzureSharedDisks = Test-AzVMHasAzureSharedDisks -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName if ($VMHasAzureSharedDisks) { Throw "VM '$VirtualMachineName' has Azure shared disk. Azure shared disks are not supported." }else { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' has no Azure shared data disks." } $IsVMZonal = Test-AzVMIsZonalVM -ResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName # Do not delete OS and Data disks during the VM deletion - set DeleteOption to 'Detach' Set-AzVMDisksDeleteOption -VM $originalVM -DeleteOption "Detach" -ErrorAction Stop # Do not delete NIC cards during the VM deletion - Set NIC Cards to 'Detach' Set-AzVMNICsDeleteOption -VM $originalVM -DeleteOption "Detach" -ErrorAction Stop # Shutdown the original VM $ToStop = $true if(-not $Force){ $ToStop = Get-AzVMStopAnswer -VirtualMachineName $VirtualMachineName -ResourceGroupName $VMResourceGroupName } if($ToStop){ Write-WithTime_Using_WriteHost "Stopping Virtual Machine '$VirtualMachineName' in resource group '$VMResourceGroupName' ..." #-AppendEmptyLine $ReturnStopVM = Stop-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -force -ErrorAction Stop #Write-WithTime_Using_WriteHost "Stopping Virtual Machine '$VirtualMachineName' in resource group '$VMResourceGroupName' stoped." }elseif (!$ToStop) { Return } # Get the VM size $OriginalVMSize = $originalVM.HardwareProfile.VmSize if($NewVMSize -eq ""){ # if $NewVMSIze is not specified, use the orgonal VM size Write-WithTime_Using_WriteHost "VM type is '$OriginalVMSize'." $VMSize = $OriginalVMSize } else{ # if $NewVMSIze is specified, use it as VM size Write-WithTime_Using_WriteHost "Changing VM type from original '$OriginalVMSize' to new type '$NewVMSize' ..." $VMSize = $NewVMSize } # Export original VM configuration Export-VMConfigurationToJSONFile -VM $originalVM # We don't support moving machines with public IPs, since those are zone specific. foreach ($nic in $originalVM.NetworkProfile.NetworkInterfaces) { $thenic = $nic.id $nicname = $thenic.substring($thenic.LastIndexOf("/")+1) $othernic = Get-AzNetworkInterface -name $nicname -ResourceGroupName $VMResourceGroupName foreach ($ipc in $othernic.IpConfigurations) { $pip = $ipc.PublicIpAddress if ($pip) { Throw "Sorry, machines with public IPs are not supported by this script" } } } # Create the basic configuration for the replacement VM with PPG + Av Set if(($AvailabilitySetExist) -and ($ProximityPlacementGroupExist)){ Write-WithTime_Using_WriteHost "Configuring Virtual Machine to use Availability Set '$AvailabilitySetName' and Proximity Placement Group '$ProximityPlacementGroupName' ..." $newVM = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -AvailabilitySetId $AvailabilitySet.Id -ProximityPlacementGroupId $ppg.Id }elseif($AvailabilitySetExist){ Write-WithTime_Using_WriteHost "Configuring Virtual Machine to use Availability Set '$AvailabilitySetName' ..." $newVM = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -AvailabilitySetId $AvailabilitySet.Id }elseif($ProximityPlacementGroupExist){ "Configuring Virtual Machine to use Proximity Placement Group '$ProximityPlacementGroupName' ..." $newVM = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -ProximityPlacementGroupId $ppg.Id } # add VM PLan if exists if($VMPlan){ Write-WithTime_Using_WriteHost "Original VM uses this Plan: Name '$($VMPlan.Name)', Publisher '$($VMPlan.Publisher)', Product '$($VMPlan.Product)', PromotionCode '$($VMPlan.PromotionCode)'." Write-WithTime_Using_WriteHost "Setting the plan to the new VM ..." Set-AzVMPlan -VM $newVM -Name $VMPlan.Name -Publisher $VMPlan.Publisher -Product $VMPlan.Product > $Null #-PromotionCode $VMPlan.PromotionCode } if($IsVMZonal){ # VM IS ZONAL VM # move ZONAL VM to Non Zonal # Snapshot all of the OS and Data disks, create NEW non-zonal disk from snapshot, and add to the VM Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' is ZONAL VM." # snap and copy OS disk if($KeepSameDiskNames){ # Snap and copy the os disk #$snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -DiskName $originalVM.StorageProfile.OsDisk.Name -SourceDiskResourceId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id $snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $OSDisk.ResourceGroupName -Location $location -Disk $OSDisk # Create / Copy the exsiting OS Disk with new name as non-zonal disk Copy-AzUniqueNameDiskFromSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -Snapshot $snapshot -OriginalDiskName $OSDiskName -StorageType $storageType -VMDiskZone $VMDiskZone -DiskNamePosfix "orig" -Tags $OSDiskTags } # Remove the original VM -this is a prerequisit to delete orignial OS and data disks $ToDelete = $true if(-not $Force){ $ToDelete = Get-AzVMDeleteAnswer -VirtualMachineName $VirtualMachineName -ResourceGroupName $VMResourceGroupName } if($ToDelete){ Write-WithTime_Using_WriteHost "Removing Virtual Machine '$VirtualMachineName' ..." Remove-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -force }else { # Exit Return } if($KeepSameDiskNames){ # new OS disk is non-zonal # Delete Original OS Disk Write-WithTime_Using_WriteHost "Removing original OS disk '$osdiskname' ..." #-AppendEmptyLine Remove-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $osdiskname -Force # Check for PurchasePlan if($OSDisk.PurchasePlan){ Write-WithTime_Using_WriteHost "Original OS disk has purchase plan: Name '$($OSDisk.PurchasePlan.Name)', Publisher '$($OSDisk.PurchasePlan.Publisher)', Product '$($OSDisk.PurchasePlan.Product)', PromotionCode '$($OSDisk.PurchasePlan.PromotionCode)'." -AppendEmptyLine $OSDiskPurchasePlan = $OSDisk.PurchasePlan $diskPurchasePlan = New-AzDiskPurchasePlanConfig -Name $OSDisk.PurchasePlan.Name -Publisher $OSDisk.PurchasePlan.Publisher -Product $OSDisk.PurchasePlan.Product # -PromotionCode $OSDisk.PurchasePlan.PromotionCode $newdiskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $OSDiskTags -PurchasePlan $diskPurchasePlan }else{ Write-WithTime_Using_WriteHost "OS disk has NO purchase plan" $newdiskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $OSDiskTags } $newdiskName = $osdiskname Write-WithTime_Using_WriteHost "Creating OS disk '$newdiskName' from snapshot '$($snapshot.Name)' ..." -AppendEmptyLine $newdisk = New-AzDisk -Disk $newdiskConfig -ResourceGroupName $VMResourceGroupName -DiskName $newdiskName }else{ # Keep the same disk names # Snap and copy the os disk $snapshotcfg = New-AzSnapshotConfig -Location $location -CreateOption copy -SourceResourceId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id $osdiskname = $originalVM.StorageProfile.OsDisk.Name $snapshotName = $osdiskname + "-snap" #Write-Host Write-WithTime_Using_WriteHost "Creating OS disk snapshot '$snapshotName' ..." #-AppendEmptyLine $snapshot = New-AzSnapshot -Snapshot $snapshotcfg -SnapshotName $snapshotName -ResourceGroupName $VMResourceGroupName ##$newdiskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $OSDiskTags #-zone $AzureZone # Check for PurchasePlan if($OSDisk.PurchasePlan){ Write-WithTime_Using_WriteHost "Original OS disk has purchase plan: Name '$($OSDisk.PurchasePlan.Name)', Publisher '$($OSDisk.PurchasePlan.Publisher)', Product '$($OSDisk.PurchasePlan.Product)', PromotionCode '$($OSDisk.PurchasePlan.PromotionCode)'." -AppendEmptyLine $OSDiskPurchasePlan = $OSDisk.PurchasePlan $diskPurchasePlan = New-AzDiskPurchasePlanConfig -Name $OSDisk.PurchasePlan.Name -Publisher $OSDisk.PurchasePlan.Publisher -Product $OSDisk.PurchasePlan.Product # -PromotionCode $OSDisk.PurchasePlan.PromotionCode $newdiskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $OSDiskTags -PurchasePlan $diskPurchasePlan }else{ Write-WithTime_Using_WriteHost "Original OS disk has NO purchase plan" #-AppendEmptyLine $newdiskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $OSDiskTags } $newdiskName = $osdiskname + "-new" #+ $AzureZone Write-WithTime_Using_WriteHost "Creating regional OS disk '$newdiskName' from snapshot '$snapshotName' ..." $newdisk = New-AzDisk -Disk $newdiskConfig -ResourceGroupName $VMResourceGroupName -DiskName $newdiskName } # Configure new REGIONAL OS Disk if ($osType -eq "Linux") { Write-WithTime_Using_WriteHost "Configuring Linux OS disk '$newdiskName' for Virtual Machine '$VirtualMachineName'... " Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $newdisk.Id -Name $newdisk.Name -Linux -Caching $originalVM.StorageProfile.OsDisk.Caching > $null } if ($osType -eq "Windows") { Write-WithTime_Using_WriteHost "Configuring Windows OS disk '$newdiskName' Virtual Machine '$VirtualMachineName' ... " Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $newdisk.Id -Name $newdisk.Name -Windows -Caching $originalVM.StorageProfile.OsDisk.Caching > $null } # Configure Data Disks if($KeepSameDiskNames){ # keep the same disk names # Snapshot all of the Data disks, and add to the VM foreach ($disk in $originalVM.StorageProfile.DataDisks){ $OriginalDataDiskName = $disk.Name $DataDisk = Get-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OriginalDataDiskName $DataDiskTags = $DataDisk.Tags $storageType = $DataDisk.Sku.Name #snapshot & copy the data disk #$snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -DiskName $disk.Name -SourceDiskResourceId $disk.ManagedDisk.Id $snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $DataDisk.ResourceGroupName -Location $location -Disk $DataDisk $diskName = $disk.Name # Create / Copy the exsiting Data disk with a new name Copy-AzUniqueNameDiskFromSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -Snapshot $snapshot -OriginalDiskName $OriginalDataDiskName -StorageType $storageType -VMDiskZone $VMDiskZone -DiskNamePosfix "orig" -Tags $DataDiskTags # Delete Original Data disk Write-WithTime_Using_WriteHost "Removing original data disk '$OriginalDataDiskName' ..." Remove-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OriginalDataDiskName -Force $diskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $DataDiskTags #-zone $AzureZone Write-WithTime_Using_WriteHost "Creating data disk '$diskName' from snapshot '$($snapshot.Name)' ..." -AppendEmptyLine $newdisk = New-AzDisk -Disk $diskConfig -ResourceGroupName $VMResourceGroupName -DiskName $diskName # > $null Write-WithTime_Using_WriteHost "Configuring data disk '$($newdisk.Name)' , LUN '$($disk.Lun)' for Virtual Machine '$VirtualMachineName' ... " if($disk.WriteAcceleratorEnabled) { Write-WithTime_Using_WriteHost "Adding disk '$($newdisk.Name)' to new VM with enabled Write Accelerator ... " -AppendEmptyLine Add-AzVMDataDisk -VM $newVM -Name $newdisk.Name -ManagedDiskId $newdisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $newdisk.DiskSizeGB -CreateOption Attach -WriteAccelerator > $null }else{ Write-WithTime_Using_WriteHost "Adding disk '$($newdisk.Name)' to new VM ... " #-PrependEmptyLine -AppendEmptyLine Add-AzVMDataDisk -VM $newVM -Name $newdisk.Name -ManagedDiskId $newdisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $newdisk.DiskSizeGB -CreateOption Attach > $null } } }else{ # Generate new disk name with "*-new" pattern foreach ($disk in $originalVM.StorageProfile.DataDisks) { #snapshot & copy the data disk $snapshotcfg = New-AzSnapshotConfig -Location $location -CreateOption copy -SourceResourceId $disk.ManagedDisk.Id $snapshotName = $disk.Name + "-snap" Write-WithTime_Using_WriteHost "Creating data disk snapshot '$snapshotName' ..." $snapshot = New-AzSnapshot -Snapshot $snapshotcfg -SnapshotName $snapshotName -ResourceGroupName $VMResourceGroupName #[string] $thisdiskStorageType = $disk.StorageAccountType $diskName = $disk.Name + "-new" #+ $AzureZone $OriginalDataDiskName = $disk.Name $DataDisk = Get-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OriginalDataDiskName $DataDiskTags = $DataDisk.Tags $storageType = $DataDisk.Sku.Name $diskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $DataDiskTags #-zone $AzureZone Write-WithTime_Using_WriteHost "Creating regional data disk '$diskName' from snapshot '$snapshotName' ..." $newdisk = New-AzDisk -Disk $diskConfig -ResourceGroupName $VMResourceGroupName -DiskName $diskName # > $null Write-WithTime_Using_WriteHost "Configuring data disk '$($newdisk.Name)' , LUN '$($disk.Lun)' for Virtual Machine '$VirtualMachineName' ... " if($disk.WriteAcceleratorEnabled) { Write-WithTime_Using_WriteHost "Adding disk '$($newdisk.Name)' to new VM with enabled Write Accelerator ... " Add-AzVMDataDisk -VM $newVM -Name $newdisk.Name -ManagedDiskId $newdisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $newdisk.DiskSizeGB -CreateOption Attach -WriteAccelerator > $null }else{ Write-WithTime_Using_WriteHost "Adding disk '$($newdisk.Name)' to new VM ... " Add-AzVMDataDisk -VM $newVM -Name $newdisk.Name -ManagedDiskId $newdisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $newdisk.DiskSizeGB -CreateOption Attach > $null } } } }else{ # VM is NON Zonal Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' is NON-ZONAL regional VM." # Attach EXISTING disks if ($osType -eq "Linux") { Write-WithTime_Using_WriteHost "Configuring Linux OS disk '$OSDiskName' .. " Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id -Name $OSDiskName -Linux -Caching $originalVM.StorageProfile.OsDisk.Caching > $null }elseif ($osType -eq "Windows") { Write-WithTime_Using_WriteHost "Configuring Windows OS disk '$OSDiskName' .. " Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id -Name $OSDiskName -Windows -Caching $originalVM.StorageProfile.OsDisk.Caching > $null } # Add Data Disks foreach ($disk in $originalVM.StorageProfile.DataDisks) { Write-WithTime_Using_WriteHost "Adding data disk '$($disk.Name)' to Virtual Machine '$VirtualMachineName' ..." Add-AzVMDataDisk -VM $newVM -Name $disk.Name -ManagedDiskId $disk.ManagedDisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $disk.DiskSizeGB -CreateOption Attach > $null } } # Add NIC(s) and keep the same NIC as primary foreach ($nic in $originalVM.NetworkProfile.NetworkInterfaces) { Write-WithTime_Using_WriteHost "Adding '$($nic.Id)' network card to Virtual Machine '$VirtualMachineName' ..." if ($nic.Primary -eq "True"){ Add-AzVMNetworkInterface -VM $newVM -Id $nic.Id -Primary > $null } else{ Add-AzVMNetworkInterface -VM $newVM -Id $nic.Id > $null } } if(-not $DoNotCopyTags){ # Copy the VM Tags Write-WithTime_Using_WriteHost "Copy Tags ..." $newVM.Tags = $originalVM.Tags Write-WithTime_Using_WriteHost "Tags copy to new VM definition done. " }else{ Write-Host "Skipping copy of VM tags:" } # Configuring Boot Diagnostics if ($originalVM.DiagnosticsProfile.BootDiagnostics.Enabled) { Write-WithTime_Using_WriteHost "Boot diagnostic account is enabled." # Get Strage URI $StorageUri = $originalVM.DiagnosticsProfile.BootDiagnostics.StorageUri if ($StorageUri -eq $null) { Write-WithTime_Using_WriteHost "Boot diagnostic URI is empty." Write-WithTime_Using_WriteHost "Configuring boot diganostic with managed storage account ..." $newVM = Set-AzVMBootDiagnostic -VM $newVM -Enable }else { $BootDiagnosticURI = $originalVM.DiagnosticsProfile.BootDiagnostics.StorageUri.Split("/")[2] Write-WithTime_Using_WriteHost "Boot diagnostic URI: '$BootDiagnosticURI'." $staccName = $BootDiagnosticURI.Split(".")[0] Write-WithTime_Using_WriteHost "Extracted storage account name: '$staccName'" Write-WithTime_Using_WriteHost "Getting storage account '$staccName'" $stacc = Get-AzStorageAccount | where-object { $_.StorageAccountName.Contains($staccName) } if($stacc -eq $null ){ Write-WithTime_Using_WriteHost "Storage account '$staccName' used for diagonstic account on source VM do not exist." #-PrependEmptyLine -AppendEmptyLine Write-WithTime_Using_WriteHost "Configuring boot diganostic with managed storage account ..." # -AppendEmptyLine $newVM = Set-AzVMBootDiagnostic -VM $newVM -Enable }else{ Write-WithTime_Using_WriteHost "Configuring storage account '$staccName' for VM boot diagnostigs in Azure resource group '$($stacc.ResourceGroupName)' on the new VM ..." $newVM = Set-AzVMBootDiagnostic -VM $newVM -Enable -ResourceGroupName $stacc.ResourceGroupName -StorageAccountName $staccName Write-WithTime_Using_WriteHost "Configuring storage account '$staccName' for VM boot diagnostigs done." } } } if(-not $IsVMZonal){ # Remove the original VM $ToDelete = $true if(-not $Force){ $ToDelete = Get-AzVMDeleteAnswer -VirtualMachineName $VirtualMachineName -ResourceGroupName $VMResourceGroupName } if($ToDelete){ Write-WithTime_Using_WriteHost "Removing Virtual Machine '$VirtualMachineName' definition ..." Remove-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -force }else { # Exit Return } } if ($VMSecurityType -eq "TrustedLaunch") { Write-WithTime_Using_WriteHost "Configuring VM security setting to 'TrustedLaunch' ..." $NewVM = Set-AzVmSecurityProfile -VM $NewVM -SecurityType "TrustedLaunch" Write-WithTime_Using_WriteHost "Configuring VM secure boot '$VMSecureBootEnabled' and vTPM to '$VMVTpmEnabled' ..." $NewVM = Set-AzVMUefi -VM $newVM -EnableSecureBoot $VMSecureBootEnabled -EnableVtpm $VMVTpmEnabled } if($IsVMZonal){ Write-WithTime_Using_WriteHost "Original VM was a ZONAL VM. Recreating Virtual Machine '$VirtualMachineName' in resource group '$VMResourceGroupName' as regional VM ..." }else{ Write-WithTime_Using_WriteHost "Recreating Virtual Machine '$VirtualMachineName' in resource group '$VMResourceGroupName' ..." } # recreate the VM if ($VMLicenseType) { New-AzVM -ResourceGroupName $VMResourceGroupName -Location $originalVM.Location -VM $newVM -DisableBginfoExtension -LicenseType $VMLicenseType }else { New-AzVM -ResourceGroupName $VMResourceGroupName -Location $originalVM.Location -VM $newVM -DisableBginfoExtension } Write-WithTime_Using_WriteHost "Done!" } catch{ Write-Error $_.Exception.Message } } END {} } function Export-VMConfigurationToJSONFile { [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $VM ) BEGIN{} PROCESS{ try{ $VMName = $VM.Name $FileName = "$VMName.json" $VM | ConvertTo-Json -depth 100 | Out-File $FileName Write-WithTime_Using_WriteHost "Virtual Machine '$VMName' configuration is exported to file '$FileName' " } catch{ Write-Error $_.Exception.Message -ErrorAction Stop } } END {} } function Move-AzVMToAzureZoneAndOrProximityPlacementGroup { <# .SYNOPSIS Moves a VM into an Azure availability zone, or move VM from one Azure zone to another Azure zone .DESCRIPTION The script deletes the VM and recreates it preserving networking and storage configuration. The script will snapshot each disk, create a new Zonal disk from the snapshot, and create the new Zonal VM with the new disks attached. New zonal disk names will have this naming convention: <OriginalDiskName>-z<ZoneNumber>. If you want to keep the same disk names, you need to use flag KeepSameDiskNames (see below for more information) Disk type are Standard or Premium managed disks. There is no need to reinstall the operating system. IMPORTANT: The script does not preserve VM extensions. Also, the script will not work for VMs with public IP addresses. If you specify -ProximityPlacementGroupName parameter, VM will be added to the Proximity Placement Group. Proximity Placement Group must exist. IMPORTANT: In case that there are other VMs that are part of Proximity Placement Group and the desired Zone, make sure that desired zone and PPG is the same zone where existing VMs are placed! If your VM is part of an Azure Internal Load Balancer (ILB),specify the name of Azure ILB by using -AzureInternalLoadBalancerName parameter. IMPORTANT: Script will check that Azure ILB is of Standard SKU Type, which is needed for the Zones. If Azure ILB is of type 'Basic', first you need to convert existing ILB to 'Standard' SKU Type. IMPORTANT: SAP High Availability context In SAP High Availability context, script is aplicable when moving for example clustered SAP ASCS/SCS cluster VMs, or DBMS cluster VMs from an Availability Set with Standard Azure ILB, to Azure Zone with Standard Azure ILB. If you want to add the VM to Proximity Placement Group, expectation is that: - Proximity Placement Group alreday exist - First ancor VM (this is DBMS VM) is alreday deplyed in a Zone and same Proximity Placement Group .PARAMETER VMResourceGroupName Resource Group Name of the VM. .PARAMETER VirtualMachineName Virtual Machine Name name. .PARAMETER AzureZone Azure Zone number. .PARAMETER PPGResourceGroupName Resource group name of the Proximity Placement Group .PARAMETER ProximityPlacementGroupName Proximity Placement Group Name .PARAMETER AzureInternalLoadBalancerResourceGroupName Resource group name of the Internal Load Balancer. .PARAMETER AzureInternalLoadBalancerName Azure Internal Load Balancer Name .PARAMETER DoNotCopyTags Switch paramater. If specified, VM tags will NOT be copied. .PARAMETER NewVMSize If NewVMSize is specified , VM will be set to a new VM size. Otherwise, original VM size will be used. .PARAMETER KeepSameDiskNames If new ‚KeepSameDiskNames‘ flag is specified, OS and data disks names will stay the same. For each disk new unique snapshot will be created, and from snapshot will be created a copy of the original disk with unique disk name (<originalDiskName>-orig<nr> ) . These disk copies can be used to restore original VM. Original disk will then be deleted, and new disk in the desired zone will be created from snapshot, using the original disk names. .PARAMETER Force Forces the command to run without asking for user confirmation. .EXAMPLE # Move VM 'VM1' to Azure Zone '2' # VM tags will not be copied : swicth parameter -DoNotCopyTags is set Move-AzVMToAzureZoneAndOrProximityPlacementGroup -VMResourceGroupName SAP-SB1-ResourceGroup -VirtualMachineName VM1 -AzureZone 2 -DoNotCopyTags .EXAMPLE # Move VM 'VM1' to Azure Zone '2', and add to exisiting 'PPGForZone2' # VM will be set to NEW VM size, e.g. not original VM size , because 'NewVMSize' is specified Move-AzVMToAzureZoneAndOrProximityPlacementGroup -VMResourceGroupName SAP-SB1-ResourceGroup -VirtualMachineName VM1 -AzureZone 2 -PPGResourceGroupName ppg-group -ProximityPlacementGroupName PPGForZone2 -NewVMSize "Standard_E4s_v3" .EXAMPLE # This scenario is used to move higly available DB cluster nodes, SAP ASCS/SCS clsuter nodes, or file share cluster nodes # Move VM 'VM1' to Azure Zone '2', and add to exisiting 'PPGForZone2' , and check if Azure Internal Load Balancer 'SB1-ASCS-ILB' has 'Standard' SKU type # User is asked for confirmation to stop the VM and delete the VM Move-AzVMToAzureZoneAndOrProximityPlacementGroup -VMResourceGroupName SAP-SB1-ResourceGroup -VirtualMachineName sb1-ascs-cl1 -AzureZone 2 -PPGResourceGroupName ppg-group -ProximityPlacementGroupName PPGForZone2 -AzureInternalLoadBalancerResourceGroupName gor-lb-group -AzureInternalLoadBalancerName SB1-ASCS-ILB .EXAMPLE # This scenario is used to move higly available DB cluster nodes, SAP ASCS/SCS clsuter nodes, or file share cluster nodes # Move VM 'VM1' to Azure Zone '2', and add to exisiting 'PPGForZone2' , and check if Azure Internal Load Balancer 'SB1-ASCS-ILB' has 'Standard' SKU type # User is NOT asked for confirmation to stop the VM and delete the VM Move-AzVMToAzureZoneAndOrProximityPlacementGroup -VMResourceGroupName SAP-SB1-ResourceGroup -VirtualMachineName sb1-ascs-cl1 -AzureZone 2 -PPGResourceGroupName ppg-group -ProximityPlacementGroupName PPGForZone2 -AzureInternalLoadBalancerResourceGroupName gor-lb-group -AzureInternalLoadBalancerName SB1-ASCS-ILB -Force .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VMResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory=$True)] [string] $AzureZone, [Parameter(Mandatory=$False)] [string] $PPGResourceGroupName, [Parameter(Mandatory=$False)] [string] $ProximityPlacementGroupName, [Parameter(Mandatory=$False)] [ValidateNotNullOrEmpty()] [string] $AzureInternalLoadBalancerResourceGroupName, [Parameter(Mandatory=$False)] [string] $AzureInternalLoadBalancerName, [switch] $DoNotCopyTags, [switch] $KeepSameDiskNames, [Parameter(Mandatory=$False)] [string] $NewVMSize, [switch] $Force ) BEGIN{ $ProximityPlacementGroupExist = $False } PROCESS{ try{ # Handle Azure Load Balancer if (($AzureInternalLoadBalancerName -ne "") -and ($AzureInternalLoadBalancerResourceGroupName -ne "")) { $ILB = Get-AzLoadBalancer -ResourceGroupName $AzureInternalLoadBalancerResourceGroupName -Name $AzureInternalLoadBalancerName -ErrorAction Stop if($ILB -ne $null){ $AzureInternalLoadBalancerNameExist = $True #Write-Host Write-WithTime_Using_WriteHost "Azure Internal Load Balancer '$AzureInternalLoadBalancerName' in resource group '$AzureInternalLoadBalancerResourceGroupName' exist." #check if ILB SKU for 'Standard' if($ILB.Sku.Name -eq "Standard"){ #Write-Host Write-WithTime_Using_WriteHost "Azure Internal Load Balancer '$AzureInternalLoadBalancerName' has expected 'Standard' SKU." } else{ Throw "Specified Azure Internal Load BalancerName is not 'Standard' load balancer. Before proceeding convert '$AzureInternalLoadBalancerName' load balancer from 'Basic' to 'Standard' SKU type." } }else{ Throw "Specified Azure Internal Load BalancerName '$AzureInternalLoadBalancerName' doesn't exists. Please check your input parameter 'AzureInternalLoadBalancerName' and 'AzureInternalLoadBalancerResourceGroupName'." } }else{ if (($AzureInternalLoadBalancerName -ne "") -and ($AzureInternalLoadBalancerResourceGroupName -eq "")) { #Write-Host Throw "Only '-AzureInternalLoadBalancerName' PowerShell parameter is specified. Please specify also parameter '-AzureInternalLoadBalancerResourceGroupName'." }elseif (($AzureInternalLoadBalancerName -eq "") -and ($AzureInternalLoadBalancerResourceGroupName -ne "")) { #Write-Host Throw "Only '-AzureInternalLoadBalancerResourceGroupName' PowerShell parameter is specified. Please specify also parameter '-AzureInternalLoadBalancerName'." }else{ #Write-Host Write-WithTime_Using_WriteHost "Azure Internal Load Balancer is not specified." } } # Handle Proximity Placement Group if (($ProximityPlacementGroupName -ne "") -and ($PPGResourceGroupName -ne "")) { $ppg = Get-AzProximityPlacementGroup -ResourceGroupName $PPGResourceGroupName -Name $ProximityPlacementGroupName -ErrorAction Stop $ProximityPlacementGroupExist = $True #Write-Host Write-WithTime_Using_WriteHost "Proximity Placement Group '$ProximityPlacementGroupName' in resource group '$PPGResourceGroupName' exist." #Write-Host Write-WithTime_Using_WriteHost "Starting migration of Virtual Machine '$VirtualMachineName' to Azure Zone '$AzureZone', and Proximity Placement Group '$ProximityPlacementGroupName' ..." }else { if (($ProximityPlacementGroupName -ne "") -and ($PPGResourceGroupName -eq "")) { #Write-Host Throw "Only '-ProximityPlacementGroupName' PowerShell parameter is specified. Please specify also parameter '-PPGResourceGroupName'." }elseif (($ProximityPlacementGroupName -eq "") -and ($PPGResourceGroupName -ne "")) { #Write-Host Throw "Only '-PPGResourceGroupName' PowerShell parameter is specified. Please specify also parameter '-ProximityPlacementGroupName'." }else{ #Write-Host Write-WithTime_Using_WriteHost "Proximity Placement Group is not specified." #Write-Host Write-WithTime_Using_WriteHost "Starting migration of Virtual Machine '$VirtualMachineName' to Azure Zone '$AzureZone' ..." } } #Write-Host Write-WithTime_Using_WriteHost "Starting virtual machine '$VirtualMachineName' ..." Start-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -ErrorAction Stop # get VM and check existance $originalVM = Get-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -ErrorAction Stop # Premium V2 disks is not suported # Write-WithTime_Using_WriteHost "Checking if virtual machine '$VirtualMachineName' has Azure Premium V2 data disks ... " # $VMHasAzurePremiumV2Disks = Test-AzVMHasPremiumV2Disks -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName # if ($VMHasAzurePremiumV2Disks) { # #Write-Host # Throw "VM '$VirtualMachineName' has Azure Azure Premium V2 data disks. Azure Premium V2 data disks are not supported." # }else { # Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' has no Azure Premium V2 data disks." # } # Ultra disks is not suported Write-WithTime_Using_WriteHost "Checking if virtual machine '$VirtualMachineName' has Azure Ultra data disks ... " $VMHasAzureUltraDisks = Test-AzVMHasUltraDisks -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName if ($VMHasAzureUltraDisks) { #Write-Host Throw "VM '$VirtualMachineName' has Azure Azure Ultra data disks. Azure Ultra data disks are not supported." }else { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' has no Azure Ultra data disks." } # Azure shared disks are not supported #Write-Host Write-WithTime_Using_WriteHost "Checking if virtual machine '$VirtualMachineName' has Azure shared data disks ... " $VMHasAzureSharedDisks = Test-AzVMHasAzureSharedDisks -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName if ($VMHasAzureSharedDisks) { Write-Host Throw "VM '$VirtualMachineName' has Azure shared disk. Azure shared disks are not supported." }else { #Write-Host Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' has no Azure shared data disks." } # We don't support moving machines with public IPs, since those are zone specific. foreach ($nic in $originalVM.NetworkProfile.NetworkInterfaces) { $thenic = $nic.id $nicname = $thenic.substring($thenic.LastIndexOf("/")+1) $othernic = Get-AzNetworkInterface -name $nicname -ResourceGroupName $VMResourceGroupName #Write-Host Write-WithTime_Using_WriteHost "Found Network Card '$nicname' in Azure resource group '$VMResourceGroupName'." foreach ($ipc in $othernic.IpConfigurations) { $pip = $ipc.PublicIpAddress if ($pip) { Throw "Sorry, machines with public IPs are not supported by this script" #exit } } } [string] $osType = $originalVM.StorageProfile.OsDisk.OsType [string] $location = $originalVM.Location [string] $storageType = $originalVM.StorageProfile.OsDisk.ManagedDisk.StorageAccountType [string] $OSDiskName = $originalVM.StorageProfile.OsDisk.Name # when non-Zonal disk / VM this value is an empty string [string] $VMDiskZone = $originalVM.Zones $OSDisk = Get-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OSDiskName $OSDiskTags = $OSDisk.Tags $VMPlan = $originalVM.Plan $VMSecurityType = $originalVM.SecurityProfile.SecurityType [bool] $VMSecureBootEnabled = $originalVM.SecurityProfile.UefiSettings.SecureBootEnabled [bool] $VMVTpmEnabled = $originalVM.SecurityProfile.UefiSettings.VTpmEnabled # $VMSecureBootEnabled = $originalVM.SecurityProfile.UefiSettings.SecureBootEnabled # $VMVTpmEnabled = $originalVM.SecurityProfile.UefiSettings.VTpmEnabled $VMLicenseType = $originalVM.LicenseType # if ($VMDiskZone -eq "") { # [bool] $VMIsZonal = $False # }else { # [bool] $VMIsZonal = $True # } Write-WithTime_Using_WriteHost "Checking if Virtual Machine '$VirtualMachineName' is zonal VM ..." $VMIsZonal = Test-AzVMIsZonalVM -ResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName if ($VMIsZonal) { if ($AzureZone -eq $originalVM.Zones[0]) { $TargetZoneIsSameAsSourceZone = $true Write-WithTime_Using_WriteHost "Target zone '$AzureZone' is the same as the source VM zone. No need to migrate the disks to another zone." }else { $TargetZoneIsSameAsSourceZone = $False Write-WithTime_Using_WriteHost "Target zone '$AzureZone' is different to the source VM zone '$($originalVM.Zones[0])'. Need to migrate disks to new zone '$AzureZone'." } } Write-WithTime_Using_WriteHost "Checking Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' ..." # -PrependEmptyLine $VMStatus = Get-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -Status $GenType = $VMStatus.HyperVGeneration if ($GenType -eq "V1") { Write-WithTime_Using_WriteHost "Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' is 'V1' - VM is Generation 1." #-PrependEmptyLine }elseif ($GenType -eq "V2") { Write-WithTime_Using_WriteHost "Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' is 'V2' - VM is Generation 2." #-PrependEmptyLine } if ($VMSecurityType) { Write-WithTime_Using_WriteHost "VM security type is '$VMSecurityType'." #-PrependEmptyLine Write-WithTime_Using_WriteHost "VM secure boot is set to '$VMSecureBootEnabled'." #-PrependEmptyLine Write-WithTime_Using_WriteHost "VM vTPM (Trusted Platform Module) is set to '$VMVTpmEnabled'." #-PrependEmptyLine }else { Write-WithTime_Using_WriteHost "VM security type is 'Standard'." #-PrependEmptyLine } # Do not delete OS and Data disks during the VM deletion - set DeleteOption to 'Detach' Set-AzVMDisksDeleteOption -VM $originalVM -DeleteOption "Detach" -ErrorAction Stop # Do not delete NIC cards during the VM deletion - Set NIC Cards to 'Detach' Set-AzVMNICsDeleteOption -VM $originalVM -DeleteOption "Detach" -ErrorAction Stop $OriginalVMSize = $originalVM.HardwareProfile.VmSize if($NewVMSize -eq ""){ # if $NewVMSIze is not specified, use the original VM size #Write-Host Write-WithTime_Using_WriteHost "VM type is '$OriginalVMSize'." $VMSize = $OriginalVMSize } else{ # if $NewVMSIze is specified, use it as VM size #Write-Host Write-WithTime_Using_WriteHost "Changing VM type from original '$OriginalVMSize' to new type '$NewVMSize'." $VMSize = $NewVMSize } # Check if VM SKU is available in the desired Azure zone #Write-Host Write-WithTime_Using_WriteHost "Checking VM SKU '$VMSize' availablity in Azure zone '$AzureZone' in region '$location' ...." $VMSKUIsAvailableinAzureZone = Test-AzComputeSKUZonesAvailability -Location $location -VMSKU $VMSize -AzureZone $AzureZone if (-not $VMSKUIsAvailableinAzureZone) { $AzureZones = Get-AzComputeSKUZonesAvailability -Location $location -VMSKU $VMSize if ($null -eq $AzureZones) { #Write-Host Throw "VM SKU '$VMSize' is not available in any of the Azure zones in region '$location'. PLease use another VM SKU." }else { #Write-Host Write-WithTime_Using_WriteHost "VM SKU '$VMSize' is available in these Azure zone(s):" Write-Host $AzureZones #Write-Host Throw "VM SKU '$VMSize' is not available in desired Azure zone '$AzureZone' in region '$location'. PLease use another VM SKU or another zone." } } # if PPG is specified and contains VMs, check: ## if region of the PPG is the same as the region of the VM ## if VMs in the PPG are in the the same zone as target zone of the migrated VM if ($ProximityPlacementGroupExist) { # Check if region of the PPG is the same as the region of the VM $PPGLocation = $ppg.Location if ( $location -ne $PPGLocation) { #Write-Host Throw "Azure region '$location' of the VM '$VirtualMachineName' is different from the Proximity Placement Group '$ProximityPlacementGroupName' region '$PPGLocation'. Choose Proximity Placement Group located in the same region '$location' as the VM '$VirtualMachineName'. " }else { #Write-Host Write-WithTime_Using_WriteHost "VM and Proximity Placement Group are located in the same Azure region '$location'." } # Check if VMs in the PPG are in the the same zone as target zone of the migrated VM $VMsInPPG = Get-AzVMBelongingProximityPlacementGroup -ResourceGroupName $PPGResourceGroupName -PPGName $ProximityPlacementGroupName if ($null -ne $VMsInPPG) { #Write-Host Write-WithTime_Using_WriteHost "Found VMs in the Proximity Placement Group '$PPGResourceGroupName'." foreach ($VMInPPG in $VMsInPPG) { if ($null -ne $VMInPPG.VMZone) { #Write-Host Write-WithTime_Using_WriteHost "VM '$($VMInPPG.VMName)' (anchor VM) asociated with Proximity Placement Group '$ProximityPlacementGroupName' is in Azure zone $($VMInPPG.VMZone)." if ($AzureZone -ne $VMInPPG.VMZone ) { #Write-Host Throw "Target VM '$VirtualMachineName' zone '$AzureZone' is different from zone '$($VMInPPG.VMZone)' of the anchor VM '$($VMInPPG.VMName)' belonging to Proximity Placement Group '$ProximityPlacementGroupName'. Chose Proximity Placement Group with VM(s) belonging to the target zone '$AzureZone'." }else { #Write-Host Write-WithTime_Using_WriteHost "Target VM '$VirtualMachineName' zone is zone '$AzureZone', and is the same as the zone '$($VMInPPG.VMZone)' of the anchor VM '$($VMInPPG.VMName)' belonging to Proximity Placement Group '$ProximityPlacementGroupName'. " break } } } }else { #Write-Host Write-WithTime_Using_WriteHost "No (anchor) VMs found in the Proximity Placement Group '$ProximityPlacementGroupName'." } } # Shutdown the original VM $ToStop = $true if(-not $Force){ #Write-Host $ToStop = Get-AzVMStopAnswer -VirtualMachineName $VirtualMachineName -ResourceGroupName $VMResourceGroupName } if($ToStop){ #Write-Host Write-WithTime_Using_WriteHost "Stopping Virtual Machine '$VirtualMachineName' in resource group '$VMResourceGroupName' ..." Stop-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -force -ErrorAction Stop }else { # Exit Return } # Export original VM configuration #Write-Host Export-VMConfigurationToJSONFile -VM $originalVM # Create the basic configuration for the replacement VM with Zone and / or PPG if($ProximityPlacementGroupExist){ #Write-Host Write-WithTime_Using_WriteHost "Configuring Virtual Machine to use Azure Zone '$AzureZone' and Proximity Placement Group '$ProximityPlacementGroupName' ..." $newVM = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VmSize -ProximityPlacementGroupId $ppg.Id -Zone $AzureZone }else{ #Write-Host Write-WithTime_Using_WriteHost "Configuring Virtual Machine to use Azure Zone '$AzureZone' ..." $newVM = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VmSize -Zone $AzureZone } # add VM PLan if exists if($VMPlan){ #Write-Host Write-WithTime_Using_WriteHost "Original VM uses this Plan: Name '$($VMPlan.Name)', Publisher '$($VMPlan.Publisher)', Product '$($VMPlan.Product)', PromotionCode '$($VMPlan.PromotionCode)'." #Write-Host Write-WithTime_Using_WriteHost "Setting the plan to the new VM ..." Set-AzVMPlan -VM $newVM -Name $VMPlan.Name -Publisher $VMPlan.Publisher -Product $VMPlan.Product > $Null #-PromotionCode $VMPlan.PromotionCode } # Snap and copy the os disk #$snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -DiskName $originalVM.StorageProfile.OsDisk.Name -SourceDiskResourceId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id if (-not $TargetZoneIsSameAsSourceZone) { $snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $OSDisk.ResourceGroupName -Location $location -Disk $OSDisk } if($KeepSameDiskNames -and (-not $TargetZoneIsSameAsSourceZone)){ #Write-Host Write-WithTime_Using_WriteHost "Specified flag 'KeepSameDiskNames'." # Create / Copy the exsiting OS Disk with new name Copy-AzUniqueNameDiskFromSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -Snapshot $snapshot -OriginalDiskName $OSDiskName -StorageType $storageType -VMDiskZone $VMDiskZone -DiskNamePosfix "orig" -Tags $OSDiskTags # Remove the original VM -this is a prerequisit to delete orignial OS and data disks $ToDelete = $true if(-not $Force){ Write-Host $ToDelete = Get-AzVMDeleteAnswer -VirtualMachineName $VirtualMachineName -ResourceGroupName $VMResourceGroupName } if($ToDelete){ #Write-Host Write-WithTime_Using_WriteHost "Removing Virtual Machine '$VirtualMachineName' ..." #Write-Host Remove-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -force }else { # Exit Return } # Delete Original OS Disk #Write-Host Write-WithTime_Using_WriteHost "Removing original OS disk '$osdiskname' ..." Remove-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $osdiskname -Force }else { } if($OSDisk.PurchasePlan){ Write-WithTime_Using_WriteHost "Original OS disk has purchase plan: Name '$($OSDisk.PurchasePlan.Name)', Publisher '$($OSDisk.PurchasePlan.Publisher)', Product '$($OSDisk.PurchasePlan.Product)', PromotionCode '$($OSDisk.PurchasePlan.PromotionCode)'." -AppendEmptyLine $OSDiskPurchasePlan = $OSDisk.PurchasePlan $diskPurchasePlan = New-AzDiskPurchasePlanConfig -Name $OSDisk.PurchasePlan.Name -Publisher $OSDisk.PurchasePlan.Publisher -Product $OSDisk.PurchasePlan.Product # -PromotionCode $OSDisk.PurchasePlan.PromotionCode if ($TargetZoneIsSameAsSourceZone) { $newdiskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Attach -SourceResourceId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id -zone $AzureZone -Tag $OSDiskTags -PurchasePlan $diskPurchasePlan }else { $newdiskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -zone $AzureZone -Tag $OSDiskTags -PurchasePlan $diskPurchasePlan } }else{ Write-WithTime_Using_WriteHost "OS disk has NO purchase plan." -AppendEmptyLine if ($TargetZoneIsSameAsSourceZone) { #$newdiskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Attach -SourceResourceId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id -zone $AzureZone -Tag $OSDiskTags -PurchasePlan $diskPurchasePlan $newdiskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Attach -SourceResourceId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id -zone $AzureZone -Tag $OSDiskTags }else { $newdiskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -zone $AzureZone -Tag $OSDiskTags } } if($KeepSameDiskNames -or $TargetZoneIsSameAsSourceZone){ # use the same disk name $newdiskName = $osdiskname }else { $newdiskName = $osdiskname + "-z" + $AzureZone } if (-not $TargetZoneIsSameAsSourceZone) { Write-WithTime_Using_WriteHost "Creating OS zonal disk '$newdiskName' from snapshot '$($snapshot.Name)' ..." $newdisk = New-AzDisk -Disk $newdiskConfig -ResourceGroupName $VMResourceGroupName -DiskName $newdiskName } # Configure new Zonal OS Disk if ($osType -eq "Linux") { #Write-Host Write-WithTime_Using_WriteHost "Configuring Linux OS disk '$newdiskName' for Virtual Machine '$VirtualMachineName'... " if ($TargetZoneIsSameAsSourceZone) { Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id -Name $osdiskname -Linux -Caching $originalVM.StorageProfile.OsDisk.Caching > $null }else{ Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $newdisk.Id -Name $newdisk.Name -Linux -Caching $originalVM.StorageProfile.OsDisk.Caching > $null } } if ($osType -eq "Windows") { #Write-Host Write-WithTime_Using_WriteHost "Configuring Windows OS disk '$newdiskName' Virtual Machine '$VirtualMachineName' ... " if ($TargetZoneIsSameAsSourceZone) { Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id -Name $osdiskname -Windows -Caching $originalVM.StorageProfile.OsDisk.Caching > $null }else { Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $newdisk.Id -Name $newdisk.Name -Windows -Caching $originalVM.StorageProfile.OsDisk.Caching > $null } } if ($TargetZoneIsSameAsSourceZone) { # SAME ZONE # Add exisiting Data Disks foreach ($disk in $originalVM.StorageProfile.DataDisks) { # Write-Host Write-WithTime_Using_WriteHost "Adding data disk '$($disk.Name)' to Virtual Machine '$VirtualMachineName' ..." #Add-AzVMDataDisk -VM $newVM -Name $disk.Name -ManagedDiskId $disk.ManagedDisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $disk.DiskSizeGB -CreateOption Attach > $null Add-AzVMDataDisk -VM $newVM -ManagedDiskId $disk.ManagedDisk.Id -Lun $disk.Lun -Caching $disk.Caching -CreateOption Attach > $null } }else{ # Snapshot all of the Data disks, and add to the VM foreach ($disk in $originalVM.StorageProfile.DataDisks) { $OriginalDataDiskName = $disk.Name $DataDisk = Get-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OriginalDataDiskName $DataDiskTags = $DataDisk.Tags $storageType = $DataDisk.Sku.Name #snapshot & copy the data disk #$snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -DiskName $disk.Name -SourceDiskResourceId $disk.ManagedDisk.Id $snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $DataDisk.ResourceGroupName -Location $location -Disk $DataDisk if($KeepSameDiskNames){ # use the same disk name $diskName = $disk.Name # Create / Copy the exsiting Data disk with a new name Copy-AzUniqueNameDiskFromSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -Snapshot $snapshot -OriginalDiskName $OriginalDataDiskName -StorageType $storageType -VMDiskZone $VMDiskZone -DiskNamePosfix "orig" -Tags $DataDiskTags # Delete Original Data disk Write-WithTime_Using_WriteHost "Removing original data disk '$OriginalDataDiskName' ..." Remove-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OriginalDataDiskName -Force }else { $diskName = $disk.Name + "-z" + $AzureZone } #$diskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -zone $AzureZone -Tag $DataDiskTags if ($DataDisk.Sku.Name -eq "PremiumV2_LRS") { Write-WithTime_Using_WriteHost "Configuring new PremiumV2_LRS disk ..." $diskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -zone $AzureZone -Tag $DataDiskTags -DiskIOPSReadWrite $DataDisk.DiskIOPSReadWrite -DiskMBpsReadWrite $DataDisk.DiskMBpsReadWrite -DiskIOPSReadOnly $DataDisk.DiskIOPSReadOnly -DiskMBpsReadOnly $DataDisk.DiskMBpsReadOnly }else{ $diskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -zone $AzureZone -Tag $DataDiskTags } Write-WithTime_Using_WriteHost "Creating zonal data disk '$diskName' from snapshot '$($snapshot.Name)' ..." #Write-Host $newdisk = New-AzDisk -Disk $diskConfig -ResourceGroupName $VMResourceGroupName -DiskName $diskName # > $null Write-WithTime_Using_WriteHost "Configuring data disk '$($newdisk.Name)' , LUN '$($disk.Lun)' for Virtual Machine '$VirtualMachineName' ... " if($disk.WriteAcceleratorEnabled) { #Write-Host Write-WithTime_Using_WriteHost "Adding disk '$($newdisk.Name)' to new VM with enabled Write Accelerator ... " Add-AzVMDataDisk -VM $newVM -Name $newdisk.Name -ManagedDiskId $newdisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $newdisk.DiskSizeGB -CreateOption Attach -WriteAccelerator > $null }else{ #Write-Host Write-WithTime_Using_WriteHost "Adding disk '$($newdisk.Name)' to new VM ... " Add-AzVMDataDisk -VM $newVM -Name $newdisk.Name -ManagedDiskId $newdisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $newdisk.DiskSizeGB -CreateOption Attach > $null } } } # Add NIC(s) and keep the same NIC as primary foreach ($nic in $originalVM.NetworkProfile.NetworkInterfaces) { #Write-Host Write-WithTime_Using_WriteHost "Configuring '$($nic.Id)' network card to Virtual Machine '$VirtualMachineName' ..." if ($nic.Primary -eq "True"){ #Write-Host Write-WithTime_Using_WriteHost "NIC is primary." Add-AzVMNetworkInterface -VM $newVM -Id $nic.Id -Primary > $null } else{ #Write-Host Write-WithTime_Using_WriteHost "NIC is secondary." Add-AzVMNetworkInterface -VM $newVM -Id $nic.Id > $null } } if(-not $DoNotCopyTags){ # Copy the Tags #Write-Host Write-WithTime_Using_WriteHost "Listing VM '$VirtualMachineName' tags: " #Write-Host $originalVM.Tags #Write-Host Write-WithTime_Using_WriteHost "Copy Tags ..." $newVM.Tags = $originalVM.Tags #Write-Host Write-WithTime_Using_WriteHost "Tags copy to new VM definition done. " }else{ #Write-Host Write-WithTime_Using_WriteHost "Skipping copy of VM tags:" #Write-Host $originalVM.Tags } # Configure Boot Diagnostic account if ($originalVM.DiagnosticsProfile.BootDiagnostics.Enabled) { #Write-Host Write-WithTime_Using_WriteHost "Boot diagnostic account is enabled." # Get Strage URI $StorageUri = $originalVM.DiagnosticsProfile.BootDiagnostics.StorageUri if ($StorageUri -eq $null) { Write-WithTime_Using_WriteHost "Boot diagnostic URI is empty." #-PrependEmptyLine -AppendEmptyLine Write-WithTime_Using_WriteHost "Configuring boot diganostic with managed storage account ..." # -AppendEmptyLine $newVM = Set-AzVMBootDiagnostic -VM $newVM -Enable }else { $BootDiagnosticURI = $originalVM.DiagnosticsProfile.BootDiagnostics.StorageUri.Split("/")[2] #Write-Host Write-WithTime_Using_WriteHost "Boot diagnostic URI: '$BootDiagnosticURI'." $staccName = $BootDiagnosticURI.Split(".")[0] #Write-Host Write-WithTime_Using_WriteHost "Extracted storage account name: '$staccName'" #Write-Host Write-WithTime_Using_WriteHost "Getting storage account '$staccName'" $stacc = Get-AzStorageAccount | where-object { $_.StorageAccountName.Contains($staccName) } if($stacc -eq $null ){ Write-WithTime_Using_WriteHost "Storage account '$staccName' used for diagonstic account on source VM do not exist." #-PrependEmptyLine -AppendEmptyLine Write-WithTime_Using_WriteHost "Configuring boot diganostic with managed storage account ..." #-AppendEmptyLine $newVM = Set-AzVMBootDiagnostic -VM $newVM -Enable }else{ #Write-Host Write-WithTime_Using_WriteHost "Configuring storage account '$staccName' for VM boot diagnostigs in Azure resource group '$($stacc.ResourceGroupName)' on the new VM ..." $newVM = Set-AzVMBootDiagnostic -VM $newVM -Enable -ResourceGroupName $stacc.ResourceGroupName -StorageAccountName $staccName #Write-Host Write-WithTime_Using_WriteHost "Configuring storage account '$staccName' for VM boot diagnostigs done." } } } if ($VMSecurityType -eq "TrustedLaunch") { Write-WithTime_Using_WriteHost "Configuring VM security setting to 'TrustedLaunch' ..." #-PrependEmptyLine $NewVM = Set-AzVmSecurityProfile -VM $NewVM -SecurityType "TrustedLaunch" Write-WithTime_Using_WriteHost "Configuring VM secure boot '$VMSecureBootEnabled' and vTPM to '$VMVTpmEnabled' ..." #-PrependEmptyLine $NewVM = Set-AzVMUefi -VM $newVM -EnableSecureBoot $VMSecureBootEnabled -EnableVtpm $VMVTpmEnabled } # Remove the original VM $ToDelete = $true if(-not $Force){ Write-Host $ToDelete = Get-AzVMDeleteAnswer -VirtualMachineName $VirtualMachineName -ResourceGroupName $VMResourceGroupName } if($ToDelete){ #Write-Host Write-WithTime_Using_WriteHost "Removing Virtual Machine '$VirtualMachineName' ..." #Write-Host Remove-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -force }else { # Exit Return } # Create the new VM #Write-Host Write-WithTime_Using_WriteHost "Recreating Virtual Machine '$VirtualMachineName' as zonal VM in Azure zone '$AzureZone' ..." if ($VMLicenseType) { New-AzVM -ResourceGroupName $VMResourceGroupName -Location $originalVM.Location -VM $newVM -DisableBginfoExtension -zone $AzureZone -LicenseType $VMLicenseType }else { New-AzVM -ResourceGroupName $VMResourceGroupName -Location $originalVM.Location -VM $newVM -DisableBginfoExtension -zone $AzureZone } #New-AzVM -ResourceGroupName $VMResourceGroupName -Location $originalVM.Location -VM $newVM -DisableBginfoExtension -zone $AzureZone Write-WithTime_Using_WriteHost "Done!" } catch{ Write-Error $_.Exception.Message } } END {} } function New-AzUniqueNameSnapshot { <# .SYNOPSIS Cmdlet will create a disk snapshot with unique name “<DiskName>-snap” . If the snapshot with this name exists in the resource group, it will add a number to snapshot name “<DiskName>-snap<Nr>”, starting with 0, and continuing with 1, 2 etc. .DESCRIPTION Cmdlet will create a disk snapshot with unique name “<DiskName>-snap” . If the snapshot with this name exists in the resource group, it will add a number to snapshot name “<DiskName>-snap<Nr>”, starting with 0, and continuing with 1, 2 etc. .EXAMPLE .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $Location, # [Parameter(Mandatory=$True)] # [ValidateNotNullOrEmpty()] # [string] $DiskName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [object] $Disk, # [Parameter(Mandatory=$True)] # [ValidateNotNullOrEmpty()] # [string] $SourceDiskResourceId, [Parameter(Mandatory=$False)] [string] $SnapshotPosfix = "snap" ) BEGIN{ } PROCESS{ try{ $DiskName = $Disk.Name $snapshotName = $DiskName + "-$($SnapshotPosfix)" $SourceDiskResourceId = $Disk.Id $DiskSKU = $Disk.Sku.Name # Check if the snapshot with the same name exists # Generate autmaticaly new snapshot name by adding 0, 1 , 2 etc. $i = 0 $SnapshotNameIsNotUnique = $True do { #Write-Host Write-WithTime_Using_WriteHost "Checking existance of snapshot '$snapshotName' in resource group '$ResourceGroupName' ..." $CheckSnapshot = Get-AzSnapshot -ResourceGroupName $ResourceGroupName -SnapshotName $snapshotName -ErrorVariable -notPresent -ErrorAction SilentlyContinue if ($null -ne $CheckSnapshot ) { #Write-Host Write-WithTime_Using_WriteHost "Snapshot '$snapshotName' in resource group '$ResourceGroupName' alredy exist." # Create a new snapshot name $snapshotName = $DiskName + "-$($SnapshotPosfix)" + "$i" $i = ++$i }else { #Write-Host Write-WithTime_Using_WriteHost "Snapshot '$snapshotName' in resource group '$ResourceGroupName' do not exist." #Write-Host Write-WithTime_Using_WriteHost "Found uniqueu snapshot name '$snapshotName'." $SnapshotNameIsNotUnique = $False } } while ($SnapshotNameIsNotUnique) if ($DiskSKU -eq "PremiumV2_LRS") { # Premium V2 Write-WithTime_Using_WriteHost "Creating incremental disk snapshot '$snapshotName' of the disk '$DiskName' with disk SKU '$DiskSKU' ..." Write-WithTime_Using_WriteHost "Incremental snapshots of Premium SSD v2 or Ultra Disks can't be used to create new disks until the background process copying the data into the snapshot has completed. This can take some time!" -Level "WARNING" $snapshotCfg = New-AzSnapshotConfig -Location $Location -CreateOption copy -SourceResourceId $SourceDiskResourceId -Incremental $snapshot = New-AzSnapshot -Snapshot $snapshotCfg -SnapshotName $snapshotName -ResourceGroupName $ResourceGroupName -ErrorAction Stop # Wait until the background process copying the data into the snapshot has completed Get-AzIncrementalSnapshotCopyCompletionPercent -Snapshot $snapshot }else { # Premium V1 Write-WithTime_Using_WriteHost "Creating full disk snapshot '$snapshotName' of the disk '$DiskName' with disk SKU '$DiskSKU' ..." $snapshotCfg = New-AzSnapshotConfig -Location $Location -CreateOption copy -SourceResourceId $SourceDiskResourceId $snapshot = New-AzSnapshot -Snapshot $snapshotCfg -SnapshotName $snapshotName -ResourceGroupName $ResourceGroupName -ErrorAction Stop } # Return snapshot object Write-Output $snapshot } catch{ Write-Error $_.Exception.Message } } END {} } ## function Get-AzIncrementalSnapshotCopyCompletionPercent { <# .SYNOPSIS Cmdlet will copy original disk to a new disk from existing disk snapshot, with unique disk name “<OriginalDiskName>-orig”. If this with this name already exist, it will add a number to disk name “<DiskName >-orig<Nr>”, starting with 0, and continuing with 1, 2 etc. .DESCRIPTION Cmdlet will copy original disk to a new disk from existing disk snapshot, with unique disk name “<OriginalDiskName>-orig”. If this with this name already exist, it will add a number to disk name “<DiskName >-orig<Nr>”, starting with 0, and continuing with 1, 2 etc. .EXAMPLE #Example .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( # [Parameter(Mandatory=$True)] # [ValidateNotNullOrEmpty()] # [string] $ResourceGroupName, # [Parameter(Mandatory=$True)] # [ValidateNotNullOrEmpty()] # [string] $Location, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [Object] $Snapshot # [Parameter(Mandatory=$True)] # [ValidateNotNullOrEmpty()] # [string] $OriginalDiskName, # [Parameter(Mandatory=$True)] # [ValidateNotNullOrEmpty()] # [string] $StorageType, # [Parameter(Mandatory=$False)] # [string] $VMDiskZone = "", # [Parameter(Mandatory=$False)] # [string] $DiskNamePosfix = "orig", # [Parameter(Mandatory=$False)] # $Tags ) BEGIN{ } PROCESS{ try{ # get start time $StartTime = Get-Date while ($Snapshot.CompletionPercent -lt 100) { Write-WithTime_Using_WriteHost "Waiting until the background process copying the data into the snapshot '$($Snapshot.Name)' has completed. Current completion percentage is $($Snapshot.CompletionPercent) % ...." Start-Sleep 30 $Snapshot = Get-AzSnapshot -ResourceGroupName $Snapshot.ResourceGroupName -SnapshotName $Snapshot.Name } Write-WithTime_Using_WriteHost "Background process copying the data into the snapshot '$($Snapshot.Name)' has completed. Current completion percentage is $($Snapshot.CompletionPercent) %." # get end time $EndTime = Get-Date $ElapsedTime = $EndTime - $StartTime Write-WithTime_Using_WriteHost "Total time for background process copying the data into the snapshot '$($Snapshot.Name)': $($ElapsedTime.Days) days, $($ElapsedTime.Hours) hours, $($ElapsedTime.Minutes) minutes, $($ElapsedTime.Seconds) seconds, $($ElapsedTime.Seconds) milliseconds." } catch{ Write-Error $_.Exception.Message } } END {} } ## function Copy-AzUniqueNameDiskFromSnapshot { <# .SYNOPSIS Cmdlet will copy original disk to a new disk from existing disk snapshot, with unique disk name “<OriginalDiskName>-orig”. If this with this name already exist, it will add a number to disk name “<DiskName >-orig<Nr>”, starting with 0, and continuing with 1, 2 etc. .DESCRIPTION Cmdlet will copy original disk to a new disk from existing disk snapshot, with unique disk name “<OriginalDiskName>-orig”. If this with this name already exist, it will add a number to disk name “<DiskName >-orig<Nr>”, starting with 0, and continuing with 1, 2 etc. .EXAMPLE #Example .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $Location, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $Snapshot, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $OriginalDiskName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $StorageType, [Parameter(Mandatory=$False)] [string] $VMDiskZone = "", [Parameter(Mandatory=$False)] [string] $DiskNamePosfix = "orig", [Parameter(Mandatory=$False)] $Tags ) BEGIN{ } PROCESS{ try{ if ($VMDiskZone -eq "") { [bool] $VMIsZonal = $False }else { [bool] $VMIsZonal = $True } # Check if the disk with the same name exists # Generate autmaticaly new disk name by adding 0, 1 , 2 etc. $i = 0 $DiskNameIsNotUnique = $True $NewDiskName = $OriginalDiskName + "-$DiskNamePosfix" do { #Write-Host Write-WithTime_Using_WriteHost "Checking existance of the disk '$NewDiskName' in resource group '$ResourceGroupName' ..." $CheckDisk = Get-AzDisk -ResourceGroupName $ResourceGroupName -DiskName $NewDiskName -ErrorVariable -notPresent -ErrorAction SilentlyContinue if ($null -ne $CheckDisk ) { #Write-Host Write-WithTime_Using_WriteHost "Disk '$NewDiskName' in resource group '$ResourceGroupName' alredy exist." # Create a new snapshot name $NewDiskName = $OriginalDiskName + "-$($DiskNamePosfix)" + "$i" $i = ++$i }else { #Write-Host Write-WithTime_Using_WriteHost "Disk '$NewDiskName' in resource group '$ResourceGroupName' do not exist." #Write-Host Write-WithTime_Using_WriteHost "Found uniqueu disk name '$NewDiskName'." $DiskNameIsNotUnique = $False } } while ($DiskNameIsNotUnique) # Create / Copy the exsiting Disks with new name if ($VMIsZonal) { #Write-Host Write-WithTime_Using_WriteHost "Original disk '$OriginalDiskName' is zonal in zone '$VMDiskZone'." $CopyOSDiskConfig = New-AzDiskConfig -AccountType $StorageType -Location $Location -CreateOption Copy -SourceResourceId $Snapshot.Id -zone $VMDiskZone -Tag $Tags }else { #Write-Host Write-WithTime_Using_WriteHost "Original disk '$OriginalDiskName' is not zonal." $CopyOSDiskConfig = New-AzDiskConfig -AccountType $StorageType -Location $Location -CreateOption Copy -SourceResourceId $Snapshot.Id -Tag $Tags } #Write-Host Write-WithTime_Using_WriteHost "Copy original disk '$OriginalDiskName' to new disk '$NewDiskName' from snapshot '$($Snapshot.Name)' ..." $Disk = New-AzDisk -Disk $CopyOSDiskConfig -ResourceGroupName $ResourceGroupName -DiskName $NewDiskName -ErrorAction Stop | Out-Null #Write-Host Write-WithTime_Using_WriteHost "Copied disk '$NewDiskName' can be used to restore original VM." Write-Output $Disk } catch{ Write-Error $_.Exception.Message } } END {} } function Get-AzComputeSKUZonesAvailability { <# .SYNOPSIS This cmdlet returns list of all zones that are available for the VM SKU in certain Azure region. In case that VM SKU is not available in any zone, an exception with error is thrown. .DESCRIPTION This cmdlet returns list of all zones that are available for the VM SKU in certain Azure region. In case that VM SKU is not available in any zone, an exception with error is thrown. .EXAMPLE # get list of all all zones supporting VM SKU "Standard_D64s_v3" Get-AzComputeSKUZonesAvailability -Location "westeurope" -VMSKU "Standard_D64s_v3" .EXAMPLE Example .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $Location, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $VMSKU ) BEGIN{ } PROCESS{ try{ $SKU = Get-AzComputeResourceSku -Location $Location | where { ($_.Name -eq $VMSKU) } if ($null -eq $SKU) { Write-Host Throw "VM SKU '$VMSKU' not found in Azure region '$Location'. Please check your VM SKU size." } $Zones = $SKU.LocationInfo.Zones Write-Output $Zones } catch{ Write-Error $_.Exception.Message } } END {} } function Get-AzComputeSKURegionZonesRestrictions { <# .SYNOPSIS Get-AzComputeSKURegionZonesRestrictions .DESCRIPTION Get-AzComputeSKURegionZonesRestrictions .EXAMPLE # get list of all all zones supporting VM SKU "Standard_D64s_v3" Get-AzComputeSKURegionZonesRestrictions -Location "westeurope" -VMSKU "Standard_D64s_v3" .EXAMPLE Example .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $Location, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $VMSKU ) BEGIN{ } PROCESS{ try{ #https://learn.microsoft.com/en-us/azure/azure-resource-manager/troubleshooting/error-sku-not-available?tabs=azure-powershell $SubId = (Get-AzContext).Subscription.Id $SKU = Get-AzComputeResourceSku -Location $Location | where { ($_.Name -eq $VMSKU) } if ($null -eq $SKU) { Write-Host Throw "VM SKU '$VMSKU' not found in Azure region '$Location'. Please check your VM SKU size." } $RegionRestriction = if (($SKU.Restrictions.Type | Out-String).Contains("Location")) { "NotAvailable" } else{ "Available" } if (($SKU.Restrictions.Type | Out-String).Contains("Zone")) { $ZoneRestriction = "NotAvailable" $Zones = ($SKU.Restrictions | where Type -eq "Zone").RestrictionInfo.Zones } else{ $ZoneRestriction = "Available" } $VMSKURestrictionsObj = [PSCustomObject]@{ "Name" = $VMSKU "Location" = $Location "SubscriptionID" = $SubId RegionalRestriction = [PSCustomObject]@{ "Availability" = $RegionRestriction } ZonalRestriction = [PSCustomObject]@{ "Availability" = $ZoneRestriction "Zones" = $Zones } } Write-Output $VMSKURestrictionsObj } catch{ Write-Error $_.Exception.Message } } END {} } function Get-AzComputeSKUGenerationSupport { <# .SYNOPSIS Get-AzComputeSKUGenerationSupport get a VM SKU in a region generation support inforomation - V1 and/or V2. .DESCRIPTION Get-AzComputeSKUGenerationSupport get a VM SKU in a region generation support inforomation - V1 and/or V2. Result is returned as an array of strings. .EXAMPLE # get VM SKU "Standard_D64s_v3" support for Generation support - both Gen1 and Gen2 are supported $VMSKUGenSupport = Get-AzComputeSKUGenerationSupport -Location eastus -VMSKU Standard_D64s_v3 # this will print: # V1 # V2 $VMSKUGenSupport .EXAMPLE # get VM SKU "Standard_D11_v2" support for Generation support - only Gen1 ais supported $VMSKUGenSupport = Get-AzComputeSKUGenerationSupport -Location eastus -VMSKU Standard_D11_v2 # this will print: # V1 $VMSKUGenSupport .EXAMPLE Example .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $Location, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $VMSKU ) BEGIN{ } PROCESS{ try{ #https://learn.microsoft.com/en-us/azure/azure-resource-manager/troubleshooting/error-sku-not-available?tabs=azure-powershell #$SubId = (Get-AzContext).Subscription.Id $SKU = Get-AzComputeResourceSku -Location $Location | where { ($_.Name -eq $VMSKU) } if ($null -eq $SKU) { Write-Host Throw "VM SKU '$VMSKU' not found in Azure region '$Location'. Please check your VM SKU size." } $VMSKUGenSupport = ($SKU.Capabilities| where Name -eq HyperVGenerations).Value.Split(",") Write-Output $VMSKUGenSupport # Write-Output $VMSKURestrictionsObj } catch{ Write-Error $_.Exception.Message } } END {} } function Test-AzComputeSKUAvailability { <# .SYNOPSIS Test-AzComputeSKUAvailability checks if a VM SKU is available in certain Azure region or zone in an Azure region, and it returns $True or $False. .DESCRIPTION Test-AzComputeSKUAvailability checks if a VM SKU is available in certain Azure region or zone in an Azure region, and it returns $True or $False. .EXAMPLE # ZONAL check # Checking if VM SKU Standard_D2as_v4 is available in zone 1 in 'East US' region Test-AzComputeSKUAvailability -Location "eastus" -VMSKU Standard_D2as_v4 -AzureZone 1 .EXAMPLE # REGIONAL check # Checking if VM SKU Standard_D2as_v4 is available in a 'East US' region Test-AzComputeSKUAvailability -Location "eastus" -VMSKU Standard_D2as_v4 .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory = $True, ParameterSetName = "Zonal")] [Parameter(Mandatory = $True, ParameterSetName = "Regional")] #[Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $Location, [Parameter(Mandatory = $True, ParameterSetName = "Zonal")] [Parameter(Mandatory = $True, ParameterSetName = "Regional")] #[Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $VMSKU, [Parameter(Mandatory = $True, ParameterSetName = "Zonal")] #[Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $AzureZone ) BEGIN{ } PROCESS{ try{ $VMSKURestrictions = Get-AzComputeSKURegionZonesRestrictions -Location $Location -VMSKU $VMSKU # ZONAL check if ($AzureZone) { Write-Verbose "Checking VM SKU '$VMSKU' availability in Azure region '$Location' and zone '$AzureZone' ..." if ($VMSKURestrictions.ZonalRestriction.Availability -eq "Available") { Write-Output $true }elseif ($VMSKURestrictions.ZonalRestriction.Zones -contains $AzureZone) { Write-Output $false }else { Write-Output $true } # Regional check }else { Write-Verbose "Checking VM SKU '$VMSKU' availability in Azure region '$Location' ..." if ($VMSKURestrictions.RegionalRestriction.Availability -eq "NotAvailable") { Write-Output $false }else { Write-Output $true } } } catch{ Write-Error $_.Exception.Message } } END {} } function Test-AzComputeSKUZonesAvailability { <# .SYNOPSIS This cmdlet checks a VM SKU is available in certain Azure zone in an Azure region, and it returns $True or $False. .DESCRIPTION This cmdlet checks a VM SKU is available in certain Azure zone in an Azure region, and it returns $True or $False. .EXAMPLE # Checkign if VM SKU Standard_D64s_v3 is availble in zone 1 in West Europe region Test-AzComputeSKUZonesAvailabilit -Location "westeurope" -VMSKU "Standard_D64s_v3" -AzureZone 1 .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $Location, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $VMSKU, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $AzureZone ) BEGIN{ } PROCESS{ try{ $VMAvailabilityZones = Get-AzComputeSKUZonesAvailability -Location $Location -VMSKU $VMSKU $VMSKUIsAvailableInZone = $False foreach ($VMAvailabilityZone in $VMAvailabilityZones) { if ($VMAvailabilityZone -eq $AzureZone) { #Write-Host Write-WithTime_Using_WriteHost "VM SKU '$VMSKU' is available in the Azure zone '$AzureZone' in region '$Location'." $VMSKUIsAvailableInZone = $True break } } # return $true or $false Write-Output $VMSKUIsAvailableInZone } catch{ Write-Error $_.Exception.Message } } END {} } function Test-AzRegionZonesAvailability { <# .SYNOPSIS This cmdlet checks if certain Azure region has zones, and it returns $True or $False. .DESCRIPTION This cmdlet checks if certain Azure region has zones, and it returns $True or $False. .EXAMPLE # Check if 'West Europe' region has zones - it returns $True Test-AzRegionZonesAvailability -Location "westeurope" .EXAMPLE # Check if 'Switzerland West' region has zones - it returns $False Test-AzRegionZonesAvailability -Location "switzerlandwest" .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $Location ) BEGIN{ } PROCESS{ try{ $RegionVMSKUs = Get-AzComputeResourceSku -Location $Location | where ResourceType -eq virtualMachines $NumberofZonesForALLVMSKUs = $RegionVMSKUs.LocationInfo.zones.Count if ($NumberofZonesForALLVMSKUs -eq 0) { # region has NO zones return $false }else { # region has zones return $True } } catch{ Write-Error $_.Exception.Message } } END {} } function Test-AzVMIsZonalVM { <# .SYNOPSIS Check if VM is Zonal VM or not. .DESCRIPTION Commanlet check if VM is Zonal VM or not, e.g. it retruns boolian $True or $False .EXAMPLE Test-AzVMIsZonalVM -ResourceGroupName gor-Zone-Migration -VirtualMachineName mig-c2 .EXAMPLE $IsVMZonal = Test-AzVMIsZonalVM -ResourceGroupName gor-Zone-Migration -VirtualMachineName mig-c2 if($IsVMZonal){ Write-Host "Virtutal Machine is zonal VM." }else{ Write-Host "Virtutal Machine is not zonal VM." } .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName ) BEGIN{ } PROCESS{ try{ # get VM and check existance $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName -ErrorAction Stop $Zone = $VM.Zones if($Zone -eq $Null){ return $False }else{ return $True } } catch{ Write-Error $_.Exception.Message Throw $_.Exception.Message } } END {} } function Get-AzVMStopAnswer { <# .SYNOPSIS Get-AzVMStopAnswer gets an asnwer to stop or not the VM. .DESCRIPTION Get-AzVMStopAnswer gets an asnwer to stop or not the VM. .EXAMPLE Get-AzVMStopAnswer -ResourceGroupName gor-Zone-Migration -VirtualMachineName mig-c2 .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName ) BEGIN{ } PROCESS{ try{ write-host "" write-host "Virtual machine '$VirtualMachineName' in the resource group '$ResourceGroupName' will be stopped. Do you want to continue?" $Answer = Read-Host "[Y] Yes [N] No (default is "Y") " switch ($Answer) { 'Y' { $return = $True } 'y' { $return = $True } 'Yes' { $return = $True } 'yes' { $return = $True } 'N' { $return = $False } 'n' { $return = $False } 'No' { $return = $False } 'no' { $return = $False } Default {$return = $True} } return $return } catch{ Write-Error $_.Exception.Message } } END {} } function Get-AzVMDeleteAnswer { <# .SYNOPSIS Get-AzVMDeleteAnswer gets an asnwer to confirm deletion of the VM. .DESCRIPTION Get-AzVMDeleteAnswer gets an asnwer to confirm deletion of the VM. .EXAMPLE Get-AzVMDeleteAnswer -ResourceGroupName gor-Zone-Migration -VirtualMachineName mig-c2 .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName ) BEGIN{ } PROCESS{ try{ write-host "" write-host "Virtual machine '$VirtualMachineName' in the resource group '$ResourceGroupName' will be deleted. Do you want to continue?" $Answer = Read-Host "[Y] Yes [N] No (default is "Y") " switch ($Answer) { 'Y' { $return = $True } 'Yes' { $return = $True } 'yes' { $return = $True } 'N' { $return = $False } 'No' { $return = $False } 'no' { $return = $False } Default {$return = $True} } return $return } catch{ Write-Error $_.Exception.Message } } END {} } function Get-Answer { <# .SYNOPSIS Get-Answer gets an asnwer. .DESCRIPTION Get-Answer gets an asnwer. .EXAMPLE Get-Answer "Do you really want to do XYZ?" .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $TextQuestion ) BEGIN{ } PROCESS{ try{ write-host "" write-host $TextQuestion $Answer = Read-Host "[Y] Yes [N] No (default is "Y") " write-host "" switch ($Answer) { 'Y' { $return = $True } 'Yes' { $return = $True } 'yes' { $return = $True } 'N' { $return = $False } 'No' { $return = $False } 'no' { $return = $False } Default {$return = $True} } return $return } catch{ Write-Error $_.Exception.Message } } END {} } function Get-AzSAPApplicationServerStopAnswer { <# .SYNOPSIS Get-AzSAPApplicationServerStopAnswer gets an asnwer to confirm SAP application server stop. .DESCRIPTION Get-AzSAPApplicationServerStopAnswer gets an asnwer to confirm SAP application server stop. .EXAMPLE Get-AzSAPApplicationServerStopAnswer -SAPSID "TS1" -SAPInstanceNumber 1 -VMResourceGroupName "ts1-resource-group" -VirtualMachineName "ts1-di-0" .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateRange(0, 99)] [ValidateLength(1, 2)] [string] $SAPInstanceNumber, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VMResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName ) BEGIN{ } PROCESS{ try{ write-host "" write-host "SAP application server with instance number '$SAPInstanceNumber' and SAP SID '$SAPSID' on virtual machine '$VirtualMachineName' in the resource group '$VMResourceGroupName' will be stopped. Do you want to continue?" $Answer = Read-Host "[Y] Yes [N] No (default is "Y") " switch ($Answer) { 'Y' { $return = $True } 'Yes' { $return = $True } 'yes' { $return = $True } 'N' { $return = $False } 'No' { $return = $False } 'no' { $return = $False } Default {$return = $True} } return $return } catch{ Write-Error $_.Exception.Message } } END {} } function Move-AzSAPApplicationServerVMToAzureAvaialbilitySetAndOrProximityPlacementGroup { <# .SYNOPSIS Cmdlet moves an SAP application server (AS) VM into an Availability Set and/or Proximity Placement Group. SAP AS is gracefully stopped and after VM migration SAP AS is started. .DESCRIPTION Cmdlet moves an SAP application server (AS) VM into an: - Availability Set - Proximity Placement Group - Availability Set and Proximity Placement Group SAP application server (AS) is gracefully stopped and after VM migration SAP AS is started. You can use the Cmdlet to: - Move SAP Application Server VM to new Availability Set - Move SAP Application Server VM to new Availability Set and Proximity Placement Group: - It can be used in Azure Zones context, where you move SAP Application Server to Zone. One group of SAP Application Servers are indirectly part of Zone1 (via AvSet1 and PPGZone1), and other part of SAP Application Servers are indirectly part of Zone2 (via AvSet2 and PPGZone2). First anchor VM (this is DBMS VM) is already deployed in a Zone and same Proximity Placement Group - It can be used to move an SAP Application Server from current AvSet1 and PPGZone1 to AvSet2 and PPGZone2, e.g. indirectly from Zone1 to Zone2. First anchor VM (this is DBMS VM) is already deployed in a Zone2 and same Proximity Placement Group 2 (PPGZone2). - It can be used in non-Zonal context, where group of SAP Application Servers are part of new Av Set and Proximity Placement Group, together with the SAP ASCS and DB VM that are part of one SAP SID. - Group SAP Application Server VM to Proximity Placement Group The Cmdlet deletes the VM definition and recreates it preserving networking and storage configuration. There is no need to reinstall the operating system. VM can be with Windows or Linux OS. IMPORTANT: The Cmdlet does not preserve VM extensions. Also, the Cmdlet does not support VMs with public IP addresses. Zonal VMs are not supported, because you cannot combine Availability Set and Zone. Availability Set and VM must be members of the same Azure resource group. Proximity Placement Group can be member of some other resource group. MORE INFO: - SAP workload configurations with Azure Availability Zones : https://docs.microsoft.com/en-us/azure/virtual-machines/workloads/sap/sap-ha-availability-zones - Regions and Availability Zones in Azure: https://docs.microsoft.com/en-us/azure/virtual-machines/workloads/sap/sap-ha-availability-zones .PARAMETER SAPSID SAP SID .PARAMETER SAPInstanceNumber SAP Instance Number to connect .PARAMETER SIDADMUserCredential SAP <sid>adm user name and password. Need ONLY on WIndows. .PARAMETER PathToSAPControl Full path to SAP Control executable. Need ONLY on WIndows. .PARAMETER SoftShutdownTimeInSeconds Soft / gracefull shutdown time for SAP application server to stop. Deafult is 300 sec. .PARAMETER SAPApplicationServerStartWaitTimeInSeconds Time to wait for SAP application server to start aftre VM is migrated. Deafult is 300 sec. .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .PARAMETER VMResourceGroupName Resource Group Name of the VM and Availability Set. .PARAMETER VirtualMachineName Virtual Machine Name name. .PARAMETER AvailabilitySetName Availability Set Name .PARAMETER PPGResourceGroupName Resource group name of the Proximity Placement Group .PARAMETER ProximityPlacementGroupName Proximity Placement Group Name .PARAMETER DoNotCopyTags Switch paramater. If specified, VM tags will NOT be copied. .PARAMETER NewVMSize If NewVMSize is specified , VM will be set to a new VM size. Otherwise, original VM size will be used. .PARAMETER Force Forces the command to run without asking for user confirmation. If not set, user will be asked for confirmation to: - Stop SAP application server - Stop VM - Recreate VM .EXAMPLE # Move SAP applictaion sever with LINUX VM # you will need to confirm stopping of SAP application server, stopping of VM, and VM deletion. $SAPSID = "TS1" $SAPInstanceNumber = 3 $SAPApplicationServerGracefullSoftShutdownTimeInSeconds = 600 $VMResourceGroupName = "gor-linux-eastus2" $VirtualMachineName = "ts2-di2" $AvailabilitySetName= "TS1-AV-SET-ZONE2" $PPGResourceGroupName = "gor-linux-eastus2-2" $ProximityPlacementGroupName = "TS1-PPG-Zone2" Move-AzSAPApplicationServerVMToAzureAvaialbilitySetAndOrProximityPlacementGroup -SAPSID $SAPSID -SAPInstanceNumber $SAPInstanceNumber -SoftShutdownTimeInSeconds $SAPApplicationServerGracefullSoftShutdownTimeInSeconds -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName -AvailabilitySetName $AvailabilitySetName -PPGResourceGroupName $PPGResourceGroupName -ProximityPlacementGroupName $ProximityPlacementGroupName .EXAMPLE # Move SAP applictaion sever with LINUX VM # As '-Force' swith parameter is used, user will not be asked for any confirmation $SAPSID = "TS1" $SAPInstanceNumber = 3 $SAPApplicationServerGracefullSoftShutdownTimeInSeconds = 600 $VMResourceGroupName = "gor-linux-eastus2" $VirtualMachineName = "ts2-di2" $AvailabilitySetName= "TS1-AV-SET-ZONE2" $PPGResourceGroupName = "gor-linux-eastus2-2" $ProximityPlacementGroupName = "TS1-PPG-Zone2" Move-AzSAPApplicationServerVMToAzureAvaialbilitySetAndOrProximityPlacementGroup -SAPSID $SAPSID -SAPInstanceNumber $SAPInstanceNumber -SoftShutdownTimeInSeconds $SAPApplicationServerGracefullSoftShutdownTimeInSeconds -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName -AvailabilitySetName $AvailabilitySetName -PPGResourceGroupName $PPGResourceGroupName -ProximityPlacementGroupName $ProximityPlacementGroupName -Force .EXAMPLE # Move SAP applictaion sever with Windows VM # As '-Force' swith parameter is used, user will not be asked for any confirmation $SAPSID = "PR2" $SIDADM = $SAPSID.ToLower() + "adm" $SAPSIDADMUserCred = Get-Credential -UserName $SIDADM -Message 'Enter Password:' $SAPInstanceNumber = 2 $SAPApplicationServerGracefullSoftShutdownTimeInSeconds = 600 $FullPathToSAPControl = "C:\usr\sap\PR2\D02\exe\sapcontrol.exe" $VMResourceGroupName = "gor-linux-eastus2-2" $VirtualMachineName = "pr2-di-1" $AvailabilitySetName= "PR2-AvSet-Zone3" $PPGResourceGroupName = "gor-linux-eastus2" $ProximityPlacementGroupName = "PR2-PPG_Zone3" Move-AzSAPApplicationServerWindowsVMToAzureAvaialbilitySetAndOrProximityPlacementGroup -SAPSID $SAPSID -SAPInstanceNumber $SAPInstanceNumber -SIDADMUserCredential $SAPSIDADMUserCred -PathToSAPControl $FullPathToSAPControl -SoftShutdownTimeInSeconds $SAPApplicationServerGracefullSoftShutdownTimeInSeconds -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName -AvailabilitySetName $AvailabilitySetName -PPGResourceGroupName $PPGResourceGroupName -ProximityPlacementGroupName $ProximityPlacementGroupName -Force .LINK https://docs.microsoft.com/en-us/azure/virtual-machines/workloads/sap/sap-ha-availability-zones .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateRange(0, 99)] [ValidateLength(1, 2)] [string] $SAPInstanceNumber, [Parameter(Mandatory=$False)] [ValidateNotNull()] [System.Management.Automation.PSCredential] [System.Management.Automation.Credential()] $SIDADMUserCredential, [Parameter(Mandatory = $False)] [ValidateNotNullOrEmpty()] [string] $PathToSAPControl, [Parameter(Mandatory = $False)] [int] $SoftShutdownTimeInSeconds = "300", [Parameter(Mandatory = $False)] [int] $SAPApplicationServerStartWaitTimeInSeconds = "300", [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VMResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory=$False)] [string] $AvailabilitySetName, [Parameter(Mandatory=$False)] [string] $PPGResourceGroupName, [Parameter(Mandatory=$False)] [string] $ProximityPlacementGroupName, [switch] $DoNotCopyTags, [Parameter(Mandatory=$False)] [string] $NewVMSize, [switch] $Force ) BEGIN{ $ProximityPlacementGroupExist = $False } PROCESS{ try{ # Check if resource group exists. If $False exit Confirm-AzResoureceGroupExist -ResourceGroupName $VMResourceGroupName # Check if VM. If $False exit Write-Host Confirm-AzVMExist -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName $OSType = Get-AzVMOSType -VMName $VirtualMachineName -ResourceGroupName $VMResourceGroupName if ($OSType -eq "Windows") { Move-AzSAPApplicationServerWindowsVMToAzureAvaialbilitySetAndOrProximityPlacementGroup -SAPSID $SAPSID -SAPInstanceNumber $SAPInstanceNumber -SIDADMUserCredential $SIDADMUserCredential -PathToSAPControl $PathToSAPControl -SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds -SAPApplicationServerStartWaitTimeInSeconds $SAPApplicationServerStartWaitTimeInSeconds -PrintExecutionCommand $PrintExecutionCommand -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName -AvailabilitySetName $AvailabilitySetName -PPGResourceGroupName $PPGResourceGroupName -ProximityPlacementGroupName $ProximityPlacementGroupName -NewVMSize $NewVMSize -DoNotCopyTags:$DoNotCopyTags -Force:$Force }else{ # Linux Move-AzSAPApplicationServerLinuxVMToAzureAvaialbilitySetAndOrProximityPlacementGroup -SAPSID $SAPSID -SAPInstanceNumber $SAPInstanceNumber -SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds -SAPApplicationServerStartWaitTimeInSeconds $SAPApplicationServerStartWaitTimeInSeconds -PrintExecutionCommand $PrintExecutionCommand -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName -AvailabilitySetName $AvailabilitySetName -PPGResourceGroupName $PPGResourceGroupName -ProximityPlacementGroupName $ProximityPlacementGroupName -NewVMSize $NewVMSize -DoNotCopyTags:$DoNotCopyTags -Force:$Force } } catch{ Write-Error $_.Exception.Message } } END {} } function Move-AzSAPApplicationServerLinuxVMToAzureAvaialbilitySetAndOrProximityPlacementGroup { <# .SYNOPSIS Cmdlet moves an SAP application server (AS) on Linux VM into an Availability Set and/or Proximity Placement Group. SAP AS is gracefully stopped and after VM migration SAP AS is started. .DESCRIPTION Cmdlet moves an SAP application server (AS) on Linux VM into an Availability Set and/or Proximity Placement Group. SAP AS is gracefully stopped and after VM migration SAP AS is started. This functionality should be called from cmdlet Move-AzSAPApplicationServerVMToAzureAvaialbilitySetAndOrProximityPlacementGroup. .PARAMETER SAPSID SAP SID .PARAMETER SAPInstanceNumber SAP Instance Number to connect .PARAMETER SoftShutdownTimeInSeconds Soft / gracefull shutdown time for SAP application server to stop. Deafult is 300 sec. .PARAMETER SAPApplicationServerStartWaitTimeInSeconds Time to wait for SAP application server to start aftre VM is migrated. Deafult is 300 sec. .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .PARAMETER VMResourceGroupName Resource Group Name of the VM and Availability Set. .PARAMETER VirtualMachineName Virtual Machine Name name. .PARAMETER AvailabilitySetName Availability Set Name .PARAMETER PPGResourceGroupName Resource group name of the Proximity Placement Group .PARAMETER ProximityPlacementGroupName Proximity Placement Group Name .PARAMETER DoNotCopyTags Switch paramater. If specified, VM tags will NOT be copied. .PARAMETER NewVMSize If NewVMSize is specified , VM will be set to a new VM size. Otherwise, original VM size will be used. .PARAMETER Force Forces the command to run without asking for user confirmation. If not set, user will be asked for confirmation to: - Stop SAP application server - Stop VM - Recreate VM .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateRange(0, 99)] [ValidateLength(1, 2)] [string] $SAPInstanceNumber, [Parameter(Mandatory = $False)] [int] $SoftShutdownTimeInSeconds = "300", [Parameter(Mandatory = $False)] [int] $SAPApplicationServerStartWaitTimeInSeconds = "300", [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VMResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory=$False)] [string] $AvailabilitySetName, [Parameter(Mandatory=$False)] [string] $PPGResourceGroupName, [Parameter(Mandatory=$False)] [string] $ProximityPlacementGroupName, [switch] $DoNotCopyTags, [Parameter(Mandatory=$False)] [string] $NewVMSize, [switch] $Force ) BEGIN{ $ProximityPlacementGroupExist = $False } PROCESS{ try{ Write-Host Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' is Linux machine." $VMIsRunning = Test-AzVMIsStarted -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName # Stop SAP Application server if ($VMIsRunning -eq $True) { # Get SAP System Status Write-Host Write-WithTime_Using_WriteHost "Getting SAP system instances and status ...." Write-Host Get-AzSAPSystemStatusLinux -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName -InstanceNumberToConnect $SAPInstanceNumber -SAPSID $SAPSID -PrintExecutionCommand $PrintExecutionCommand -PrintOutputWithWriteHost # Stop SAP application server $ToStopSAPApplicationServer = $true if(-not $Force){ Write-Host $ToStopSAPApplicationServer = Get-AzSAPApplicationServerStopAnswer -SAPSID $SAPSID -SAPInstanceNumber $SAPInstanceNumber -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName } if($ToStopSAPApplicationServer){ Write-Host Stop-AzSAPApplicationServerLinux -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName -SAPInstanceNumber $SAPInstanceNumber -SAPSID $SAPSID -SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds -PrintExecutionCommand $PrintExecutionCommand -PrintOutputWithWriteHost }else { Return } # Get SAP System Status Write-Host Write-WithTime_Using_WriteHost "Getting SAP system instances and status after SAP application server stop ...." Write-Host Get-AzSAPSystemStatusLinux -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName -InstanceNumberToConnect $SAPInstanceNumber -SAPSID $SAPSID -PrintExecutionCommand $PrintExecutionCommand -PrintOutputWithWriteHost } # Move VM to Av Set / PPG $ret = Move-AzVMToAvailabilitySetAndOrProximityPlacementGroup -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName -AvailabilitySetName $AvailabilitySetName -PPGResourceGroupName $PPGResourceGroupName -ProximityPlacementGroupName $ProximityPlacementGroupName -DoNotCopyTags:$DoNotCopyTags -NewVMSize $NewVMSize -Force:$Force -ErrorAction Stop # Exit if($null -eq $ret ){ return } # Start VM Write-Host Write-WithTime_Using_WriteHost "Starting VM '$VirtualMachineName' in Azure Resource Group '$VMResourceGroupName' ..." Start-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -WarningAction "SilentlyContinue" $VM = Get-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -Status $VMStatus = $VM.Statuses[1].DisplayStatus #Write-Host "" Write-Host "Virtual Machine '$VirtualMachineName' status: $VMStatus" # Wait for 180 sec Write-Host Write-WithTime_Using_WriteHost "Waiting for 180 seconds to start operating system SAP services ...." Start-Sleep 180 Write-Host Start-AzSAPApplicationServerLinux -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName -SAPInstanceNumber $SAPInstanceNumber -SAPSID $SAPSID -WaitTime $SAPApplicationServerStartWaitTimeInSeconds -PrintExecutionCommand $PrintExecutionCommand # Get SAP System Status Write-Host Write-WithTime_Using_WriteHost "Getting SAP system instances and status ...." Write-Host Get-AzSAPSystemStatusLinux -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName -InstanceNumberToConnect $SAPInstanceNumber -SAPSID $SAPSID -PrintExecutionCommand $PrintExecutionCommand } catch{ Write-Error $_.Exception.Message } } END {} } function Move-AzSAPApplicationServerWindowsVMToAzureAvaialbilitySetAndOrProximityPlacementGroup { <# .SYNOPSIS Cmdlet moves an SAP application server (AS) on Windows VM into an Availability Set and/or Proximity Placement Group. SAP AS is gracefully stopped and after VM migration SAP AS is started. .DESCRIPTION Cmdlet moves an SAP application server (AS) on Windows VM into an Availability Set and/or Proximity Placement Group. SAP AS is gracefully stopped and after VM migration SAP AS is started. This functionality should be called from cmdlet Move-AzSAPApplicationServerVMToAzureAvaialbilitySetAndOrProximityPlacementGroup. .PARAMETER SAPSID SAP SID .PARAMETER SAPInstanceNumber SAP Instance Number to connect .PARAMETER SAPsidadmUserPassword SAP <sid>adm user password. Need ONLY on WIndows. .PARAMETER PathToSAPControl Full path to SAP Control executable. Need ONLY on WIndows. .PARAMETER SoftShutdownTimeInSeconds Soft / gracefull shutdown time for SAP application server to stop. Deafult is 300 sec. .PARAMETER SAPApplicationServerStartWaitTimeInSeconds Time to wait for SAP application server to start aftre VM is migrated. Deafult is 300 sec. .PARAMETER PrintExecutionCommand If set to $True, it will print execution command. .PARAMETER VMResourceGroupName Resource Group Name of the VM and Availability Set. .PARAMETER VirtualMachineName Virtual Machine Name name. .PARAMETER AvailabilitySetName Availability Set Name .PARAMETER PPGResourceGroupName Resource group name of the Proximity Placement Group .PARAMETER ProximityPlacementGroupName Proximity Placement Group Name .PARAMETER DoNotCopyTags Switch paramater. If specified, VM tags will NOT be copied. .PARAMETER NewVMSize If NewVMSize is specified , VM will be set to a new VM size. Otherwise, original VM size will be used. .PARAMETER Force Forces the command to run without asking for user confirmation. If not set, user will be asked for confirmation to: - Stop SAP application server - Stop VM - Recreate VM .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory = $True, HelpMessage = "SAP System <SID>. 3 characters , starts with letter.")] [ValidateLength(3, 3)] [string] $SAPSID, [Parameter(Mandatory = $True)] [ValidateRange(0, 99)] [ValidateLength(1, 2)] [string] $SAPInstanceNumber, [Parameter(Mandatory=$True)] [ValidateNotNull()] [System.Management.Automation.PSCredential] [System.Management.Automation.Credential()] $SIDADMUserCredential, [Parameter(Mandatory = $False)] [ValidateNotNullOrEmpty()] [string] $PathToSAPControl, [Parameter(Mandatory = $False)] [int] $SoftShutdownTimeInSeconds = "300", [Parameter(Mandatory = $False)] [int] $SAPApplicationServerStartWaitTimeInSeconds = "300", [Parameter(Mandatory = $False)] [bool] $PrintExecutionCommand = $False, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VMResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory=$False)] [string] $AvailabilitySetName, [Parameter(Mandatory=$False)] [string] $PPGResourceGroupName, [Parameter(Mandatory=$False)] [string] $ProximityPlacementGroupName, [switch] $DoNotCopyTags, [Parameter(Mandatory=$False)] [string] $NewVMSize, [switch] $Force ) BEGIN{ $ProximityPlacementGroupExist = $False } PROCESS{ try{ #Write-Verbose "Passed parameters: SAPSID = '$SAPSID' ; SAPInstanceNumber = '$SAPInstanceNumber' ; SAPsidadmUserPassword = '$SAPsidadmUserPassword' ; PathToSAPControl = '$PathToSAPControl' ; SoftShutdownTimeInSeconds = '$SoftShutdownTimeInSeconds' ; SAPApplicationServerStartWaitTimeInSeconds = '$SAPApplicationServerStartWaitTimeInSeconds' ; PrintExecutionCommand = '$PrintExecutionCommand' ; VMResourceGroupName = '$VMResourceGroupName' ; VirtualMachineName = '$VirtualMachineName' ; AvailabilitySetName = '$AvailabilitySetName' ; PPGResourceGroupName = '$PPGResourceGroupName' ; ProximityPlacementGroupName = '$ProximityPlacementGroupName' ; DoNotCopyTags = '$DoNotCopyTags' ; NewVMSize = '$NewVMSize' ; Force = '$Force'" # Windows Write-Host Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' is Windows machine." $VMIsRunning = Test-AzVMIsStarted -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName # Stop SAP Application server if ($VMIsRunning -eq $True) { #$SIDADMUser = $SAPSID.ToLower() + "adm" #$SIDADMUserName = $SIDADMUserCredential.UserName $SAPsidadmUserPassword = $SAPSIDADMUserCred.GetNetworkCredential().Password #if($SAPsidadmUserPassword -eq ""){ # Write-Host # Write-Error "On Windows you need to specify '$SIDADMUser' password using '-SAPsidadmUserPassword' parameter." -ErrorAction Stop }if ( $PathToSAPControl -EQ "") { Write-Host Write-Error "On Windows you need to full local path to sapcontrol.exe executable using '-PathToSAPControl' parameter." -ErrorAction Stop }else{ # Get SAP System Status Write-Host Write-WithTime_Using_WriteHost "Getting SAP system instances and status ...." Write-Host Get-AzSAPSystemStatusWindows -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName -InstanceNumberToConnect $SAPInstanceNumber -SAPSID $SAPSID -PathToSAPControl $PathToSAPControl -SAPSidPwd $SAPsidadmUserPassword -PrintExecutionCommand $PrintExecutionCommand -PrintOutputWithWriteHost # Stop SAP application server $ToStopSAPApplicationServer = $true if(-not $Force){ Write-Host $ToStopSAPApplicationServer = Get-AzSAPApplicationServerStopAnswer -SAPSID $SAPSID -SAPInstanceNumber $SAPInstanceNumber -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName } if($ToStopSAPApplicationServer){ Write-Host Stop-AzSAPApplicationServerWindows -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName -SAPSID $SAPSID -SAPInstanceNumber $SAPInstanceNumber -PathToSAPControl $PathToSAPControl -SAPSidPwd $SAPsidadmUserPassword -SoftShutdownTimeInSeconds $SoftShutdownTimeInSeconds -PrintExecutionCommand $PrintExecutionCommand -PrintOutputWithWriteHost }else { Return } # Get SAP System Status Write-Host Write-WithTime_Using_WriteHost "Getting SAP system instances and status after SAP application server stop ...." Write-Host Get-AzSAPSystemStatusWindows -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName -InstanceNumberToConnect $SAPInstanceNumber -SAPSID $SAPSID -PathToSAPControl $PathToSAPControl -SAPSidPwd $SAPsidadmUserPassword -PrintExecutionCommand $PrintExecutionCommand -PrintOutputWithWriteHost } #} $ret = Move-AzVMToAvailabilitySetAndOrProximityPlacementGroup -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName -AvailabilitySetName $AvailabilitySetName -PPGResourceGroupName $PPGResourceGroupName -ProximityPlacementGroupName $ProximityPlacementGroupName -DoNotCopyTags:$DoNotCopyTags -NewVMSize $NewVMSize -Force:$Force -ErrorAction Stop # Exit if($null -eq $ret ){ return } # Start VM Write-Host Write-WithTime_Using_WriteHost "Starting VM '$VirtualMachineName' in Azure Resource Group '$VMResourceGroupName' ..." Start-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -WarningAction "SilentlyContinue" $VM = Get-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -Status $VMStatus = $VM.Statuses[1].DisplayStatus #Write-Host "" Write-WithTime_Using_WriteHost "Virtual Machine '$VirtualMachineName' status: $VMStatus" #Wait for 180 sec Write-Host Write-WithTime_Using_WriteHost "Waiting for 300 seconds to start operating system SAP services ...." Start-Sleep 300 Write-Host Start-AzSAPApplicationServerWindows -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName -SAPSID $SAPSID -SAPInstanceNumber $SAPInstanceNumber -PathToSAPControl $PathToSAPControl -SAPSidPwd $SAPsidadmUserPassword -WaitTime $SAPApplicationServerStartWaitTimeInSeconds -PrintExecutionCommand $PrintExecutionCommand # Get SAP System Status Write-Host Write-WithTime_Using_WriteHost "Getting SAP system instances and status ...." Write-Host Get-AzSAPSystemStatusWindows -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName -InstanceNumberToConnect $SAPInstanceNumber -SAPSID $SAPSID -PathToSAPControl $PathToSAPControl -SAPSidPwd $SAPsidadmUserPassword -PrintExecutionCommand $PrintExecutionCommand -PrintOutputWithWriteHost } catch{ Write-Error $_.Exception.Message } } END {} } function Get-AzVMBelongingProximityPlacementGroup { <# .SYNOPSIS Cmdlet is getting list of VMs which belongs to certain Proximity Placement Group (PPG). .DESCRIPTION Cmdlet is getting list of VMs which belongs to certain Proximity Placement Group (PPG). If PPG do not contain any VM, and no object is returned. .PARAMETER ResourceGroupName Resource Group Name of Proximity Placement Group. .PARAMETER PPGName Proximity Placement Group name. .EXAMPLE Get-AzVMBelongingProximityPlacementGroup -ResourceGroupName gor-zrs-westeurope -PPGName ppg-we-z1 .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $PPGName ) BEGIN{ } PROCESS{ try{ $PPG = Get-AzProximityPlacementGroup -ResourceGroupName $ResourceGroupName -Name $PPGName $PPGVMsIds = $PPG.VirtualMachines.Id foreach ($PPGVMId in $PPGVMsIds) { $obj = New-Object -TypeName psobject $VMResource = Get-AzResource -ResourceId $PPGVMId $VMName = $VMResource.Name $VMResourceGroupName = $VMResource.ResourceGroupName $VMLocation = $VMResource.Location $VMId = $VMResource.ResourceId $VM = Get-AzVM -ResourceGroupName $VMResourceGroupName -Name $VMName $VMZone = $VM.Zones $obj | add-member -NotePropertyName "VMName" -NotePropertyValue $VMName $obj | add-member -NotePropertyName "VMResourceGroupName" -NotePropertyValue $VMResourceGroupName $obj | add-member -NotePropertyName "VMLocation" -NotePropertyValue $VMLocation $obj | add-member -NotePropertyName "VMZone" -NotePropertyValue $VMZone $obj | add-member -NotePropertyName "VMId" -NotePropertyValue $VMId #Return formated object Write-Output $obj } } catch{ Write-Error $_.Exception.Message } } END {} } function Test-AzVMHasAzureSharedDisks { <# .SYNOPSIS .DESCRIPTION .PARAMETER ResourceGroupName .PARAMETER PPGName .EXAMPLE .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VMName ) BEGIN{ } PROCESS{ try{ $VMHasSharedDataDisks = $false $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName # Get the data disks atatched to VM $DataDisks = $VM.StorageProfile.DataDisks foreach ($DataDisk in $DataDisks) { $DataDiskId = $DataDisk.ManagedDisk.Id # get info on disk name and RG $DiskInfo = Get-AzResource -ResourceId $DataDiskId $DiskName = $DiskInfo.Name $DiskResourceGroupName = $DiskInfo.ResourceGroupName # Get info on MaxShares - is it Azure shared disk $DetailedDiskInfo = Get-AzDisk -ResourceGroupName $DiskResourceGroupName -DiskName $DiskName if ($DetailedDiskInfo.MaxShares -gt 1) { Write-Host Write-WithTime_Using_WriteHost "Azure VM '$VMName' data disk '$DiskName' is Azure shared disk with MaxShared value of '$($DetailedDiskInfo.MaxShares)'" $VMHasSharedDataDisks = $True } } return $VMHasSharedDataDisks } catch{ Write-Error $_.Exception.Message } } END {} } function Test-AzVMHasPremiumV2Disks { <# .SYNOPSIS .DESCRIPTION .PARAMETER ResourceGroupName .PARAMETER PPGName .EXAMPLE .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VMName ) BEGIN{ } PROCESS{ try{ $VMHasPremiumV2dDataDisks = $false $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName # Get the data disks atatched to VM $DataDisks = $VM.StorageProfile.DataDisks foreach ($DataDisk in $DataDisks) { $DataDiskId = $DataDisk.ManagedDisk.Id # get info on disk name and RG $DiskInfo = Get-AzResource -ResourceId $DataDiskId $DiskName = $DiskInfo.Name $DiskResourceGroupName = $DiskInfo.ResourceGroupName $DetailedDiskInfo = Get-AzDisk -ResourceGroupName $DiskResourceGroupName -DiskName $DiskName if ($DetailedDiskInfo.Sku.Name -eq "PremiumV2_LRS") { Write-Host Write-WithTime_Using_WriteHost "Azure VM '$VMName' data disk '$DiskName' is Azure 'PremiumV2_LRS' disk.'" $VMHasPremiumV2dDataDisks = $True } } return $VMHasPremiumV2dDataDisks } catch{ Write-Error $_.Exception.Message } } END {} } function Test-AzVMHasPremiumDisks { <# .SYNOPSIS Test-AzVMHasPremiumDisks check if VM has at least one Premium disk (OS disk or data disks). .DESCRIPTION Test-AzVMHasPremiumDisks check if VM has at least one Premium disk (OS disk or data disks). If at least one premium disks is found function retruns $true, othwerwise $false. .PARAMETER ResourceGroupName .PARAMETER VMName .EXAMPLE .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VMName ) BEGIN{ } PROCESS{ try{ $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName # Check OS Disk $OSDiskInfo = Get-AzResource -ResourceId $VM.StorageProfile.OsDisk.ManagedDisk.id $DetailedOSDiskInfo = Get-AzDisk -ResourceGroupName $OSDiskInfo.ResourceGroupName -DiskName $OSDiskInfo.Name if ($DetailedOSDiskInfo.Sku.Tier -eq "Premium") { Write-Verbose "OS disk of the VM '$VMName' is Premium." return $true } # Check the data disks atatched to VM $DataDisks = $VM.StorageProfile.DataDisks foreach ($DataDisk in $DataDisks) { $DataDiskId = $DataDisk.ManagedDisk.Id # get info on disk name and RG $DiskInfo = Get-AzResource -ResourceId $DataDiskId $DiskName = $DiskInfo.Name $DiskResourceGroupName = $DiskInfo.ResourceGroupName $DetailedDiskInfo = Get-AzDisk -ResourceGroupName $DiskResourceGroupName -DiskName $DiskName if ($DetailedDiskInfo.Sku.Tier -eq "Premium") { Write-Verbose "Azure VM '$VMName' data disk '$DiskName' is Azure Premium data disk.'" return $true } } return $false } catch{ Write-Error $_.Exception.Message } } END {} } function Test-AzVMHasUltraDisks { <# .SYNOPSIS .DESCRIPTION .PARAMETER ResourceGroupName .PARAMETER PPGName .EXAMPLE .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VMName ) BEGIN{ } PROCESS{ try{ $VMHasUltraDataDisks = $false $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VMName # Get the data disks atatched to VM $DataDisks = $VM.StorageProfile.DataDisks foreach ($DataDisk in $DataDisks) { $DataDiskId = $DataDisk.ManagedDisk.Id # get info on disk name and RG $DiskInfo = Get-AzResource -ResourceId $DataDiskId $DiskName = $DiskInfo.Name $DiskResourceGroupName = $DiskInfo.ResourceGroupName $DetailedDiskInfo = Get-AzDisk -ResourceGroupName $DiskResourceGroupName -DiskName $DiskName if ($DetailedDiskInfo.Sku.Name -eq "UltraSSD_LRS") { Write-Host Write-WithTime_Using_WriteHost "Azure VM '$VMName' data disk '$DiskName' is Azure 'UltraSSD_LRS' disk.'" $VMHasUltraDataDisks = $True } } return $VMHasUltraDataDisks } catch{ Write-Error $_.Exception.Message } } END {} } Function Move-AzSAPVMToVMSSFlex { <# .SYNOPSIS Move-AzSAPVMToVMSSFlex cmdlet move an SAP VM to an Virtual MachineScale Set with Flexible Orchestration (VMSS Flex). .DESCRIPTION Move-AzSAPVMToVMSSFlex cmdlet move an SAP VM to an Virtual MachineScale Set with Flexible Orchestration (VMSS Flex). If -AzureZone is specified, VM will be moved also to the zone and zonal VMSS Flex, and if needed VM will be converted to the zonal VM (in case of non-zonal source VM). If -AzureZone is NOT specified, VM will be moved to the non-zone/regional VMSS Flex. For SAP use case, this is supported only in Azure regions without zones. .PARAMETER VMResourceGroupName Virtual Machine Resource Group Name .PARAMETER VirtualMachineName Virtual Machine Name .PARAMETER VMSSGResourceGroupName Virtual MachineScale Set (VMSS) Resource Group Name .PARAMETER VMSSName Virtual MachineScale Set (VMSS) Name #.PARAMETER FaultDomainNumber #Fault Domain Number .PARAMETER AzureZone Azure zone number - 1, 2 or 3. .PARAMETER DoNotCopyTags Switch paramater. If specified, VM tags will NOT be copied. .PARAMETER Force Forces the command to run without asking for user confirmation. .EXAMPLE # move VM to an VMSS and Azure zone - THIS IS SUPPORTED FOR SAP ONLY in Azure REGIONS WITH ZONES!! $ResourceGroupName = "sap-ab1" $VMName = "ab1-ascs" $VMSSName = "sap-flex-zones-ab1" $Location = "westeurope" # Create ZONAL VMSS Flex with PlatformFaultDomainCount = 1, and configure for zones 1, 2 and 3 $vmssConfig = New-AzVmssConfig -Location $Location -PlatformFaultDomainCount 1 -Zone @(1,2,3) New-AzVmss -ResourceGroupName $ResourceGroupName -Name $VMSSName -VirtualMachineScaleSet $vmssConfig # Move VM to VMSS Flex and Zone 2 Move-AzSAPVMToVMSSFlex -VMResourceGroupName $ResourceGroupName -VirtualMachineName $VMName -VMSSGResourceGroupName $ResourceGroupName -VMSSName $VMSSName -AzureZone 2 .EXAMPLE # move VM to an Azure region without zones - THIS IS SUPPORTED FOR SAP ONLY IN Azure REGIONS WITH NO ZONES!! $ResourceGroupName = "sap-ab1-swis-west" $VMSSName = "sap-vmss-ab1" $Location = "switzerlandwest" $VMName = "ab1-ascs" # Create non zonal VMSS Flex with PlatformFaultDomainCount = 1 $vmssConfig = New-AzVmssConfig -Location $Location -PlatformFaultDomainCount 1 New-AzVmss -ResourceGroupName $ResourceGroupName -Name $VMSSName -VirtualMachineScaleSet $vmssConfig # Move VM to non zonal VMSS Flex Move-AzSAPVMToVMSSFlex -VMResourceGroupName $ResourceGroupName -VirtualMachineName $VMName -VMSSGResourceGroupName $ResourceGroupName -VMSSName $VMSSName .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory, ParameterSetName="Regional")] #[Parameter(Mandatory, ParameterSetName="RegionalAndPPG")] [Parameter(Mandatory, ParameterSetName="Zonal")] [ValidateNotNullOrEmpty()] [string] $VMResourceGroupName, [Parameter(Mandatory, ParameterSetName="Regional")] #[Parameter(Mandatory, ParameterSetName="RegionalAndPPG")] [Parameter(Mandatory, ParameterSetName="Zonal")] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory, ParameterSetName="Regional")] #[Parameter(Mandatory, ParameterSetName="RegionalAndPPG")] [Parameter(Mandatory, ParameterSetName="Zonal")] [string] $VMSSGResourceGroupName, [Parameter(Mandatory, ParameterSetName="Regional")] [Parameter(Mandatory, ParameterSetName="RegionalAndPPG")] [Parameter(Mandatory, ParameterSetName="Zonal")] [string] $VMSSName, #[Parameter(Mandatory, ParameterSetName="RegionalAndPPG")] #[string] $PPGResourceGroupName, #[Parameter(Mandatory, ParameterSetName="RegionalAndPPG")] #[string] $ProximityPlacementGroupName, #[Parameter(Mandatory, ParameterSetName="Regional")] #[Parameter(Mandatory, ParameterSetName="RegionalAndPPG")] #[ValidateNotNullOrEmpty()] #[int] $FaultDomainNumber, [Parameter(Mandatory, ParameterSetName="Zonal")] [ValidateRange(1,3)] [int] $AzureZone, [Parameter(ParameterSetName="Regional")] #[Parameter(ParameterSetName="RegionalAndPPG")] [Parameter(ParameterSetName="Zonal")] [switch] $DoNotCopyTags, [Parameter(ParameterSetName="Regional")] #[Parameter(ParameterSetName="RegionalAndPPG")] [Parameter(ParameterSetName="Zonal")] [switch] $Force ) BEGIN{ } PROCESS{ try{ if($AzureZone){ Write-WithTime_Using_WriteHost "Starting migration of Virtual Machine '$VirtualMachineName' to the Virtual Machine Scale Set '$VMSSName' and Azure zone '$AzureZone' ..." }else{ Write-WithTime_Using_WriteHost "Starting migration of Virtual Machine '$VirtualMachineName' to the Virtual Machine Scale Set '$VMSSName' ..." } # Check if VM. If $False exit Confirm-AzVMExist -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName # get VMSS Flex Write-WithTime_Using_WriteHost "Getting Virtual Machine Scale Set '$VMSSName' in Azure resource group '$VMSSGResourceGroupName' ..." $VmssFlex = Get-AzVmss -ResourceGroupName $VMSSGResourceGroupName -VMScaleSetName $VMSSName -ErrorAction Stop # Check if VMSS is Flex type $VMSSIsFlexType = Test-AzVMSSIsFlexType -VMSSGResourceGroupName $VMSSGResourceGroupName -VMSSName $VMSSName if($VMSSIsFlexType){ Write-WithTime_Using_WriteHost "Orchestration mode of the Virtual Machine Scale Set '$VMSSName' in Azure resource group '$VMSSGResourceGroupName' is 'Flexible'. This is supported for SAP deplyments." }else{ Throw "Orchestration mode of the Virtual Machine Scale Set '$VMSSName' in Azure resource group '$VMSSGResourceGroupName' is not 'Flexible'. This is NOT suported for SAP deplyments. For SAP deplyments you need 'Flexible' orchestration mode." } # Check if VMSS has PlatformFaultDomainCount = 1 if($VmssFlex.PlatformFaultDomainCount -ne 1){ #Write-Host Throw "Virtual Machine Scale Set '$VMSSName' in Azure resource group '$VMSSGResourceGroupName' Platform Fault Domain Count is '$($VmssFlex.PlatformFaultDomainCount)'. Platform fault domain count must be set to '1'." }else { Write-WithTime_Using_WriteHost "Virtual Machine Scale Set '$VMSSName' in Azure resource group '$VMSSGResourceGroupName' has platform fault domain count set to 1." } Write-WithTime_Using_WriteHost "Starting Virtual Machine '$VirtualMachineName' ..." $StartVMStatus = Start-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -ErrorAction Stop # Get the VM and check existance Write-WithTime_Using_WriteHost "Getting Virtual Machine '$VirtualMachineName' configuration ..." $originalVM = Get-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -ErrorAction Stop # Check if VMSS Flex region is same as VM region Write-WithTime_Using_WriteHost "Virtual Machine Scale Set '$VMSSName' in Azure resource group '$VMSSGResourceGroupName' is deployed in Azure region '$($VmssFlex.Location)'." if($VmssFlex.Location -ne $originalVM.Location){ Throw "'$VMSSName' Virtual Machine Scale Set '$($VmssFlex.Location)' region is different than '$($originalVM.Name)' virtual machine '$($originalVM.Location)' region. Virtual Machine Scale Set and VM must be configured in the same Azure region." }else { Write-WithTime_Using_WriteHost "Virtual Machine Scale Set '$VMSSName' in Azure resource group '$VMSSGResourceGroupName' is deployed in the same Azure region '$($VmssFlex.Location)' as the VM '$($originalVM.Name)'." } # Checking if Region has zones Write-WithTime_Using_WriteHost "Checking if Azure region '$($originalVM.Location)' has zones ..." $AzureRegionHasZones = Test-AzRegionZonesAvailability -Location $originalVM.Location if ($AzureRegionHasZones) { Write-WithTime_Using_WriteHost "Azure region '$($originalVM.Location)' has zones." }else { Write-WithTime_Using_WriteHost "Azure region '$($originalVM.Location)' has no zones." } # Check if VM is zonal VM Write-WithTime_Using_WriteHost "Checking if Virtual Machine '$VirtualMachineName' is zonal VM ..." $VMIsZonal = Test-AzVMIsZonalVM -ResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName # Check if VM is using Standard Load Balancer $VMIsUsingStandardLoadBalancer = Test-AzVMLoadbBalancerIsStandard -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName if (-not $VMIsUsingStandardLoadBalancer ) { Throw "Virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' is configured with Azure load balancer which is NOT Standard . This is NOT supported for Azure Virtual Machine Scale Set. Please convert Azure Load Blancer to standard type before you proceed." } Write-WithTime_Using_WriteHost "VM '$VirtualMachineName' identity type is '$($originalVM.Identity.Type)'." # Premium V2 disks is not suported # Write-WithTime_Using_WriteHost "Checking if virtual machine '$VirtualMachineName' has Azure Premium V2 data disks ... " # $VMHasAzurePremiumV2Disks = Test-AzVMHasPremiumV2Disks -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName # if ($VMHasAzurePremiumV2Disks) { # #Write-Host # Throw "VM '$VirtualMachineName' has Azure Azure Premium V2 data disks. Azure Premium V2 data disks are not supported." # }else { # Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' has no Azure Premium V2 data disks." # } # Ultra disks is not suported Write-WithTime_Using_WriteHost "Checking if virtual machine '$VirtualMachineName' has Azure Ultra data disks ... " $VMHasAzureUltraDisks = Test-AzVMHasUltraDisks -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName if ($VMHasAzureUltraDisks) { #Write-Host Throw "VM '$VirtualMachineName' has Azure Azure Ultra data disks. Azure Ultra data disks are not supported." }else { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' has no Azure Ultra data disks." } # Azure shared disks are not supported Write-WithTime_Using_WriteHost "Checking if virtual machine '$VirtualMachineName' has Azure shared data disks ... " $VMHasAzureSharedDisks = Test-AzVMHasAzureSharedDisks -ResourceGroupName $VMResourceGroupName -VMName $VirtualMachineName if ($VMHasAzureSharedDisks) { #Write-Host Throw "VM '$VirtualMachineName' has Azure shared disk. Azure shared disks are not supported." }else { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' has no Azure shared data disks." } # Get ALL VMs and roles # $ALLVMsAndRoles = Get-AzVMsAndRoles -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName # move to the zonal VM if($AzureZone){ if (-not $AzureRegionHasZones) { Throw "Azure region '$($originalVM.Location)' has no zones. You cannot migrate regional VM to a zonal VM in a region that do not have zones. Please remove parameter '-AzureZone <ZoneNumber>' from Move-AzSAPVMToVMSSFlex cmdlet. " } # Get confiramtion to migrate to the zone if (-not $VMIsZonal) { Write-WithTime_Using_WriteHost "Virtual Machine '$VirtualMachineName' is not zonal VM." $ToContinue = $true if(-not $Force){ #Write-Host $ToContinue = Get-Answer "Virtual Machine '$VirtualMachineName' in resource group '$VMResourceGroupName' is not zonal VM. You chose to move VM to the zone VM. VM will be converted to the zonal VM. Do you agree to continue?" } if(-not $ToContinue){ Return } } <# # Check if VMSS has PlatformFaultDomainCount = 1 if($VmssFlex.PlatformFaultDomainCount -ne 1){ Write-Host Throw "Virtual Machine Scale Set '$VMSSName' in Azure resource group '$VMSSGResourceGroupName' Platform Fault Domain Count is '$($VmssFlex.PlatformFaultDomainCount)'. As you migrate VM to the Azure zone, Platform Fault Domain Count must be set to '1'." } #> # We don't support moving machines with public IPs, since those are zone specific. foreach ($nic in $originalVM.NetworkProfile.NetworkInterfaces) { $thenic = $nic.id $nicname = $thenic.substring($thenic.LastIndexOf("/")+1) $othernic = Get-AzNetworkInterface -name $nicname -ResourceGroupName $VMResourceGroupName #Write-Host Write-WithTime_Using_WriteHost "Found Network Card '$nicname' in Azure resource group '$VMResourceGroupName'." foreach ($ipc in $othernic.IpConfigurations) { $pip = $ipc.PublicIpAddress if ($pip) { Throw "Sorry, machines with public IPs are not supported by this script" #exit } } } [string] $osType = $originalVM.StorageProfile.OsDisk.OsType [string] $location = $originalVM.Location [string] $storageType = $originalVM.StorageProfile.OsDisk.ManagedDisk.StorageAccountType [string] $OSDiskName = $originalVM.StorageProfile.OsDisk.Name # when non-Zonal disk / VM this value is an empty string [string] $VMDiskZone = $originalVM.Zones $OSDisk = Get-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OSDiskName $OSDiskTags = $OSDisk.Tags $VMPlan = $originalVM.Plan $VMSecurityType = $originalVM.SecurityProfile.SecurityType [bool] $VMSecureBootEnabled = $originalVM.SecurityProfile.UefiSettings.SecureBootEnabled [bool] $VMVTpmEnabled = $originalVM.SecurityProfile.UefiSettings.VTpmEnabled $VMIdentity = $originalVM.Identity $VMLicenseType = $originalVM.LicenseType if ($VMIsZonal) { if ($AzureZone -eq $originalVM.Zones[0]) { $TargetZoneIsSameAsSourceZone = $true Write-WithTime_Using_WriteHost "Target zone '$AzureZone' is the same as the source VM zone. No need to migrate the disks to another zone." }else { $TargetZoneIsSameAsSourceZone = $False Write-WithTime_Using_WriteHost "Target zone '$AzureZone' is different to the source VM zone '$($originalVM.Zones[0])'. Need to migrate disks to new zone '$AzureZone'." } } Write-WithTime_Using_WriteHost "Checking Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' ..." $VMStatus = Get-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -Status $GenType = $VMStatus.HyperVGeneration if ($GenType -eq "V1") { Write-WithTime_Using_WriteHost "Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' is 'V1' - VM is Generation 1." }elseif ($GenType -eq "V2") { Write-WithTime_Using_WriteHost "Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' is 'V2' - VM is Generation 2." } if ($VMSecurityType) { Write-WithTime_Using_WriteHost "VM security type is '$VMSecurityType'." Write-WithTime_Using_WriteHost "VM secure boot is set to '$VMSecureBootEnabled'." Write-WithTime_Using_WriteHost "VM vTPM (Trusted Platform Module) is set to '$VMVTpmEnabled'." }else { Write-WithTime_Using_WriteHost "VM security type is 'Standard'." } if ($VMDiskZone -eq "") { [bool] $VMIsZonal = $False }else { [bool] $VMIsZonal = $True } $OriginalVMSize = $originalVM.HardwareProfile.VmSize $VMSize = $OriginalVMSize # Check if VM SKU is available in the desired Azure zone $VMSKUIsAvailableinZone = Test-AzVMSKUZonalAvailability -VMSize $VMSize -location $location -AzureZone $AzureZone if(-not $VMSKUIsAvailableinZone){ #exit the cmdlet return } # Check if target zone is configured in VMSS $Zones = Get-AzVMSSZones -VMSSName $VMSSName -VMSSGResourceGroupName $VMSSGResourceGroupName if($null -eq $Zones){ Throw "Virtual Machine Scale Set '$VMSSName' in Azure resource group '$VMSSGResourceGroupName' has no configured zones! " }else{ $foundZone = $false foreach($zone in $Zones){ if($zone -eq $AzureZone){ $foundZone = $True Write-WithTime_Using_WriteHost "Desired target Azure zone '$AzureZone' is configured in Virtual Machine Scale Set '$VMSSName' in Azure resource group '$VMSSGResourceGroupName'." break } } if (-not $foundZone) { Throw "Desired target Azure zone '$AzureZone' is NOT configured in Virtual Machine Scale Set '$VMSSName' in Azure resource group '$VMSSGResourceGroupName'! Virtual Machine Scale Set '$VMSSName' is configured with these zones: $Zones" } } # Shutdown the original VM $ToStop = $true if(-not $Force){ $ToStop = Get-AzVMStopAnswer -VirtualMachineName $VirtualMachineName -ResourceGroupName $VMResourceGroupName } if($ToStop){ Write-WithTime_Using_WriteHost "Stopping Virtual Machine '$VirtualMachineName' in resource group '$VMResourceGroupName' ..." Stop-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -force -ErrorAction Stop }else { # Exit Return } # Export original VM configuration #Write-Host Export-VMConfigurationToJSONFile -VM $originalVM Write-WithTime_Using_WriteHost "Configuring Virtual Machine to use Azure Zone '$AzureZone' ..." $newVM = Set-AzVirtualMachineConfiguration -OriginalVM $originalVM -VMSize $VMSize -AzureZone $AzureZone -VmssFlex $VmssFlex if ($VMSecurityType -eq "TrustedLaunch") { Write-WithTime_Using_WriteHost "Configuring VM security setting to 'TrustedLaunch' ..." $NewVM = Set-AzVmSecurityProfile -VM $NewVM -SecurityType "TrustedLaunch" Write-WithTime_Using_WriteHost "Configuring VM secure boot '$VMSecureBootEnabled' and vTPM to '$VMVTpmEnabled' ..." $NewVM = Set-AzVMUefi -VM $newVM -EnableSecureBoot $VMSecureBootEnabled -EnableVtpm $VMVTpmEnabled } if (-not $TargetZoneIsSameAsSourceZone) { $snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $OSDisk.ResourceGroupName -Location $location -Disk $OSDisk # Create / Copy the exsiting OS Disk with new name Copy-AzUniqueNameDiskFromSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -Snapshot $snapshot -OriginalDiskName $OSDiskName -StorageType $storageType -VMDiskZone $VMDiskZone -DiskNamePosfix "orig" -Tags $OSDiskTags } # Do not delete OS and Data disks during the VM deletion - set DeleteOption to 'Detach' Set-AzVMDisksDeleteOption -VM $originalVM -DeleteOption "Detach" -ErrorAction Stop # Do not delete NIC cards during the VM deletion - Set NIC Cards to 'Detach' Set-AzVMNICsDeleteOption -VM $originalVM -DeleteOption "Detach" -ErrorAction Stop # Remove the original VM -this is a prerequisit to delete orignial OS and data disks $ToDelete = $true if(-not $Force){ #Write-Host $ToDelete = Get-AzVMDeleteAnswer -VirtualMachineName $VirtualMachineName -ResourceGroupName $VMResourceGroupName } if($ToDelete){ #Write-Host Write-WithTime_Using_WriteHost "Removing Virtual Machine '$VirtualMachineName' ..." # -AppendEmptyLine Remove-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -force }else { # Exit Return } if (-not $TargetZoneIsSameAsSourceZone) { # Delete Original OS Disk Write-WithTime_Using_WriteHost "Removing original OS disk '$osdiskname' ..." #-AppendEmptyLine Remove-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $osdiskname -Force $newdiskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -zone $AzureZone -Tag $OSDiskTags $newdiskName = $osdiskname #Write-Host Write-WithTime_Using_WriteHost "Creating OS zonal disk '$newdiskName' from snapshot '$($snapshot.Name)' ..." $newdisk = New-AzDisk -Disk $newdiskConfig -ResourceGroupName $VMResourceGroupName -DiskName $newdiskName } # Configure new Zonal OS Disk if ($osType -eq "Linux") { Write-WithTime_Using_WriteHost "Configuring Linux OS disk '$osdiskname' for Virtual Machine '$VirtualMachineName'... " if ($TargetZoneIsSameAsSourceZone) { Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id -Name $osdiskname -Linux -Caching $originalVM.StorageProfile.OsDisk.Caching > $null }else { Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $newdisk.Id -Name $newdisk.Name -Linux -Caching $originalVM.StorageProfile.OsDisk.Caching > $null } } if ($osType -eq "Windows") { #Write-Host Write-WithTime_Using_WriteHost "Configuring Windows OS disk '$osdiskname' Virtual Machine '$VirtualMachineName' ... " if ($TargetZoneIsSameAsSourceZone) { Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id -Name $osdiskname -Windows -Caching $originalVM.StorageProfile.OsDisk.Caching > $null }else { Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $newdisk.Id -Name $newdisk.Name -Windows -Caching $originalVM.StorageProfile.OsDisk.Caching > $null } } if ($TargetZoneIsSameAsSourceZone) { # SAME ZONE # Add exisiting Data Disks foreach ($disk in $originalVM.StorageProfile.DataDisks) { # Write-Host Write-WithTime_Using_WriteHost "Adding data disk '$($disk.Name)' to Virtual Machine '$VirtualMachineName' ..." #Add-AzVMDataDisk -VM $newVM -Name $disk.Name -ManagedDiskId $disk.ManagedDisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $disk.DiskSizeGB -CreateOption Attach > $null Add-AzVMDataDisk -VM $newVM -ManagedDiskId $disk.ManagedDisk.Id -Lun $disk.Lun -Caching $disk.Caching -CreateOption Attach > $null } }else { # MOVE FROM one zone to another zone # Snapshot all of the Data disks, and add to the VM foreach ($disk in $originalVM.StorageProfile.DataDisks) { $OriginalDataDiskName = $disk.Name $DataDisk = Get-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OriginalDataDiskName #snapshot & copy the data disk #$snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -DiskName $disk.Name -SourceDiskResourceId $disk.ManagedDisk.Id $snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $DataDisk.ResourceGroupName -Location $location -Disk $DataDisk $diskName = $disk.Name $DataDisk = Get-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OriginalDataDiskName $DataDiskTags = $DataDisk.Tags $storageType = $DataDisk.Sku.Name # Create / Copy the exsiting Data disk with a new name Copy-AzUniqueNameDiskFromSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -Snapshot $snapshot -OriginalDiskName $OriginalDataDiskName -StorageType $storageType -VMDiskZone $VMDiskZone -DiskNamePosfix "orig" -Tags $DataDiskTags # Delete Original Data disk #Write-Host Write-WithTime_Using_WriteHost "Removing original data disk '$OriginalDataDiskName' ..." Remove-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OriginalDataDiskName -Force $diskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -zone $AzureZone -Tag $DataDiskTags #Write-Host Write-WithTime_Using_WriteHost "Creating zonal data disk '$diskName' from snapshot '$($snapshot.Name)' ..." $newdisk = New-AzDisk -Disk $diskConfig -ResourceGroupName $VMResourceGroupName -DiskName $diskName # > $null Write-WithTime_Using_WriteHost "Configuring data disk '$($newdisk.Name)' , LUN '$($disk.Lun)' for Virtual Machine '$VirtualMachineName' ... " if($disk.WriteAcceleratorEnabled) { Write-WithTime_Using_WriteHost "Adding disk '$($newdisk.Name)' to new VM with enabled Write Accelerator ... " #-AppendEmptyLine Add-AzVMDataDisk -VM $newVM -Name $newdisk.Name -ManagedDiskId $newdisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $newdisk.DiskSizeGB -CreateOption Attach -WriteAccelerator > $null }else{ Write-WithTime_Using_WriteHost "Adding disk '$($newdisk.Name)' to new VM ... " Add-AzVMDataDisk -VM $newVM -Name $newdisk.Name -ManagedDiskId $newdisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $newdisk.DiskSizeGB -CreateOption Attach > $null } } } # Add NIC(s) and keep the same NIC as primary foreach ($nic in $originalVM.NetworkProfile.NetworkInterfaces) { Write-WithTime_Using_WriteHost "Configuring '$($nic.Id)' network card to Virtual Machine '$VirtualMachineName' ..." if ($nic.Primary -eq "True"){ Write-WithTime_Using_WriteHost "NIC is primary." Add-AzVMNetworkInterface -VM $newVM -Id $nic.Id -Primary > $null } else{ Write-WithTime_Using_WriteHost "NIC is secondary." Add-AzVMNetworkInterface -VM $newVM -Id $nic.Id > $null } } # Copy VM Tags if(-not $DoNotCopyTags){ # Copy the Tags #Write-Host Write-WithTime_Using_WriteHost "Listing VM '$VirtualMachineName' tags: " $originalVM.Tags #Write-Host Write-WithTime_Using_WriteHost "Copy Tags ..." $newVM.Tags = $originalVM.Tags #Write-Host Write-WithTime_Using_WriteHost "Tags copy to new VM definition done. " }else{ #Write-Host Write-WithTime_Using_WriteHost "Skipping copy of VM tags:" $originalVM.Tags } #Configure Boot Diagnostic account if ($originalVM.DiagnosticsProfile.BootDiagnostics.Enabled) { Write-WithTime_Using_WriteHost "Boot diagnostic account is enabled." # Get Strage URI $StorageUri = $originalVM.DiagnosticsProfile.BootDiagnostics.StorageUri if ($StorageUri -eq $null) { Write-WithTime_Using_WriteHost "Boot diagnostic URI is empty." Write-WithTime_Using_WriteHost "Configuring boot diganostic with managed storage account ..." $newVM = Set-AzVMBootDiagnostic -VM $newVM -Enable }else { $BootDiagnosticURI = $originalVM.DiagnosticsProfile.BootDiagnostics.StorageUri.Split("/")[2] Write-WithTime_Using_WriteHost "Boot diagnostic URI: '$BootDiagnosticURI'." $staccName = $BootDiagnosticURI.Split(".")[0] Write-WithTime_Using_WriteHost "Extracted storage account name: '$staccName'" Write-WithTime_Using_WriteHost "Getting storage account '$staccName'" #-AppendEmptyLine $stacc = Get-AzStorageAccount | where-object { $_.StorageAccountName.Contains($staccName) } if($stacc -eq $null ){ Write-WithTime "Storage account '$staccName' used for diagonstic account on source VM do not exist. Skipping configuration of boot diagnostic on the new VM." }else{ Write-WithTime_Using_WriteHost "Configuring storage account '$staccName' for VM boot diagnostigs in Azure resource group '$($stacc.ResourceGroupName)' on the new VM ..." $newVM = Set-AzVMBootDiagnostic -VM $newVM -Enable -ResourceGroupName $stacc.ResourceGroupName -StorageAccountName $staccName Write-WithTime_Using_WriteHost "Configuring storage account '$staccName' for VM boot diagnostigs done." #-AppendEmptyLine } } } # Create the new VM Write-WithTime_Using_WriteHost "Recreating Virtual Machine '$VirtualMachineName' as zonal VM in Azure zone '$AzureZone' ..." if ($VMLicenseType) { New-AzVM -ResourceGroupName $VMResourceGroupName -Location $originalVM.Location -VM $newVM -DisableBginfoExtension -LicenseType $VMLicenseType }else { New-AzVM -ResourceGroupName $VMResourceGroupName -Location $originalVM.Location -VM $newVM -DisableBginfoExtension } # Set back roles #Set-AzVMsAndRoles -AzVMsAndRoles $ALLVMsAndRoles ######################################### # move to the regional (NON-zonal) VM ######################################### }else{ $VMSSZones = Get-AzVMSSZones -VMSSName $VMSSName -VMSSGResourceGroupName $VMSSGResourceGroupName if ($VMSSZones -ne $null) { # VMSS is cinfigured for the zones, and VM goes to region - NOT supported Throw "Your Virtual Macine Scale Set (VMSS) '$VMSSName' in resource group '$VMSSGResourceGroupName' is configured for zonal deployment. You chose to move VM in an non-zonal context. This is not supported. Please chose VMSS that has no configured zones, or specify parameter '-AzureZones <ZoneNumber>'." } if ($AzureRegionHasZones) { Throw "Azure region '$($originalVM.Location)' has zones. In regional context, VMSS Flex for SAP is not supported in Azure regions which have zones. In regions with zones, VMSS Flex is supported only in zonal context e.g. VMSS Flex has to be configured with zones and VM has to be moved to zone." }else { Write-WithTime_Using_WriteHost "Azure region '$($originalVM.Location)' has no zones. In regional context, VMSS Flex for SAP is supported in Azure regions which have no zones." } # Check PPG <# if ($ProximityPlacementGroupName) { $ppg = Get-AzProximityPlacementGroup -ResourceGroupName $PPGResourceGroupName -Name $ProximityPlacementGroupName -ErrorAction Stop $ProximityPlacementGroupExist = $True Write-Host Write-WithTime_Using_WriteHost "Proximity Placement Group '$ProximityPlacementGroupName' in resource group '$PPGResourceGroupName' exist." # Check if VMSSS is configured withthe same PPG if ($VmssFlex.ProximityPlacementGroup.Id -ne $ppg.Id) { Write-Host Throw "Existing Virtual Machine Scale Set '$VMSSName' is not member of Proximity Placement Group '$ProximityPlacementGroupName'. Please configure Virtual Machine Scale Set '$VMSSName' to use Proximity Placement Group '$ProximityPlacementGroupName'. " }else{ Write-WithTime_Using_WriteHost "Virtual Machine Scale Set '$VMSSName' is configured in appropriate Proximity Placement Group '$ProximityPlacementGroupName'." -PrependEmptyLine } } #> # Get confiramtion to migrate to the zone if ($VMIsZonal) { Write-WithTime_Using_WriteHost "Virtual Machine '$VirtualMachineName' is zonal VM." $ToContinue = $true if(-not $Force){ #Write-Host $ToContinue = Get-Answer "Virtual Machine '$VirtualMachineName' in resource group '$VMResourceGroupName' is zonal VM. You chose to move VM to the non-zone VM. VM will be converted to the non-zonal VM. Do you agree to continue?" } if(-not $ToContinue){ Return } } [string] $osType = $originalVM.StorageProfile.OsDisk.OsType [string] $location = $originalVM.Location [string] $storageType = $originalVM.StorageProfile.OsDisk.ManagedDisk.StorageAccountType [string] $OSDiskName = $originalVM.StorageProfile.OsDisk.Name # when non-Zonal disk / VM this value is an empty string [string] $VMDiskZone = $originalVM.Zones $OSDisk = Get-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OSDiskName $OSDiskTags = $OSDisk.Tags $VMPlan = $originalVM.Plan $VMSecurityType = $originalVM.SecurityProfile.SecurityType [bool] $VMSecureBootEnabled = $originalVM.SecurityProfile.UefiSettings.SecureBootEnabled [bool] $VMVTpmEnabled = $originalVM.SecurityProfile.UefiSettings.VTpmEnabled $VMLicenseType = $originalVM.LicenseType Write-WithTime_Using_WriteHost "Checking Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' ..." $VMStatus = Get-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -Status $GenType = $VMStatus.HyperVGeneration if ($GenType -eq "V1") { Write-WithTime_Using_WriteHost "Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' is 'V1' - VM is Generation 1." }elseif ($GenType -eq "V2") { Write-WithTime_Using_WriteHost "Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$VMResourceGroupName' is 'V2' - VM is Generation 2." } if ($VMSecurityType) { Write-WithTime_Using_WriteHost "VM security type is '$VMSecurityType'." Write-WithTime_Using_WriteHost "VM secure boot is set to '$VMSecureBootEnabled'." Write-WithTime_Using_WriteHost "VM vTPM (Trusted Platform Module) is set to '$VMVTpmEnabled'." }else { Write-WithTime_Using_WriteHost "VM security type is 'Standard'." } # Shutdown the original VM $ToStop = $true if(-not $Force){ #Write-Host $ToStop = Get-AzVMStopAnswer -VirtualMachineName $VirtualMachineName -ResourceGroupName $VMResourceGroupName } if($ToStop){ Write-WithTime_Using_WriteHost "Stopping Virtual Machine '$VirtualMachineName' in resource group '$VMResourceGroupName' ..." $ReturnStopVM = Stop-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -force -ErrorAction Stop Write-WithTime_Using_WriteHost "Stopping Virtual Machine '$VirtualMachineName' in resource group '$VMResourceGroupName' stoped." }elseif (!$ToStop) { Return } $OriginalVMSize = $originalVM.HardwareProfile.VmSize $VMSize = $originalVM.HardwareProfile.VmSize # We don't support moving machines with public IPs, since those are zone specific. foreach ($nic in $originalVM.NetworkProfile.NetworkInterfaces) { $thenic = $nic.id $nicname = $thenic.substring($thenic.LastIndexOf("/")+1) $othernic = Get-AzNetworkInterface -name $nicname -ResourceGroupName $VMResourceGroupName foreach ($ipc in $othernic.IpConfigurations) { $pip = $ipc.PublicIpAddress if ($pip) { Throw "Sorry, machines with public IPs are not supported by this script" } } } # Do NOT set -PlatformFaultDomain as PlatformFaultDomainCount must be 1 $newVM = Set-AzVirtualMachineConfiguration -OriginalVM $originalVM -VMSize $VMSize -VmssFlex $VmssFlex if ($VMSecurityType -eq "TrustedLaunch") { Write-WithTime_Using_WriteHost "Configuring VM security setting to 'TrustedLaunch' ..." $NewVM = Set-AzVmSecurityProfile -VM $NewVM -SecurityType "TrustedLaunch" Write-WithTime_Using_WriteHost "Configuring VM secure boot '$VMSecureBootEnabled' and vTPM to '$VMVTpmEnabled' ..." $NewVM = Set-AzVMUefi -VM $newVM -EnableSecureBoot $VMSecureBootEnabled -EnableVtpm $VMVTpmEnabled } <# if ($ProximityPlacementGroupName) { # If PPG is specified $newVM = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -VmssId $VmssFlex.Id -PlatformFaultDomain $FaultDomainNumber -ProximityPlacementGroupId $ppg.Id }else{ $newVM = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -VmssId $VmssFlex.Id -PlatformFaultDomain $FaultDomainNumber } #> # Copy VM Tags if(-not $DoNotCopyTags){ # Copy the Tags Write-WithTime_Using_WriteHost "Listing VM '$VirtualMachineName' tags: " $originalVM.Tags Write-WithTime_Using_WriteHost "Copy Tags ..." $newVM.Tags = $originalVM.Tags Write-WithTime_Using_WriteHost "Tags copy to new VM definition done. " }else{ Write-WithTime_Using_WriteHost "Skipping copy of VM tags:" $originalVM.Tags } if ($VMIsZonal) { # Snap and copy the os disk $snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -DiskName $originalVM.StorageProfile.OsDisk.Name -SourceDiskResourceId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id # Create / Copy the exsiting OS Disk with new name as non-zonal disk Copy-AzUniqueNameDiskFromSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -Snapshot $snapshot -OriginalDiskName $OSDiskName -StorageType $storageType -VMDiskZone $VMDiskZone -DiskNamePosfix "orig" -Tags $OSDiskTags } # Do not delete OS and Data disks during the VM deletion - set DeleteOption to 'Detach' Set-AzVMDisksDeleteOption -VM $originalVM -DeleteOption "Detach" # Do not delete NIC cards during the VM deletion - Set NIC Cards to 'Detach' Set-AzVMNICsDeleteOption -VM $originalVM -DeleteOption "Detach" # Remove the original VM -this is a prerequisit to delete orignial OS and data disks $ToDelete = $true if(-not $Force){ $ToDelete = Get-AzVMDeleteAnswer -VirtualMachineName $VirtualMachineName -ResourceGroupName $VMResourceGroupName } if($ToDelete){ Write-WithTime_Using_WriteHost "Removing Virtual Machine '$VirtualMachineName' ..." Remove-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -force }else { # Exit Return } if ($VMIsZonal) { # Delete Original OS Disk Write-WithTime_Using_WriteHost "Removing original OS disk '$osdiskname' ..." Remove-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $osdiskname -Force } if ($VMIsZonal) { # new OS disk is non-zonal $newdiskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $OSDiskTags # -zone $AzureZone $newdiskName = $osdiskname Write-WithTime_Using_WriteHost "Creating OS disk '$newdiskName' from snapshot '$($snapshot.Name)' ..." $newdisk = New-AzDisk -Disk $newdiskConfig -ResourceGroupName $VMResourceGroupName -DiskName $newdiskName } if ($osType -eq "Linux") { Write-WithTime_Using_WriteHost "Configuring Linux OS disk '$OSDiskName' .. " #-AppendEmptyLine if ($VMIsZonal) { Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $newdisk.Id -Name $newdisk.Name -Linux -Caching $originalVM.StorageProfile.OsDisk.Caching > $null }else{ Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id -Name $OSDiskName -Linux -Caching $originalVM.StorageProfile.OsDisk.Caching > $null } }elseif ($osType -eq "Windows"){ Write-WithTime_Using_WriteHost "Configuring Windows OS disk '$OSDiskName' .. " if ($VMIsZonal) { Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $newdisk.Id -Name $newdisk.Name -Windows -Caching $originalVM.StorageProfile.OsDisk.Caching > $null }else{ Set-AzVMOSDisk -VM $newVM -CreateOption Attach -ManagedDiskId $originalVM.StorageProfile.OsDisk.ManagedDisk.Id -Name $OSDiskName -Windows -Caching $originalVM.StorageProfile.OsDisk.Caching > $null } } if ($VMIsZonal) { # Snapshot all of the Data disks, and add to the VM foreach ($disk in $originalVM.StorageProfile.DataDisks){ $OriginalDataDiskName = $disk.Name $DataDisk = Get-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OriginalDataDiskName $DataDiskTags = $DataDisk.Tags #snapshot & copy the data disk $snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -DiskName $disk.Name -SourceDiskResourceId $disk.ManagedDisk.Id $diskName = $disk.Name # Create / Copy the exsiting Data disk with a new name Copy-AzUniqueNameDiskFromSnapshot -ResourceGroupName $VMResourceGroupName -Location $location -Snapshot $snapshot -OriginalDiskName $OriginalDataDiskName -StorageType $storageType -VMDiskZone $VMDiskZone -DiskNamePosfix "orig" -Tags $DataDiskTags # Delete Original Data disk Write-WithTime_Using_WriteHost "Removing original data disk '$OriginalDataDiskName' ..." Remove-AzDisk -ResourceGroupName $VMResourceGroupName -DiskName $OriginalDataDiskName -Force $diskConfig = New-AzDiskConfig -AccountType $storageType -Location $location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $DataDiskTags #-zone $AzureZone Write-WithTime_Using_WriteHost "Creating data disk '$diskName' from snapshot '$($snapshot.Name)' ..." $newdisk = New-AzDisk -Disk $diskConfig -ResourceGroupName $VMResourceGroupName -DiskName $diskName # > $null Write-WithTime_Using_WriteHost "Configuring data disk '$($newdisk.Name)' , LUN '$($disk.Lun)' for Virtual Machine '$VirtualMachineName' ... " if($disk.WriteAcceleratorEnabled) { Write-WithTime_Using_WriteHost "Adding disk '$($newdisk.Name)' to new VM with enabled Write Accelerator ... " Add-AzVMDataDisk -VM $newVM -Name $newdisk.Name -ManagedDiskId $newdisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $newdisk.DiskSizeGB -CreateOption Attach -WriteAccelerator > $null }else{ Write-WithTime_Using_WriteHost "Adding disk '$($newdisk.Name)' to new VM ... " Add-AzVMDataDisk -VM $newVM -Name $newdisk.Name -ManagedDiskId $newdisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $newdisk.DiskSizeGB -CreateOption Attach > $null } } }else{ # Add exisiting Data Disks foreach ($disk in $originalVM.StorageProfile.DataDisks) { # Write-Host Write-WithTime_Using_WriteHost "Adding data disk '$($disk.Name)' to Virtual Machine '$VirtualMachineName' ..." Add-AzVMDataDisk -VM $newVM -Name $disk.Name -ManagedDiskId $disk.ManagedDisk.Id -Caching $disk.Caching -Lun $disk.Lun -DiskSizeInGB $disk.DiskSizeGB -CreateOption Attach > $null } } # Add NIC(s) and keep the same NIC as primary foreach ($nic in $originalVM.NetworkProfile.NetworkInterfaces) { Write-WithTime_Using_WriteHost "Adding '$($nic.Id)' network card to Virtual Machine '$VirtualMachineName' ..." if ($nic.Primary -eq "True"){ Add-AzVMNetworkInterface -VM $newVM -Id $nic.Id -Primary > $null } else{ Add-AzVMNetworkInterface -VM $newVM -Id $nic.Id > $null } } # Configuring Boot Diagnostics if ($originalVM.DiagnosticsProfile.BootDiagnostics.Enabled) { Write-WithTime_Using_WriteHost "Boot diagnostic account is enabled." # Get Strage URI $StorageUri = $originalVM.DiagnosticsProfile.BootDiagnostics.StorageUri if ($StorageUri -eq $null) { Write-WithTime_Using_WriteHost "Boot diagnostic URI is empty." Write-WithTime_Using_WriteHost "Configuring boot diganostic with managed storage account ..." $newVM = Set-AzVMBootDiagnostic -VM $newVM -Enable }else { $BootDiagnosticURI = $originalVM.DiagnosticsProfile.BootDiagnostics.StorageUri.Split("/")[2] Write-WithTime_Using_WriteHost "Boot diagnostic URI: '$BootDiagnosticURI'." $staccName = $BootDiagnosticURI.Split(".")[0] Write-WithTime_Using_WriteHost "Extracted storage account name: '$staccName'" Write-WithTime_Using_WriteHost "Getting storage account '$staccName'" $stacc = Get-AzStorageAccount | where-object { $_.StorageAccountName.Contains($staccName) } if($stacc -eq $null ){ Write-WithTime_Using_WriteHost "Storage account '$staccName' used for diagonstic account on source VM do not exist. Skipping configuration of boot diagnostic on the new VM." # -AppendEmptyLine }else{ Write-WithTime_Using_WriteHost "Configuring storage account '$staccName' for VM boot diagnostigs in Azure resource group '$($stacc.ResourceGroupName)' on the new VM ..." # -AppendEmptyLine $newVM = Set-AzVMBootDiagnostic -VM $newVM -Enable -ResourceGroupName $stacc.ResourceGroupName -StorageAccountName $staccName Write-WithTime_Using_WriteHost "Configuring storage account '$staccName' for VM boot diagnostigs done." } } } Write-WithTime_Using_WriteHost "Recreating the '$VirtualMachineName' VM and adding to the Virtual Machine Scale Set '$VMSSName' ..." if ($VMLicenseType) { New-AzVM -ResourceGroupName $VMResourceGroupName -Location $originalVM.Location -VM $newVM -ErrorAction Stop -LicenseType $VMLicenseType }else { New-AzVM -ResourceGroupName $VMResourceGroupName -Location $originalVM.Location -VM $newVM -ErrorAction Stop } # Set back roles #Set-AzVMsAndRoles -AzVMsAndRoles $ALLVMsAndRoles } Write-WithTime_Using_WriteHost "Done!" } catch{ Write-Error $_.Exception.Message } } END {} } function Set-AzVMsAndRoles { <# .SYNOPSIS Set-AzVMsAndRoles sets roles for all passed VMs, and roles. .DESCRIPTION .PARAMETER RoleAssignment .EXAMPLE .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory=$false,ValueFromPipeline=$True)] $AzVMsAndRoles ) BEGIN{ } PROCESS{ # try{ Write-Verbose "Executing Set-AzVMsAndRoles ..." foreach ($AzVMAndRole in $AzVMsAndRoles) { Write-Verbose "Setting role with definition name '$($AzVMAndRole.Role.RoleDefinitionName)' and scope '$($AzVMAndRole.Role.Scope)' ,for VM '$($AzVMAndRole.VMName)' in resource group '$($AzVMAndRole.VMResourceGroupName)' ..." Set-AzVMIdentityRole -VMResourceGroupName $AzVMAndRole.VMResourceGroupName -VirtualMachineName $AzVMAndRole.VMName -RoleAssignment $AzVMAndRole.Role } Write-Verbose "Set-AzVMsAndRoles executed succesfully." #} #catch{ # Write-Error "Error while executing Set-AzVMsAndRoles. $_.Exception.Message" #} } END {} } function Get-AzVMsAndRoles { <# .SYNOPSIS Get-AzVMsAndRoles connects to one VM. From VM Roles, it gets list of ALL VMs associated with role, and collect for all VMs roles. .DESCRIPTION .PARAMETER RoleAssignment .EXAMPLE .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory=$True,ValueFromPipeline=$True)] [string] $VMResourceGroupName, [Parameter(Mandatory=$True,ValueFromPipeline=$True)] [string] $VirtualMachineName ) BEGIN{ } PROCESS{ # try{ Write-Verbose "Executing Get-AzVMsAndRoles ..." $VM = Get-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -ErrorAction Stop if ($VM.Identity.Type -ne "UserAssigned") { $VMPrincipalId = $VM.Identity.PrincipalId $VMRoles = Get-AzRoleAssignment -ObjectId $VMPrincipalId # if we have roles if ($VMRoles) { $AllVMs = Get-AzVMsFromVMRoles -RoleAssignment $VMRoles # Loop throuhgh ALL VMs foreach ($OneVM in $AllVMs) { $OneVMRoles = Get-AzRoleAssignment -ObjectId $OneVM.Identity.PrincipalId # Loop for each VM all roles foreach ($OneVMRole in $OneVMRoles) { $obj = New-Object -TypeName psobject #$VMResource = Get-AzResource -ResourceId $Role.Scope $VMName = $OneVM.VMName $VMResourceGroupName = $OneVM.VMResourceGroupName $VMLocation = $OneVM.VMLocation $ResourceId = $OneVM.ResourceId $Identity = $OneVM.Identity $Role = $OneVMRole Write-WithTime_Using_WriteHost "Getting role with definition name '$($Role.RoleDefinitionName)' and scope '$($Role.Scope)' ,for VM '$VMName' in resource group '$VMResourceGroupName' ..." $obj | add-member -NotePropertyName "VMName" -NotePropertyValue $VMName $obj | add-member -NotePropertyName "VMResourceGroupName" -NotePropertyValue $VMResourceGroupName $obj | add-member -NotePropertyName "VMLocation" -NotePropertyValue $VMLocation $obj | add-member -NotePropertyName "ResourceId" -NotePropertyValue $ResourceId $obj | add-member -NotePropertyName "Identity" -NotePropertyValue $Identity $obj | add-member -NotePropertyName "Role" -NotePropertyValue $Role #Return formated object Write-Output $obj } } } }else { Write-WithTime_Using_WriteHost("VM '$VirtualMachineName' in resource group '$VMResourceGroupName' has identity type 'UserAssigned'. There are no managed identity roles.") } Write-Verbose "Get-AzVMsAndRoles executed succesfully." #} #catch{ # Write-Error "Error while executing Get-AzVMsAndRoles. $_.Exception.Message" #} } END {} } function Get-AzVMsFromVMRoles { <# .SYNOPSIS .DESCRIPTION Get-AzVMsFromVMRoles retruf list of ALL VMs filtered from RoleAssignment. .PARAMETER RoleAssignment Get-AzVMsFromVMRoles retruf list of ALL VMs filtered from RoleAssignment. it returns objects with properties 'VMName', 'VMResourceGroupName', 'VMLocation', 'ResourceId', 'Identity' .EXAMPLE .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory=$True,ValueFromPipeline=$True)] $RoleAssignment ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Get-AzVFromVMRoles ..." foreach ($Role in $RoleAssignment) { $obj = New-Object -TypeName psobject $VMResource = Get-AzResource -ResourceId $Role.Scope $VMName = $VMResource.Name $VMResourceGroupName = $VMResource.ResourceGroupName $VMLocation = $VMResource.Location $ResourceId = $VMResource.ResourceId $Identity = $VMResource.Identity $obj | add-member -NotePropertyName "VMName" -NotePropertyValue $VMName $obj | add-member -NotePropertyName "VMResourceGroupName" -NotePropertyValue $VMResourceGroupName $obj | add-member -NotePropertyName "VMLocation" -NotePropertyValue $VMLocation $obj | add-member -NotePropertyName "ResourceId" -NotePropertyValue $ResourceId $obj | add-member -NotePropertyName "Identity" -NotePropertyValue $Identity #Return formated object Write-Output $obj } Write-Verbose "Get-AzVFromVMRoles executed succesfully." } catch{ Write-Error "Error while executing Get-AzVFromVMRoles. $_.Exception.Message" } } END {} } function Set-AzVMIdentityRole { <# .SYNOPSIS Set-AzVMIdentityRole sets on ONE VM (non UserAssigned) managed identity security role. .DESCRIPTION Set-AzVMIdentityRole sets on ONE VM (non UserAssigned) managed identity security role. .EXAMPLE .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory=$True,ValueFromPipeline=$True)] [string] $VMResourceGroupName, [Parameter(Mandatory=$True,ValueFromPipeline=$True)] [string] $VirtualMachineName, [Parameter(Mandatory=$True,ValueFromPipeline=$True)] $RoleAssignment ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Set-AzVMIdentityRole ..." $VM = Get-AzVM -ResourceGroupName $VMResourceGroupName -Name $VirtualMachineName -ErrorAction Stop if ($VM.Identity.Type -ne "UserAssigned") { $VMPrincipalId = $VM.Identity.PrincipalId foreach ($Role in $RoleAssignment) { Write-WithTime_Using_WriteHost("Setting new role assigment on VM '$VirtualMachineName' in resource group '$VMResourceGroupName' with VM Principal Id '$VMPrincipalId', role definition '$($Role.RoleDefinitionName)', scope '$($Role.scope)' ...") New-AzRoleAssignment -ObjectId $VMPrincipalId -RoleDefinitionName $Role.RoleDefinitionName -Scope $Role.scope -ErrorAction SilentlyContinue } }else { Write-WithTime_Using_WriteHost("VM '$VirtualMachineName' in resource group '$VMResourceGroupName' has identity type 'UserAssigned'. It is not possible to set roles for managed identity.") } Write-Verbose "Set-AzVMIdentityRole executed succesfully." } catch{ Write-Error "Error while executing Set-AzVMIdentityRole. $_.Exception.Message" } } END {} } function Set-AzVirtualMachineConfiguration { <# .SYNOPSIS Set-AzVirtualMachineConfiguration is generic function to create new VM configuration. .DESCRIPTION Set-AzVirtualMachineConfiguration is generic function to create new VM configuration. .EXAMPLE .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory = $True, ParameterSetName="Regional")] [Parameter(Mandatory = $True, ParameterSetName="Zonal")] #[Parameter(ParameterSetName="VmssFlex")] $OriginalVM, [Parameter(Mandatory = $True, ParameterSetName="Regional")] [Parameter(Mandatory = $True, ParameterSetName="Zonal")] #[Parameter(ParameterSetName="VmssFlex")] [string] $VMSize, [Parameter(Mandatory = $True, ParameterSetName="Zonal")] #[Parameter(ParameterSetName="VmssFlex")] [ValidateRange(1,3)] [int] $AzureZone, [Parameter(Mandatory = $True, ParameterSetName="Regional")] [Parameter(Mandatory = $True, ParameterSetName="Zonal")] #[Parameter(ParameterSetName="VmssFlex")] $VmssFlex ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Set-AzVirtualMachineConfiguration ..." $VMIdentity = $originalVM.Identity $VirtualMachineName = $OriginalVM.Name switch ($PSCmdlet.ParameterSetName) { "Zonal" { Write-Verbose "Inside ZONAL Set-AzVirtualMachineConfiguration ..." if ($VMIdentity.Type -eq "SystemAssigned") { Write-WithTime_Using_WriteHost "Configuring Virtual Machine identity to 'SystemAssigned' ..." #$newVM = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -VmssId $VmssFlex.Id -Zone $AzureZone -IdentityType "SystemAssigned" $newVMConfig = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -VmssId $VmssFlex.Id -Zone $AzureZone -IdentityType "SystemAssigned" }elseif ($VMIdentity.Type -eq "SystemAssignedUserAssigned") { Write-WithTime_Using_WriteHost "Configuring Virtual Machine identity to 'SystemAssignedUserAssigned' ..." #$newVM = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -VmssId $VmssFlex.Id -Zone $AzureZone -IdentityType "SystemAssignedUserAssigned" -IdentityId $originalVM.Identity.UserAssignedIdentities.Keys $newVMConfig = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -VmssId $VmssFlex.Id -Zone $AzureZone -IdentityType "SystemAssignedUserAssigned" -IdentityId $originalVM.Identity.UserAssignedIdentities.Keys } elseif ($VMIdentity.Type -eq "UserAssigned"){ Write-WithTime_Using_WriteHost "Configuring Virtual Machine identity to 'UserAssigned' ..." #$newVM = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -VmssId $VmssFlex.Id -Zone $AzureZone -IdentityType "UserAssigned" -IdentityId $originalVM.Identity.UserAssignedIdentities.Keys -ErrorAction Stop $newVMConfig = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -VmssId $VmssFlex.Id -Zone $AzureZone -IdentityType "UserAssigned" -IdentityId $originalVM.Identity.UserAssignedIdentities.Keys -ErrorAction Stop }else{ Write-WithTime_Using_WriteHost "Configuring default Virtual Machine identity ..." $newVMConfig = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -VmssId $VmssFlex.Id -Zone $AzureZone } } "Regional" { # NO zone Write-Verbose "Inside NON ZONAL Set-AzVirtualMachineConfiguration ..." if ($VMIdentity.Type -eq "SystemAssigned") { Write-WithTime_Using_WriteHost "Configuring Virtual Machine identity to 'SystemAssigned' ..." $newVMConfig = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -VmssId $VmssFlex.Id -IdentityType "SystemAssigned" }elseif ($VMIdentity.Type -eq "SystemAssignedUserAssigned") { Write-WithTime_Using_WriteHost "Configuring Virtual Machine identity to 'SystemAssignedUserAssigned' ..." $newVMConfig = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -VmssId $VmssFlex.Id -IdentityType "SystemAssignedUserAssigned" -IdentityId $originalVM.Identity.UserAssignedIdentities.Keys } elseif ($VMIdentity.Type -eq "UserAssigned"){ Write-WithTime_Using_WriteHost "Configuring Virtual Machine identity to 'UserAssigned' ..." $newVMConfig = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -VmssId $VmssFlex.Id -IdentityType "UserAssigned" -IdentityId $originalVM.Identity.UserAssignedIdentities.Keys -ErrorAction Stop }else{ Write-WithTime_Using_WriteHost "Configuring default Virtual Machine identity ..." $newVMConfig = New-AzVMConfig -VMName $VirtualMachineName -VMSize $VMSize -VmssId $VmssFlex.Id } } } Write-Output $newVMConfig Write-Verbose "Set-AzVirtualMachineConfiguration executed succesfully." } catch{ Write-Error "Error while executing Set-AzVirtualMachineConfiguration. $_.Exception.Message" } } END {} } function Set-AzVMDisksDeleteOption { <# .SYNOPSIS .DESCRIPTION .PARAMETER Message .PARAMETER Level .PARAMETER Colour .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $VM, [string] $DeleteOption = "Detach" ) BEGIN {} PROCESS { try { # Set OS Disk to # Set OS Disk to '"Detach"' $VM.StorageProfile.OsDisk.DeleteOption = $DeleteOption Write-WithTime_Using_WriteHost "Setting OS disk to 'DeleteOption' to '$DeleteOption' ..." # Set Data Disks to 'Detach' foreach ($disk in $VM.StorageProfile.DataDisks) { Write-WithTime_Using_WriteHost "Setting data disk '$($disk.Name)' 'DeleteOption' to '$DeleteOption' ..." $disk.DeleteOption = $DeleteOption } Write-WithTime_Using_WriteHost "Updating VM with new disk 'DeleteOption' settings ..." Update-AzVM -ResourceGroupName $VM.ResourceGroupName -VM $VM -ErrorAction Stop > $null } catch { Write-Error $_.Exception.Message } } END {} } function Set-AzVMNICsDeleteOption { <# .SYNOPSIS .DESCRIPTION .PARAMETER Message .PARAMETER Level .PARAMETER Colour .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] $VM, [string] $DeleteOption = "Detach" ) BEGIN {} PROCESS { try { foreach ($nic in $VM.NetworkProfile.NetworkInterfaces) { Write-WithTime_Using_WriteHost "Setting '$($nic.Id)' network card 'DeleteOption' to '$DeleteOption' ..." $nic.DeleteOption = "Detach" } Write-WithTime_Using_WriteHost "Updating VM with new NICs 'DeleteOption' settings ..." Update-AzVM -ResourceGroupName $VM.ResourceGroupName -VM $VM -ErrorAction Stop > $null } catch { Write-Error $_.Exception.Message } } END {} } function Test-AzVMSSIsFlexType { <# .SYNOPSIS .DESCRIPTION .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMSSName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMSSGResourceGroupName ) BEGIN {} PROCESS { try { $VMSS = Get-AzVmss -ResourceGroupName $VMSSGResourceGroupName -VMScaleSetName $VMSSName -ErrorAction Stop if ("Flexible" -eq $VMSS.OrchestrationMode ) { return $True } else { return $false } } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzVMSSZones { <# .SYNOPSIS .DESCRIPTION .PARAMETER Message .PARAMETER Level .PARAMETER Colour .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMSSName, [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $VMSSGResourceGroupName ) BEGIN {} PROCESS { try { $VMSS = Get-AzVmss -ResourceGroupName $VMSSGResourceGroupName -VMScaleSetName $VMSSName -ErrorAction Stop $Zones = $VMSS.Zones return $Zones } catch { Write-Error $_.Exception.Message } } END {} } function Test-AzVMSKUZonalAvailability { <# .SYNOPSIS Test-AzVMSKUZonalAvailability ckeck if VM SKU is avaible in the specifed zone. .DESCRIPTION Test-AzVMSKUZonalAvailability returns $true if VM SKU is avaibel in the specifed zone, othewise returns $false and writes an error. .PARAMETER VMSize VM size. .PARAMETER location Azure region. .PARAMETER AzureZone Azure zone number. .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory)] [string] $VMSize, [Parameter(Mandatory)] [string] $location, [Parameter(Mandatory)] [string] $AzureZone ) BEGIN {} PROCESS { try { Write-WithTime_Using_WriteHost "Checking VM SKU '$VMSize' availablity in Azure zone '$AzureZone' in region '$location' ...." #-AppendEmptyLine $VMSKUIsAvailableinAzureZone = Test-AzComputeSKUZonesAvailability -Location $location -VMSKU $VMSize -AzureZone $AzureZone if (-not $VMSKUIsAvailableinAzureZone) { $AzureZones = Get-AzComputeSKUZonesAvailability -Location $location -VMSKU $VMSize if ($null -eq $AzureZones) { Write-Host Write-Error "VM SKU '$VMSize' is not available in any of the Azure zones in region '$location'. PLease use another VM SKU." return $false }else { Write-WithTime_Using_WriteHost "VM SKU '$VMSize' is available in these Azure zone(s):" Write-Host $AzureZones Write-Host Write-Error "VM SKU '$VMSize' is not available in desired Azure zone '$AzureZone' in region '$location'. PLease use another VM SKU or another zone." return $false } } return $true } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzVMNetworkInterfacesCards { <# .SYNOPSIS Get-AzVMNetworkInterfacesCards gest virtual machine all network cards .DESCRIPTION Get-AzVMNetworkInterfacesCards gest virtual machine all network cards .PARAMETER VMResourceGroupName VM Resource Group Name. .PARAMETER VirtualMachineName Virtual Machine Name. .EXAMPLE $NICs = Get-AzVMNetworkInterfacesCards -VMResourceGroupName gor-vmssflex1 -VirtualMachineName test1 # Get NIC 0 Id $NICs[0].Id # Get NIC 1 Id $NICs[1].Id #> [CmdletBinding()] param( [Parameter(Mandatory)] [string] $VMResourceGroupName, [Parameter(Mandatory)] [string] $VirtualMachineName ) BEGIN {} PROCESS { try { #Write-WithTime_Using_WriteHost "Checking VM SKU '$VMSize' availablity in Azure zone '$AzureZone' in region '$location' ...." -AppendEmptyLine $VM = Get-AzVM -resourceGroup $VMResourceGroupName -Name $VirtualMachineName return $VM.NetworkProfile.NetworkInterfaces } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzVMNetworkInterfacesCardLoadBalancerBackendAddressPools { <# .SYNOPSIS Get-AzVMNetworkInterfacesCards gest virtual machine all network cards .DESCRIPTION Get-AzVMNetworkInterfacesCards gest virtual machine all network cards .PARAMETER VMResourceGroupName VM Resource Group Name. .PARAMETER VirtualMachineName Virtual Machine Name. .EXAMPLE $NICs = Get-AzVMNetworkInterfacesCards -VMResourceGroupName gor-vmssflex1 -VirtualMachineName test1 # Get NIC 0 Id $NICs[0].Id # Get NIC 1 Id $NICs[1].Id #> [CmdletBinding()] param( [Parameter(Mandatory)] [string] $NetworkInterfaceCardId ) BEGIN {} PROCESS { try { #Write-WithTime_Using_WriteHost "Checking VM SKU '$VMSize' availablity in Azure zone '$AzureZone' in region '$location' ...." -AppendEmptyLine $NIC = Get-AzNetworkInterface -ResourceId $NetworkInterfaceCardId return $NIC.IpConfigurations.LoadBalancerBackendAddressPools } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzLoadbBalancerIdFromBackendPoolId { <# .SYNOPSIS .DESCRIPTION .PARAMETER VMResourceGroupName .PARAMETER VirtualMachineName .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory)] [string] $LoadBalancerBackendAddressPoolId ) BEGIN {} PROCESS { try { #Write-WithTime_Using_WriteHost "Checking VM SKU '$VMSize' availablity in Azure zone '$AzureZone' in region '$location' ...." -AppendEmptyLine $LoadbBalancerId= $LoadBalancerBackendAddressPoolId -replace '/backendAddressPools/.+', '' return $LoadbBalancerId } catch { Write-Error $_.Exception.Message } } END {} } function Test-AzLoadbBalancerIsStandard { <# .SYNOPSIS .DESCRIPTION .PARAMETER VMResourceGroupName .PARAMETER VirtualMachineName .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory)] [string] $LoadBalancerId ) BEGIN {} PROCESS { try { #Write-WithTime_Using_WriteHost "Checking VM SKU '$VMSize' availablity in Azure zone '$AzureZone' in region '$location' ...." -AppendEmptyLine $LoadBalancerResource = Get-AzResource -ResourceId $LoadBalancerId -ErrorAction Stop $ILB = Get-AzLoadBalancer -ResourceGroupName $LoadBalancerResource.ResourceGroupName -Name $LoadBalancerResource.Name -ErrorAction Stop #check if ILB SKU for 'Standard' if($ILB.Sku.Name -eq "Standard"){ return $True } else{ return $False } } catch { Write-Error $_.Exception.Message } } END {} } function Test-AzVMLoadbBalancerIsStandard { <# .SYNOPSIS .DESCRIPTION .PARAMETER VMResourceGroupName .PARAMETER VirtualMachineName .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory)] [string] $VMResourceGroupName, [Parameter(Mandatory)] [string] $VirtualMachineName ) BEGIN {} PROCESS { try { Write-WithTime_Using_WriteHost "Checking if VM SKU '$VirtualMachineName' in resource group '$VMResourceGroupName' is using standard load balancer ...." # -AppendEmptyLine $NICs = Get-AzVMNetworkInterfacesCards -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName foreach ($nic in $NICs) { Write-WithTime_Using_WriteHost "Checking if NIC card '$($nic.Id)' has configured load balancer backend address pools ...." # -AppendEmptyLine $NICBackendLBPools = Get-AzVMNetworkInterfacesCardLoadBalancerBackendAddressPools -NetworkInterfaceCardId $nic.Id if($null -eq $NICBackendLBPools){ Write-WithTime_Using_WriteHost "NIC card '$($nic.Id)' has no configured load balancer backend address pool and no configured Azure load balancer." # -AppendEmptyLine } foreach($NICBackendLBPool in $NICBackendLBPools){ Write-WithTime_Using_WriteHost "NIC card '$($nic.Id)' has configured load balancer backend address pool '$($NICBackendLBPool.Id)'." # -AppendEmptyLine $AzureLoadBalancerId = Get-AzLoadbBalancerIdFromBackendPoolId -LoadBalancerBackendAddressPoolId $NICBackendLBPool.Id Write-WithTime_Using_WriteHost "Backend address pool '$($NICBackendLBPool.Id)' is configured with Azure Load Balancer '$AzureLoadBalancerId'." # -AppendEmptyLine # Check is Azure load balancer is Standart type $LoadBalancerIsStandardType = Test-AzLoadbBalancerIsStandard -LoadBalancerId $AzureLoadBalancerId if ($LoadBalancerIsStandardType) { Write-WithTime_Using_WriteHost "Azure Load Balancer '$AzureLoadBalancerId' is Standard type. This is supported for Azure Virtual Machine Scale Set. " # -AppendEmptyLine }else{ Write-Error "Azure Load Balancer '$AzureLoadBalancerId' is not Standard type. " return $false } } } return $true } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzVMLoadbBalancer { <# .SYNOPSIS If an VM NIC card is configured with load balancer, return Load Balanver object. .DESCRIPTION .PARAMETER VMResourceGroupName .PARAMETER VirtualMachineName .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory)] [string] $VMResourceGroupName, [Parameter(Mandatory)] [string] $VirtualMachineName ) BEGIN {} PROCESS { try { Write-Verbose "Checking if VM SKU '$VirtualMachineName' in resource group '$VMResourceGroupName' is using an load balancer ...." $NICs = Get-AzVMNetworkInterfacesCards -VMResourceGroupName $VMResourceGroupName -VirtualMachineName $VirtualMachineName foreach ($nic in $NICs) { Write-Verbose "Checking if NIC card '$($nic.Id)' has configured load balancer backend address pools ...." $NICBackendLBPools = Get-AzVMNetworkInterfacesCardLoadBalancerBackendAddressPools -NetworkInterfaceCardId $nic.Id if($null -eq $NICBackendLBPools){ Write-Verbose "NIC card '$($nic.Id)' has no configured load balancer backend address pool and no configured Azure load balancer." } foreach($NICBackendLBPool in $NICBackendLBPools){ Write-Verbose "NIC card '$($nic.Id)' has configured load balancer backend address pool '$($NICBackendLBPool.Id)'." $AzureLoadBalancerId = Get-AzLoadbBalancerIdFromBackendPoolId -LoadBalancerBackendAddressPoolId $NICBackendLBPool.Id Write-Verbose "Backend address pool '$($NICBackendLBPool.Id)' is configured with Azure Load Balancer '$AzureLoadBalancerId'." $LoadBalancerResource = Get-AzResource -ResourceId $AzureLoadBalancerId $ILB = Get-AzLoadBalancer -ResourceGroupName $LoadBalancerResource.ResourceGroupName -Name $LoadBalancerResource.Name -ErrorAction Stop return $ILB } } return } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzResourceTag { <# .SYNOPSIS .DESCRIPTION .EXAMPLE .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceID ) BEGIN{ } PROCESS{ try{ $Tags = (Get-AzResource -ResourceId $ResourceID).Tags $Tags } catch{ Write-Error $_.Exception.Message } } END {} } function Set-AzResourceTag { <# .SYNOPSIS .DESCRIPTION .EXAMPLE .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceID, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $Tags ) BEGIN{ } PROCESS{ try{ Set-AzResource -ResourceId $ResourceID -Tag $Tags -force } catch{ Write-Error $_.Exception.Message } } END {} } function Get-AzSubscriptionContext { <# .SYNOPSIS .DESCRIPTION .EXAMPLE .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 BEGIN{ } PROCESS{ try{ $AzureContext = Get-AzContext $AzureSubscriptionContext = $AzureContext.Subscription return $AzureSubscriptionContext } catch{ Write-Error $_.Exception.Message } } END {} } function Get-AzNetAppFilesAccountsPoolsVolumes { <# .SYNOPSIS Get-AzNetAppFilesAccountsPoolsVolumes collect information on ALL subscription Azure NetApp Accounts, its pools and volumes. .DESCRIPTION Get-AzNetAppFilesAccountsPoolsVolumes collect information on ALL subscription Azure NetApp Accounts, its Pools and volumes. It expands ANF Accoutns object with Pools, and Pools with own Volumes. .EXAMPLE # Colelct ALL subscription ANF accounts, with correcponding pools and volumes $ANFAccounts = Get-AzNetAppFilesAccountsPoolsVolumes # Get first account $ANFAccounts[0] # Get $ANFAccounts[0] all pools $ANFAccounts[0].Pools # Get $ANFAccounts[0] first pool $ANFAccounts[0].Pools[0] # Get $ANFAccounts[0] second pool $ANFAccounts[0].Pools[1] # Get $ANFAccounts[0] all volumes of the first pool $ANFAccounts[0].Pools[0].Volumes # Get number of volumes of the $ANFAccounts[0] first pool $ANFAccounts[0].Pools[0].Volumes.Count # Get first volume of the first pool of the account $ANFAccounts[0] $ANFAccounts[0].Pools[0].Volumes[0] # Get second volume of the first pool of the account $ANFAccounts[0] $ANFAccounts[0].Pools[0].Volumes[1] # get IP adresss of the volume ($ANFAccounts | where Name -eq gor-anf-we).Pools[1].Volumes[2].MountTargets.IpAddress #Get T2 spine info ($ANFAccounts | where Name -eq gor-anf-we).Pools[1].Volumes[2].T2Network # Get NFS address ($ANFAccounts | where Name -eq gor-anf-we).Pools[1].Volumes[2].NFSAddress .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.NetAppFiles BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Get-AzNetAppFilesAccountsPoolsVolumes ..." # Get ALL ANF accounts in a Subscription $AllAzureANFResourceAccounts = Get-AzResource -ResourceType "Microsoft.NetApp/netAppAccounts" foreach ($ANFAccount in $AllAzureANFResourceAccounts) { $ANFObject = New-Object -TypeName psobject $ANFObject = $ANFAccount $ANFAccountResourceGroupName = $ANFAccount.ResourceGroupName $ANFAccountName = $ANFAccount.Name # get all ANF Pools in ANF Account $ANFPools = Get-AzNetAppFilesPool -ResourceGroupName $ANFAccount.ResourceGroupName -AccountName $ANFAccountName $ANFPoolsExtendedObjects = @() foreach ($ANFPool in $ANFPools) { $ANFPoolName = $ANFPool.Name.Replace($ANFAccountName+"/","") $ANFVolumesInPool = Get-AzNetAppFilesVolume -ResourceGroupName $ANFAccountResourceGroupName -AccountName $ANFAccountName -PoolName $ANFPoolName # Get all volumes in a ANF pool $ANFVolumesExtendedObjects = @() foreach ($ANFVolumeInPool in $ANFVolumesInPool) { #get the volume name from 'gor-anf-we/UltraPool2/SO2-data-mnt00001' $VolumeNameShort = $ANFVolumeInPool.Name.Split("/")[2] # we can have more than one MountTarget e.g. IPAddres $NFSAddresses = @() foreach ($MountTarget in $ANFVolumeInPool.MountTargets) { $NFSAddress = $MountTarget.IpAddress + ":/" + $VolumeNameShort $NFSAddresses += $NFSAddress } #$NFSAddress = $ANFVolumeInPool.MountTargets.IpAddress + ":/" + $VolumeNameShort # Define new extended volume object $ANFVolumeExtendedObject =New-Object -TypeName psobject $ANFVolumeExtendedObject = $ANFVolumeInPool # Extend volume abject with NFSAddress $ANFVolumeExtendedObject | Add-Member -NotePropertyName "NFSAddresses" -NotePropertyValue $NFSAddresses $ANFVolumesExtendedObjects += $ANFVolumeExtendedObject } # Define new extended Pool object $ANFPoolExtendedObject =New-Object -TypeName psobject $ANFPoolExtendedObject = $ANFPool # Extend Pool abject with all volumes #$ANFPoolExtendedObject | Add-Member -NotePropertyName "Volumes" -NotePropertyValue $ANFVolumesInPool $ANFPoolExtendedObject | Add-Member -NotePropertyName "Volumes" -NotePropertyValue $ANFVolumesExtendedObjects $ANFPoolsExtendedObjects += $ANFPoolExtendedObject } $ANFObject | Add-Member -NotePropertyName "Pools" -NotePropertyValue $ANFPoolsExtendedObjects Write-Output $ANFObject } Write-Verbose "Get-AzNetAppFilesAccountsPoolsVolumes executed succesfully." } catch{ Write-Error "Error while executing Get-AzNetAppFilesAccountsPoolsVolumes. $_.Exception.Message" } } END {} } function Get-AzVMNetworkInterfaceCards { <# .SYNOPSIS Get-AzVMNetworkInterfaceCards gest virtual machine all network cards .DESCRIPTION Get-AzVMNetworkInterfaceCards gest virtual machine all network cards .PARAMETER VMResourceGroupName VM Resource Group Name. .PARAMETER VirtualMachineName Virtual Machine Name. .EXAMPLE $NICs = Get-AzVMNetworkInterfaceCards -VMResourceGroupName gor-vmssflex1 -VirtualMachineName test1 # Get NIC 0 Id $NICs[0].Id # Get NIC 1 Id $NICs[1].Id #> [CmdletBinding()] param( [Parameter(Mandatory)] $VM ) BEGIN {} PROCESS { try { write-verbose "Executing Get-AzVMNetworkInterfaceCards ..." foreach ($nic in $VM.NetworkProfile.NetworkInterfaces) { $NetworkCardObject = Get-AzNetworkInterface -ResourceId $nic.Id Write-Output $NetworkCardObject } write-verbose "Succesfully executed Get-AzVMNetworkInterfaceCards." } catch { Write-Error $_.Exception.Message } } END {} } function Get-AzAzureFileShareAndStorageAccount { <# .SYNOPSIS Get-AzAzureFileShareAndStorageAccount looks for Azure storage account and file share in ALL subscription Azure storage accounts. .DESCRIPTION Get-AzAzureFileShareAndStorageAccount looks for Azure storage account and file share in ALL subscription Azure storage accounts. When it finds, it returns object that consist of 'AzureStorageAccount' and 'AzureFileShare' information. .EXAMPLE $OneAcc = Get-AzAzureFileShareAndStorageAccount -AzureStorageAccountName "s41sapafsnfs2" -AzurFileShareName "sapmnt" # Get detail info on Azure Storage Account $OneAcc.AzureStorageAccount # Get detail info on Azure file share $OneAcc.AzureFileShare .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory=$True,ValueFromPipeline=$True)] [string] $AzureStorageAccountName, [Parameter(Mandatory=$True,ValueFromPipeline=$True)] [string] $AzurFileShareName, [Parameter(Mandatory=$false,ValueFromPipeline=$True)] [object] $AzureStorageAccounts ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Get-AzAzureFileShareAndStorageAccount ..." if(-not $AzureStorageAccounts){ # Get all Azure Storage Accounts Write-Verbose "Collecting all Azure Storage Accounts in the subscription ..." $AzureStorageAccounts = Get-AzStorageAccount } # search for $AzureStorageAccountName inside of all Azure Storage Accounts $OneAzureStorageAccount = $AzureStorageAccounts | where StorageAccountName -Like $AzureStorageAccountName # Remove 'Context' property - 'Context' is referencing itself endless, and therefore braking JSON structure limit of 100 depth items when using ConvertTo-Json cmdlet $OneAzureStorageAccount = $OneAzureStorageAccount | Select-Object -Property * -ExcludeProperty Context if ($OneAzureStorageAccount) { # We found a match Write-Verbose "Found Azure storage account '$AzureStorageAccountName'." $AzureFileShareAndStorageAccontExtendedObject = New-Object -TypeName psobject $AzureFileShareAndStorageAccontExtendedObject | Add-Member -NotePropertyName "AzureStorageAccount" -NotePropertyValue $OneAzureStorageAccount # get all shares belonging to Azure Storage Account $Shares = Get-AzRmStorageShare -ResourceGroupName $OneAzureStorageAccount.ResourceGroupName -StorageAccountName $OneAzureStorageAccount.StorageAccountName $OneShare = $Shares | where Name -EQ $AzurFileShareName if ($OneShare) { # found share Write-Verbose "Found file share '$AzurFileShareName' belonging to Azure storage account '$AzureStorageAccountName'." $AzureFileShareAndStorageAccontExtendedObject | Add-Member -NotePropertyName "AzureFileShare" -NotePropertyValue $OneShare }else { Write-Verbose "Did not find file share '$AzurFileShareName' belonging to Azure storage account '$AzureStorageAccountName'." } Write-Output $AzureFileShareAndStorageAccontExtendedObject }else { Write-Verbose "Did not find Azure storage account '$AzureStorageAccountName'." } Write-Verbose "Get-AzAzureFileShareAndStorageAccount executed succesfully." } catch{ Write-Error "Error while executing Get-AzAzureFileShareAndStorageAccount. $_.Exception.Message" } } END {} } function Test-AzVMSKUEphemeralOSDiskSupport { <# .SYNOPSIS Test-AzVMSKUEphemeralOSDiskSupport checks if Azure VM SKU ina region supports ephemeral OS disk. .DESCRIPTION Test-AzVMSKUEphemeralOSDiskSupport retruns 'True' string is VM SKU in a region has Ephemeral OS disk, or 'False' string if it has not. In case that SM SKU do not exists ina region (and in any zone) exception with error message is writteb, and no result is returned. .EXAMPLE # returns 'True' - VM SKU Standard_M416-208ms_v2 exists in West Europe and have ephemeral OS disk. Test-AzVMSKUEphemeralOSDiskSupport -Location "westeurope" -VMSKU "Standard_M416-208ms_v2" .EXAMPLE # returns 'False' - VM SKU Standard_E8as_v5 exists in West Europe and do not have ephemeral OS disk. Test-AzVMSKUEphemeralOSDiskSupport -Location "westeurope" -VMSKU "Standard_E8as_v5" .EXAMPLE # ERROR message - nothing is returned - Standard_M176s_4_v3 do not exists in region Norway East Test-AzVMSKUEphemeralOSDiskSupport -Location "NorwayEast" -VMSKU "Standard_M176s_4_v3" .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory=$True,ValueFromPipeline=$True)] [string] $Location, [Parameter(Mandatory=$True,ValueFromPipeline=$True)] [string] $VMSKU ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Test-AzVMSKUEphemeralOSDiskSupport ..." $VmSKUsinRegion = Get-AzComputeResourceSku $Location $SupportedRegionalVMSKUZones = Get-AzComputeSKUZonesAvailability -Location $Location -VMSKU $VMSKU $ExtendedVMSKUObject = $VmSKUsinRegion | where { ($_.Name -eq $VMSKU) } # return 'True' or 'False' as a string $EphemeralOSDiskSupported = ($ExtendedVMSKUObject.Capabilities | where name -eq EphemeralOSDiskSupported).Value Write-Output $EphemeralOSDiskSupported Write-Verbose "Test-AzVMSKUEphemeralOSDiskSupport executed succesfully." } catch{ Write-Error "Error while executing Test-AzVMSKUEphemeralOSDiskSupport. $_.Exception.Message" } } END {} } function Test-AzVMSKUTemporaryDiskSupport { <# .SYNOPSIS Test-AzVMSKUTemporaryDiskSupport checks if Azure VM SKU ina region supports temporary disk. .DESCRIPTION Test-AzVMSKUTemporaryDiskSupport checks if Azure VM SKU in a region supports temporary disk. It retruns 'True' or 'False'. In case that SM SKU do not exists ina region (and in any zone) exception with error message is written, and no result is returned. .EXAMPLE # returns 'True' - VM SKU Standard_M416-208ms_v2 exists in West Europe and have temp disk. Test-AzVMSKUTemporaryDiskSupport -Location "westeurope" -VMSKU "Standard_M416-208ms_v2" .EXAMPLE # returns 'False' - VM SKU Standard_E8as_v5 exists in West Europe and do not have temp disk. Test-AzVMSKUTemporaryDiskSupport -Location "westeurope" -VMSKU "Standard_E8as_v5" .EXAMPLE # ERROR message - nothing is returned - Standard_M176s_4_v3 do not exists in region Norway East Test-AzVMSKUTemporaryDiskSupport -Location "NorwayEast" -VMSKU "Standard_M176s_4_v3" .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory=$True,ValueFromPipeline=$True)] [string] $Location, [Parameter(Mandatory=$True,ValueFromPipeline=$True)] [string] $VMSKU ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Test-AzVMSKUTemporaryDiskSupport ..." # If VM SKU has Ephemeral OS, then it has temp disk, otherwise not. $AzVMSKUEphemeralOSDiskSupport = Test-AzVMSKUEphemeralOSDiskSupport -Location $Location -VMSKU $VMSKU Write-Output $AzVMSKUEphemeralOSDiskSupport Write-Verbose "Test-AzVMSKUTemporaryDiskSupport executed succesfully." } catch{ Write-Error "Error while executing Test-AzVMSKUTemporaryDiskSupport. $_.Exception.Message" } } END {} } function Get-AzVMFamilyFromSKU { <# .SYNOPSIS Get-AzVMFamilyFromSKU. .DESCRIPTION Get-AzVMFamilyFromSKU. .EXAMPLE # Msv2 Medium Memory Diskless # https://learn.microsoft.com/en-us/azure/virtual-machines/msv2-mdsv2-series#msv2-medium-memory-diskless Get-AzVMFamilyFromSKU -VMSKU "Standard_M32s_v2" Get-AzVMFamilyFromSKU -VMSKU "Standard_M32ms_v2" Get-AzVMFamilyFromSKU -VMSKU "Standard_M192is_v2" Get-AzVMFamilyFromSKU -VMSKU "Standard_M192ims_v2" # Output is 'StandardMSv2Family' .EXAMPLE # Mdsv2 Medium Memory with Disk # https://learn.microsoft.com/en-us/azure/virtual-machines/msv2-mdsv2-series#mdsv2-medium-memory-with-disk Get-AzVMFamilyFromSKU -VMSKU "Standard_M32dms_v2" Get-AzVMFamilyFromSKU -VMSKU "Standard_M64ds_v2" Get-AzVMFamilyFromSKU -VMSKU "Standard_M128ds_v2" Get-AzVMFamilyFromSKU -VMSKU "Standard_M128dms_v2" Get-AzVMFamilyFromSKU -VMSKU "Standard_M192ids_v2" Get-AzVMFamilyFromSKU -VMSKU "Standard_M192idms_v2" # Output is 'standardMDSMediumMemoryv2Family' .EXAMPLE .LINK .NOTES v0.1 - Initial version #> [CmdletBinding()] param( [Parameter(Mandatory=$True,ValueFromPipeline=$True)] [string] $VMSKU ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Get-AzVMFamilyFromSKU ..." switch -regex ($VMSKU) { # Msv2 Medium Memory Diskless # https://learn.microsoft.com/en-us/azure/virtual-machines/msv2-mdsv2-series#msv2-medium-memory-diskless # OR # Mv2-series # https://learn.microsoft.com/en-us/azure/virtual-machines/mv2-series '^Standard_M[0-9]+[i]?[m]?s_v2$' { # ^ = BEGNINING # Standard_M = 'Standard_M' # [0-9]+ = 1 or more times numbers # [m]? = 0 or 1 time 'm' # [i]? = 0 or 1 time 'i' # s_v2 = 's_v2' # $ - END if (($VMSKU -match "M208") -or ($VMSKU -match "M416")) { Write-Output "StandardMv2Family???" }else { Write-Output "StandardMSv2Family" } } # Mdsv2 Medium Memory with Disk # https://learn.microsoft.com/en-us/azure/virtual-machines/msv2-mdsv2-series#mdsv2-medium-memory-with-disk '^Standard_M[0-9]+[i]?d[m]?s_v2$' { # ^ = BEGNINING # Standard_M = 'Standard_M' # [0-9]+ = 1 or more times numbers # [i]? = 0 or 1 time 'i' # d = 'd' # [m]? = 0 or 1 time 'm' # s_v2 = 's_v2' # $ - END Write-Output "standardMDSMediumMemoryv2Family" } Default { Write-Host "NO_MATCH" } } Write-Verbose "Get-AzVMFamilyFromSKU executed succesfully." } catch{ Write-Error "Error while executing Get-AzVMFamilyFromSKU. $_.Exception.Message" } } END {} } function Get-AzVMUniqueueExportImportJSONFileNamePath { <# .SYNOPSIS .DESCRIPTION Get-AzVMUniqueueExportImportJSONFileNamePath return an object with two uniqueue full path: - <CurrentScriptFolder>/<VMName>_<ResourceGroupName>_<SubscriptionId>-orig.json - <CurrentScriptFolder>/<VMName>_<ResourceGroupName>_<SubscriptionId>-new.json The first one is sed to export ARM template. Second one is used in Resize-AzVM to resize to new VM SKU. .EXAMPLE $ret = Get-AzVMUniqueueExportImportJSONFileNamePath -ResourceGroupName rg1-eastus -VirtualMachineName vm1 # Original VM file name $ret.OriginalARMVMFullPathFile # output like: C:\Users\user1\vm1_rg1-eastus_e6789c2d-722b-4be1-b636-bbd9e4c6h786-orig.json # New VM file path $ret.NewARMVMFullPathFile # output like: C:\Users\user1\vm1_rg1-eastus_e6789c2d-722b-4be1-b636-bbd9e4c6h786-new.json .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Get-AzVMUniqueueExportImportJSONFileNamePath ..." $CurrentDirectory = (Get-Location).Path Write-Verbose "Script directory is '$CurrentDirectory'." $AzureSubscriptionId = (Get-AzSubscriptionContext).Id Write-Verbose "Azure subscription Id '$AzureSubscriptionId'." Write-Verbose "VM name is '$VirtualMachineName'." Write-Verbose "VM resource group name is '$ResourceGroupName'." $JSONPathOrig = $CurrentDirectory + "/" + $VirtualMachineName + "_" + $ResourceGroupName + "_" + $AzureSubscriptionId + "-orig-ARM.json" $JSONPathNew = $CurrentDirectory + "/" + $VirtualMachineName + "_" + $ResourceGroupName + "_" + $AzureSubscriptionId + "-new-ARM.json" $PowerShellJSONOrig = $CurrentDirectory + "/" + $VirtualMachineName + "_" + $ResourceGroupName + "_" + $AzureSubscriptionId + "-orig-PowerShell.json" $VMOSDiskRestore = $CurrentDirectory + "/" + $VirtualMachineName + "_" + $ResourceGroupName + "_" + $AzureSubscriptionId + "-Restore.json" $JSONRestoreARMPathOrig = $CurrentDirectory + "/" + $VirtualMachineName + "_" + $ResourceGroupName + "_" + $AzureSubscriptionId + "-Restore-ARM.json" Write-Verbose "Generated original VM JSON file path is '$JSONPathOrig'." Write-Verbose "Generated new VM JSON file path is '$JSONPathNew'." Write-Verbose "Generated new VM PowerShell file path is '$PowerShellJSONOrig'." $FilesPathObject = New-Object -Type PSObject $FilesPathObject | Add-Member -NotePropertyName "OriginalARMVMFullPathFile" -NotePropertyValue $JSONPathOrig $FilesPathObject | Add-Member -NotePropertyName "NewARMVMFullPathFile" -NotePropertyValue $JSONPathNew $FilesPathObject | Add-Member -NotePropertyName "OriginalPowerShellVMFullPathFile" -NotePropertyValue $PowerShellJSONOrig $FilesPathObject | Add-Member -NotePropertyName "VMOSDiskRestore" -NotePropertyValue $VMOSDiskRestore $FilesPathObject | Add-Member -NotePropertyName "OriginalRestoreARMVMFullPathFile" -NotePropertyValue $JSONRestoreARMPathOrig Write-Output $FilesPathObject Write-Verbose "Get-AzVMUniqueueExportImportJSONFileNamePath executed succesfully." } catch{ Write-Error "Error while executing Get-AzVMUniqueueExportImportJSONFileNamePath. $_.Exception.Message" } } END {} } function Get-AzVMScriptLogFileFullPath { <# .SYNOPSIS .DESCRIPTION .EXAMPLE .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory=$False)] [ValidateNotNullOrEmpty()] [string] $LogDirectory ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Get-AzVMScriptLogFileFullPath ..." if (-not $LogDirectory) { $LogDirectory = (Get-Location).Path } Write-Verbose "Script directory is '$LogDirectory'." $AzureSubscriptionId = (Get-AzSubscriptionContext).Id Write-Verbose "Azure subscription Id '$AzureSubscriptionId'." Write-Verbose "VM name is '$VirtualMachineName'." Write-Verbose "VM resource group name is '$ResourceGroupName'." $CurrentTime = Get-Date $LogFileName = $LogDirectory + "/" + $VirtualMachineName + "_" + $ResourceGroupName + "_" + $AzureSubscriptionId + "_" + $CurrentTime.Year + "_" + $CurrentTime.Month + "_" + $CurrentTime.Day + "_" + $CurrentTime.Hour + "_" + $CurrentTime.Minute + ".log" Write-Verbose "Full path of the log file is '$LogFileName'." Write-Output $LogFileName Write-Verbose "Get-AzVMScriptLogFileFullPath executed succesfully." } catch{ Write-Error "Error while executing Get-AzVMScriptLogFileFullPath. $_.Exception.Message" } } END {} } function Get-AzVMOSDiskInfo { <# .SYNOPSIS .DESCRIPTION .EXAMPLE .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $VM ) BEGIN{ } PROCESS{ #try{ Write-Verbose "Executing Get-AzVMOSDiskInfo ..." # Get the OS Disk info [string] $Location = $VM.Location [string] $StorageType = $VM.StorageProfile.OsDisk.ManagedDisk.StorageAccountType [string] $OSDiskName = $VM.StorageProfile.OsDisk.Name $OSDisk = Get-AzDisk -ResourceGroupName $VM.ResourceGroupName -DiskName $OSDiskName -ErrorAction Stop $OSDiskTags = $OSDisk.Tags # when non-Zonal disk / VM this value is an empty string [string] $VMDiskZone = $VM.Zones $VMOSDiskObject = New-Object -Type PSObject $VMOSDiskObject | Add-Member -NotePropertyName "OSDisk" -NotePropertyValue $OSDisk $VMOSDiskObject | Add-Member -NotePropertyName "Location" -NotePropertyValue $Location $VMOSDiskObject | Add-Member -NotePropertyName "StorageType" -NotePropertyValue $StorageType $VMOSDiskObject | Add-Member -NotePropertyName "OSDiskName" -NotePropertyValue $OSDiskName $VMOSDiskObject | Add-Member -NotePropertyName "OSDiskTags" -NotePropertyValue $OSDiskTags $VMOSDiskObject | Add-Member -NotePropertyName "OSDiskZone" -NotePropertyValue $VMDiskZone Write-Output $VMOSDiskObject Write-Verbose "Get-AzVMOSDiskInfo executed succesfully." #} #catch{ #Write-Error "Error while executing Get-AzVMOSDiskInfo. $_.Exception.Message" #} } END {} } function Update-AzVMARMTemplateForReDeploy { <# .SYNOPSIS .DESCRIPTION .EXAMPLE .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $SourceVMFullPathFile, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $NewVMSKU ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Update-AzVMARMTemplateForReDeploy ..." Write-WithTime_Using_WriteHost "Updating Azure VM ARM teplate ..." $VMImportedFromJSONObject = Get-Content $SourceVMFullPathFile -ErrorAction Stop | ConvertFrom-Json # Remove 'imageReference' $VMImportedFromJSONObject.resources[0].properties.storageProfile.PSObject.Properties.Remove('imageReference') # Remove osProfile $VMImportedFromJSONObject.resources[0].properties.PSObject.Properties.Remove('osProfile') # Set OS Disk 'createOption' to Attach $VMImportedFromJSONObject.resources[0].properties.storageProfile.osDisk.createOption='Attach' # Set Data Disks 'createOption' to Attach [int] $i = 0 foreach ($DataDisk in $VMImportedFromJSONObject.resources[0].properties.storageProfile.dataDisks) { $VMImportedFromJSONObject.resources[0].properties.storageProfile.dataDisks[$i].createOption = 'Attach' $i += 1 } # Update new VM SKU $VMImportedFromJSONObject.resources[0].properties.hardwareProfile.vmSize=$NewVMSKU Write-Output $VMImportedFromJSONObject Write-Verbose "Update-AzVMARMTemplateForReDeploy executed succesfully." } catch{ Write-Error "Error while executing Update-AzVMARMTemplateForReDeploy. $_.Exception.Message" } } END {} } function Test-AzVMSKUPremiumDiskSupport { <# .SYNOPSIS Test-AzVMSKUPremiumDiskSupport check if VM SKU in a Location suports premium disks. .DESCRIPTION Test-AzVMSKUPremiumDiskSupport check if VM SKU in a Location suports premium disks. If yes, it retruns $true, otherwise $false. .EXAMPLE Test-AzVMSKUPremiumDiskSupport -Location norwayeast -VMSKU Standard_E8as_v5 .LINK .EXAMPLE Test-AzVMSKUPremiumDiskSupport -Location norwayeast -VMSKU Standard_E16_v5 .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $Location, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $VMSKU ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Test-AzVMSKUPremiumDiskSupport ..." Write-Verbose "Getting Azure VM SKUs in region '$Location' ..." $resourceSkus = Get-AzComputeResourceSku | Where-Object { $_.Locations -contains $Location -and $_.ResourceType -eq 'virtualMachines' } # Check if the VM size supports premium storage Write-Verbose "Getting VM SKU '$VMSKU' in region '$Location' information ..." $VMSKUInRegion = $resourceSkus | Where-Object { $_.Name -eq $VMSKU } if ($VMSKUInRegion) { Write-Verbose "Found VM SKU '$VMSKU' in region '$Location'." }else { Write-Verbose "VM SKU '$VMSKU' in region '$Location' do not exists! Please check your VM SKU." Throw "VM SKU '$VMSKU' in region '$Location' do not exists! Please check your VM SKU." } Write-Verbose "Checking if VM SKU '$VMSKU' in region '$Location' supports Premium disks ..." $premiumStorageSupported = $VMSKUInRegion.Capabilities | Where-Object { $_.Name -eq 'PremiumIO' -and $_.Value -eq 'True' } if ($premiumStorageSupported.Value -EQ "True") { Write-Output $true } else { Write-Output $false } Write-Verbose "Test-AzVMSKUPremiumDiskSupport executed succesfully." } catch{ Write-Error "Error while executing Test-AzVMSKUPremiumDiskSupport. $_.Exception.Message" } } END {} } function Test-AzResourceGroupExist { <# .SYNOPSIS .DESCRIPTION .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName ) BEGIN {} PROCESS { try { $RG = Get-AzResourceGroup -Name $ResourceGroupName if ($RG) { return $True } else { return $false } } catch { Write-Error $_.Exception.Message #Write-WithTime_Using_WriteHost $_.Exception.Message -Level "ERROR" } } END {} } function Test-AzVirtualMachineExist { <# .SYNOPSIS .DESCRIPTION .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName ) BEGIN {} PROCESS { try { Write-Verbose "Executing Test-AzVirtualMachineExist ..." $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName -ErrorAction Stop if ($VM) { return $True } else { return $false } Write-Verbose "Test-AzVirtualMachineExist executed succesfully." } catch { Write-Error "Error while executing Test-AzVirtualMachineExist. $_.Exception.Message" Throw $_.Exception.Message } } END {} } function Test-AzDiskExist { <# .SYNOPSIS .DESCRIPTION .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $DiskName ) BEGIN {} PROCESS { try { Write-Verbose "Executing Test-AzDiskExist ..." Write-Verbose "Checking existance of the disk '$DiskName' in resource group '$ResourceGroupName' ..." $CheckDisk = Get-AzDisk -ResourceGroupName $ResourceGroupName -DiskName $DiskName -ErrorVariable -notPresent -ErrorAction SilentlyContinue if ($null -ne $CheckDisk ) { Write-Verbose "Disk '$DiskName' in resource group '$ResourceGroupName' alredy exist." return $True }else { Write-Verbose "Disk '$DiskName' in resource group '$ResourceGroupName' do not exist." return $false } Write-Verbose "Test-AzDiskExist executed succesfully." } catch { Write-Error "Error while executing Test-AzDiskExist. $_.Exception.Message" Throw $_.Exception.Message } } END {} } function Get-AzVMPPG { <# .SYNOPSIS .DESCRIPTION .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName ) BEGIN {} PROCESS { try { Write-Verbose "Executing Get-AzVMPPG ..." $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName -ErrorAction Stop if ($VM.ProximityPlacementGroup.Id) { Write-Verbose "Virtual machnine '$VirtualMachineName' in resource group '$ResourceGroupName' has configured proximity placemnt group with Id '$($VM.ProximityPlacementGroup.Id)'." }else { Write-Verbose "Virtual machnine '$VirtualMachineName' in resource group '$ResourceGroupName' has no configured proximity placemnt group." } Write-Output $VM.ProximityPlacementGroup.Id Write-Verbose "Get-AzVMPPG executed succesfully." } catch { Write-Error "Error while executing Get-AzVMPPG. $_.Exception.Message" Throw $_.Exception.Message } } END {} } function Test-AzVMPPG { <# .SYNOPSIS .DESCRIPTION .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory = $True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName ) BEGIN {} PROCESS { try { Write-Verbose "Executing Get-AzVMPPG ..." $VMPPG = Get-AzVMPPG -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName if ($VMPPG) { return $true }else { return $false } Write-Verbose "Get-AzVMPPG executed succesfully." } catch { Write-Error "Error while executing Get-AzVMPPG. $_.Exception.Message" } } END {} } function Get-AzVMRestoreInformation { <# .SYNOPSIS .DESCRIPTION .EXAMPLE #> [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [object] $VM, [Parameter(Mandatory=$false)] [ValidateNotNullOrEmpty()] [string] $OSDiskSnapshotId, [Parameter(Mandatory=$true)] [ValidateNotNullOrEmpty()] [object] $OSDiskInfo ) BEGIN {} PROCESS { try { Write-Verbose "Executing Get-AzVMRestoreInformation ..." $VMObject = [PSCustomObject]@{ Name = $VM.Name ResourceGroupName = $VM.ResourceGroupName Id = $VM.Id HardwareProfile = [PSCustomObject]@{ VmSize = $VM.HardwareProfile.VmSize VmSizeProperties = $VM.HardwareProfile.VmSizeProperties } StorageProfile = [PSCustomObject]@{ OsDisk = [PSCustomObject]@{ Name = $VM.StorageProfile.OsDisk.Name OsType = $VM.StorageProfile.OsDisk.OsType OSDiskSnapshotId = $OSDiskSnapshotId } } Zones = $VM.Zones Extensions = $VM.Extensions OSDiskInfo = $OSDiskInfo } Write-Output $VMObject Write-Verbose "Get-AzVMRestoreInformation executed succesfully." } catch { Write-Error "Error while executing Get-AzVMRestoreInformation. $_.Exception.Message" } } END {} } Function Get-AzVMExtensions { <# .SYNOPSIS $VM.Extensions .DESCRIPTION $VM.Extensions .PARAMETER VMResourceGroupName Virtual Machine Resource Group Name .PARAMETER VirtualMachineName Virtual Machine Name .EXAMPLE .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName ) BEGIN{ } PROCESS{ try{ $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName Write-Output $VM.Extensions } catch{ Write-Error $_.Exception.Message } finally { } } END {} } Function Write-AzVMExtensions { <# .SYNOPSIS .DESCRIPTION .PARAMETER VMExtensions .EXAMPLE .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [Object] $VMExtensions ) BEGIN{ } PROCESS{ try{ [int] $i = 1 foreach ($Extension in $VMExtensions) { Write-WithTime_Using_WriteHost "$i. virtual machine extension type '$($Extension.VirtualMachineExtensionType)' , Publisher '$($Extension.Publisher)', Type handler version '$($Extension.TypeHandlerVersion)'" $i++ } } catch{ Write-Error $_.Exception.Message } finally { } } END {} } Function Restore-AzVMExtensions { <# .SYNOPSIS .DESCRIPTION .PARAMETER VMResourceGroupName Virtual Machine Resource Group Name .PARAMETER VirtualMachineName Virtual Machine Name .PARAMETER VMExtensions Object with VM extensions .EXAMPLE .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory=$True)] [object] $VMExtensions ) BEGIN{ } PROCESS{ try{ foreach ($Extension in $VMExtensions) { $VMExtensionIsSupportedForRestore = $SupportedAzureVMExtensions | where Name -EQ $Extension.Name if ($VMExtensionIsSupportedForRestore) { Write-WithTime_Using_WriteHost "Restoring of VM extension '$($Extension.Name)' is supported." # SAP Extende monitoring extension if ($Extension.Publisher -eq "Microsoft.AzureCAT.AzureEnhancedMonitoring") { Write-WithTime_Using_WriteHost "Restoring VM extension '$($Extension.Name)' on VM '$VirtualMachineName' in resource group '$ResourceGroupName' ..." Set-AzVMAEMExtension -ResourceGroupName $ResourceGroupName -VMName $VirtualMachineName -InstallNewExtension > $null } } else { Write-WithTime_Using_WriteHost "Restoring of VM extension '$($Extension.Name)' is not supported. You need to reconfigure it manually." -Level "WARN" } } } catch{ Write-Error $_.Exception.Message } finally { } } END {} } Function Resize-AzVM { <# .SYNOPSIS Resize-AzVM. .DESCRIPTION Resize-AzVM resizes Azure VM. If source has temp disk and target VM has no temp disk (or vice versa): - OS disk will be snapshoted. - From disk snapshot, OS disk copy will be executed with naming convention <OriginalOSDiskName>-orig<FreeNumber> - VM will be deleted - OS disk will be deleted - new OS disk with the <OriginalOSDiskName> name will be created - VM will be recreated with new VM SKU .PARAMETER VMResourceGroupName Virtual Machine Resource Group Name .PARAMETER VirtualMachineName Virtual Machine Name .PARAMETER SubscriptionId You can specify explictly an Subscription Id. This is an optional paramater. .PARAMETER LogDirectory During the cmdlet runtime, cdlet is writting an log file in the current cmdlet directory. If you want o place log file in the different folder, you can specify it with '-LogDirectory' parameter. This is an optional parameter. .PARAMETER Force Forces the command to run without asking for user confirmation. .EXAMPLE # Resize VM to the new SKU Standard_E4s_v5 $ResourceGroupName = "sap-ab1" $VMName = "ab1-ascs" Resize-AzVM -ResourceGroupName $ResourceGroupName -VirtualMachineName $VMName -NewVMSKU Standard_E4s_v5 .EXAMPLE # Resize VM to the new SKU Standard_E4s_v5 without confirmations $ResourceGroupName = "sap-ab1" $VMName = "ab1-ascs" Resize-AzVM -ResourceGroupName $ResourceGroupName -VirtualMachineName $VMName -NewVMSKU Standard_E4s_v5 -Force .EXAMPLE # Script will write log files named '<VMName>_<ResourceGroupName_<SubscriptionId>_<Year>_<Month>_<Day>_<Hour>_<Minute>.log' # Default option location is current script runtime directory # If you want to choose a difernt directory location, you can specify it using '-LogingDirectory' parameter $ResourceGroupName = "sap-ab1" $VMName = "ab1-ascs" # Windows PowerShell runtime $LogingDirectory = "c:\scriptlog" # Linux PowerShell runtime (such as Azure Portal Cloud Shell) # $LogingDirectory = "/home/user1/logdirectory" Resize-AzVM -ResourceGroupName $ResourceGroupName -VirtualMachineName $VMName -NewVMSKU Standard_E4s_v5 -LogDirectory $LogingDirectory -Force .EXAMPLE # Resize VM to the new SKU Standard_E4s_v5 in subscription Id f783cc2d-962b-4be1-b636-bbd9e4c60h84 $ResourceGroupName = "sap-ab1" $VMName = "ab1-ascs" $SubscriptionId = "f783cc2d-962b-4be1-b636-bbd9e4c60h84" Resize-AzVM -ResourceGroupName $ResourceGroupName -VirtualMachineName $VMName -NewVMSKU Standard_E4s_v5 -SubscriptionId $SubscriptionId .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $NewVMSKU, [Parameter(Mandatory=$False)] [string] $SubscriptionId, [Parameter(Mandatory=$False)] [string] $LogDirectory, [switch] $Force ) BEGIN{ # Start logging if ($LogDirectory) { $LogFilePath = Get-AzVMScriptLogFileFullPath -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName -LogDirectory $LogDirectory }else { $LogFilePath = Get-AzVMScriptLogFileFullPath -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName } } PROCESS{ try{ # get start time $StartTime = Get-Date Start-Transcript -Path $LogFilePath -Append -ErrorAction Stop # Set Subscription Id if ($SubscriptionId) { Write-WithTime_Using_WriteHost "Setting context to Azure subscription: $SubscriptionId ..." Set-AzContext -SubscriptionId $SubscriptionId -ErrorAction Stop > $null $RestoreCmdlet = "Restore-AzResizedVM -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName -SubscriptionId $SubscriptionId" }else { $RestoreCmdlet = "Restore-AzResizedVM -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName" } Write-WithTime_Using_WriteHost "Starting resizing of Virtual Machine '$VirtualMachineName' in resource group '$ResourceGroupName' ..." # Validate if VM is ready for resize if ($SubscriptionId) { [bool] $IsGoodToResize = Invoke-AzResizeAzVMValidation -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName -NewVMSKU $NewVMSKU -SubscriptionId $SubscriptionId }else { [bool] $IsGoodToResize = Invoke-AzResizeAzVMValidation -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName -NewVMSKU $NewVMSKU } if (-not $IsGoodToResize) { Return } # Get configuration $originalVM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName -ErrorAction Stop $VMIsZonal = Test-AzVMIsZonalVM -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName #$VMExtensions = $originalVM.Extensions # Do not delete OS and Data disks during the VM deletion - set DeleteOption to 'Detach' Set-AzVMDisksDeleteOption -VM $originalVM -DeleteOption "Detach" -ErrorAction Stop # Do not delete NIC cards during the VM deletion - Set NIC Cards to 'Detach' Set-AzVMNICsDeleteOption -VM $originalVM -DeleteOption "Detach" -ErrorAction Stop # Shutdown the original VM $ToStop = $true if(-not $Force){ $ToStop = Get-AzVMStopAnswer -VirtualMachineName $VirtualMachineName -ResourceGroupName $ResourceGroupName } if($ToStop){ Write-WithTime_Using_WriteHost "Stopping virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' ..." $StartTimeVMDowntime = Get-Date $ReturnStopVM = Stop-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName -force -ErrorAction Stop }elseif (!$ToStop) { Return } # Get the OS Disk info $OSDiskInfo = Get-AzVMOSDiskInfo -VM $originalVM -ErrorAction Stop # Create OS Snapshot $snapshot = New-AzUniqueNameSnapshot -ResourceGroupName $OSDiskInfo.OSDisk.ResourceGroupName -Location $OSDiskInfo.Location -Disk $OSDiskInfo.OSDisk -ErrorAction Stop # Create backup copy of OS disk Copy-AzUniqueNameDiskFromSnapshot -ResourceGroupName $ResourceGroupName -Location $OSDiskInfo.Location -Snapshot $snapshot -OriginalDiskName $OSDiskInfo.OSDiskName -StorageType $OSDiskInfo.StorageType -VMDiskZone $OSDiskInfo.OSDiskZone -DiskNamePosfix "orig" -Tags $OSDiskInfo.OSDiskTags # Get the file names for export/import/restore tasks $GenerateFilesPathNames = Get-AzVMUniqueueExportImportJSONFileNamePath -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName # Export Original VM in ARM Write-WithTime_Using_WriteHost "Exporting Azure VM ARM template to '$($GenerateFilesPathNames.OriginalARMVMFullPathFile)' file ..." Export-AzResourceGroup -ResourceGroupName $originalVM.ResourceGroupName -Resource $originalVM.Id -Path $GenerateFilesPathNames.OriginalARMVMFullPathFile -SkipAllParameterization -Force -ErrorAction Stop > $null # Export Original VM in PowerShell JSON object Write-WithTime_Using_WriteHost "Exporting Azure VM PowerShell configuration to '$($GenerateFilesPathNames.OriginalPowerShellVMFullPathFile)' ..." $originalVM | ConvertTo-Json -Depth 100 | Out-File $GenerateFilesPathNames.OriginalPowerShellVMFullPathFile -ErrorAction Stop # Create NEW ARM template $VMImportedFromJSONObject = Update-AzVMARMTemplateForReDeploy -SourceVMFullPathFile $GenerateFilesPathNames.OriginalARMVMFullPathFile -NewVMSKU $NewVMSKU # Save new JSON File Write-WithTime_Using_WriteHost "Exporting new updated Azure VM ARM template to '$($GenerateFilesPathNames.NewARMVMFullPathFile)' ..." $VMImportedFromJSONObject | ConvertTo-Json -Depth 100 | Out-File $GenerateFilesPathNames.NewARMVMFullPathFile # Export OS disk restore info Write-WithTime_Using_WriteHost "Exporting Azure VM restore information to file '$($GenerateFilesPathNames.VMOSDiskRestore)' ..." $VMOSDiskRestoreInfo = Get-AzVMRestoreInformation -VM $originalVM -OSDiskSnapshotId $snapshot.Id -OSDiskInfo $OSDiskInfo $VMOSDiskRestoreInfo | ConvertTo-Json -Depth 100 | Out-File $GenerateFilesPathNames.VMOSDiskRestore # Remove the original VM -this is a prerequisit to delete orignial OS and data disks $ToDelete = $true if(-not $Force){ $ToDelete = Get-AzVMDeleteAnswer -VirtualMachineName $VirtualMachineName -ResourceGroupName $ResourceGroupName } if($ToDelete){ Write-WithTime_Using_WriteHost "Starting recreating of the VM '$VirtualMachineName' in the resource group '$ResourceGroupName' ..." Write-WithTime_Using_WriteHost "If VM recreate process fails, or if you want to rollback VM to the original VM SKU, you can restore VM '$VirtualMachineName' to the original state by running command '$RestoreCmdlet'." -Level "WARN" Write-WithTime_Using_WriteHost "Removing virtual machine '$VirtualMachineName' ..." Remove-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName -Force -ErrorAction Stop > $null }else { # Exit Return } # Delete Original OS Disk Remove-AzDisk -ResourceGroupName $ResourceGroupName -DiskName $OSDiskInfo.OSDiskName -Force -ErrorAction Stop > $null if($OSDiskInfo.OSDisk.PurchasePlan){ Write-WithTime_Using_WriteHost "Original OS disk has purchase plan: Name '$($OSDiskInfo.OSDisk.PurchasePlan.Name)', Publisher '$($OSDiskInfo.OSDisk.PurchasePlan.Publisher)', Product '$($OSDiskInfo.OSDisk.PurchasePlan.Product)', PromotionCode '$($OSDiskInfo.OSDisk.PurchasePlan.PromotionCode)'." $OSDiskPurchasePlan = $OSDiskInfo.OSDisk.PurchasePlan $diskPurchasePlan = New-AzDiskPurchasePlanConfig -Name $OSDiskInfo.OSDisk.PurchasePlan.Name -Publisher $OSDiskInfo.OSDisk.PurchasePlan.Publisher -Product $OSDiskInfo.OSDisk.PurchasePlan.Product # -PromotionCode $OSDisk.PurchasePlan.PromotionCode if ($VMIsZonal) { $newdiskConfig = New-AzDiskConfig -AccountType $OSDiskInfo.StorageType -Location $OSDiskInfo.Location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $OSDiskInfo.OSDiskTags -PurchasePlan $diskPurchasePlan -Zone $OSDiskInfo.OSDiskZone }else { $newdiskConfig = New-AzDiskConfig -AccountType $OSDiskInfo.StorageType -Location $OSDiskInfo.Location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $OSDiskInfo.OSDiskTags -PurchasePlan $diskPurchasePlan } }else{ Write-WithTime_Using_WriteHost "OS disk has NO purchase plan" if ($VMIsZonal) { $newdiskConfig = New-AzDiskConfig -AccountType $OSDiskInfo.StorageType -Location $OSDiskInfo.Location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $OSDiskInfo.OSDiskTags -Zone $OSDiskInfo.OSDiskZone }else { $newdiskConfig = New-AzDiskConfig -AccountType $OSDiskInfo.StorageType -Location $OSDiskInfo.Location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $OSDiskInfo.OSDiskTags } } Write-WithTime_Using_WriteHost "Creating OS disk '$($OSDiskInfo.OSDiskName)' from snapshot '$($snapshot.Name)' ..." $newdisk = New-AzDisk -Disk $newdiskConfig -ResourceGroupName $ResourceGroupName -DiskName $OSDiskInfo.OSDiskName -ErrorAction Stop # Recreate VM from updated JSON Write-WithTime_Using_WriteHost "Recreating VM from the Azure ARM template file '$($GenerateFilesPathNames.NewARMVMFullPathFile)' ..." New-AzResourceGroupDeployment -Name $VirtualMachineName -ResourceGroupName $ResourceGroupName -TemplateFile $GenerateFilesPathNames.NewARMVMFullPathFile -Verbose -ErrorAction Stop > $null Write-WithTime_Using_WriteHost "Virtual Machine '$VirtualMachineName' in resource group '$ResourceGroupName' is recreated with the new VM SKU '$NewVMSKU'." $EndTimeVMDowntime = Get-Date $ElapsedTimeVMDowntime = $EndTimeVMDowntime - $StartTimeVMDowntime Write-WithTime_Using_WriteHost "Total time for VM downtime (time from VM stopping till VM recreation): $($ElapsedTimeVMDowntime.Days) days, $($ElapsedTimeVMDowntime.Hours) hours, $($ElapsedTimeVMDowntime.Minutes) minutes, $($ElapsedTimeVMDowntime.Seconds) seconds, $($ElapsedTimeVMDowntime.Seconds) milliseconds." Write-WithTime_Using_WriteHost "Executing post configuration tasks ..." # Reinstall extensions if ($originalVM.Extensions) { Write-WithTime_Using_WriteHost "Restoring virtual machine '$VirtualMachineName' VM extensions ..." Restore-AzVMExtensions -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName -VMExtensions $originalVM.Extensions } Write-WithTime_Using_WriteHost "Resizing of Virtual Machine '$VirtualMachineName' in resource group '$ResourceGroupName' from VM SKU '$($originalVM.HardwareProfile.VmSize)' to the new VM SKU '$NewVMSKU' is succesfully finished." } catch{ Write-Error $_.Exception.Message Write-Error "If VM recreate process fails and '$VirtualMachineName' VM is deleted, you can restore '$VirtualMachineName' VM to the original state by running command '$RestoreCmdlet'." Write-Error "'Restore-AzResizedVM' cmdlet will use these files: '$($GenerateFilesPathNames.VMOSDiskRestore)' and '$($GenerateFilesPathNames.OriginalARMVMFullPathFile)' to create restore Azure ARM template file '$($GenerateFilesPathNames.OriginalRestoreARMVMFullPathFile)'." } finally { $EndTime = Get-Date $ElapsedTime = $EndTime - $StartTime Write-WithTime_Using_WriteHost "Total time : $($ElapsedTime.Days) days, $($ElapsedTime.Hours) hours, $($ElapsedTime.Minutes) minutes, $($ElapsedTime.Seconds) seconds, $($ElapsedTime.Seconds) milliseconds." Stop-Transcript } } END {} } Function Restore-AzResizedVM { <# .SYNOPSIS Restore-AzResizedVM restores an VM in case of failure during the running of Resize-AzVM. .DESCRIPTION Restore-AzResizedVM restores an VM in case of failure during the running of Resize-AzVM. .PARAMETER VMResourceGroupName Virtual Machine Resource Group Name .PARAMETER VirtualMachineName Virtual Machine Name .PARAMETER SubscriptionId You can specify explictly an Subscription Id. This is an optional paramater. .PARAMETER LogDirectory During the cmdlet runtime, cdlet is writting an log file in the current cmdlet directory. If you want o place log file in the different folder, you can specify it with '-LogDirectory' parameter. This is an optional parameter. .PARAMETER Force Forces the command to run without asking for user confirmation. .EXAMPLE # Restore VM to the original SKU SKU # You are runnign this cmdlet in case of failure by VM recreation e.g. during the running of resize cmdlet: # Resize-AzVM -ResourceGroupName $ResourceGroupName -VirtualMachineName $VMName -NewVMSKU Standard_E4s_v5 -Force $ResourceGroupName = "sap-ab1" $VMName = "ab1-ascs" Restore-AzResizedVM -ResourceGroupName $ResourceGroupName -VirtualMachineName $VMName .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory=$False)] [string] $SubscriptionId, [Parameter(Mandatory=$False)] [string] $LogDirectory, [switch] $Force ) BEGIN{ } PROCESS{ try{ # get start time $StartTime = Get-Date # Set Subscription Id if ($SubscriptionId) { Write-WithTime_Using_WriteHost "Setting context to Azure subscription: $SubscriptionId ..." Set-AzContext -SubscriptionId $SubscriptionId -ErrorAction Stop > $null } # Start logging if ($LogDirectory) { $LogFilePath = Get-AzVMScriptLogFileFullPath -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName -LogDirectory $LogDirectory }else { $LogFilePath = Get-AzVMScriptLogFileFullPath -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName } Start-Transcript -Path $LogFilePath -Append -ErrorAction Stop Write-WithTime_Using_WriteHost "Starting restoring of Virtual Machine '$VirtualMachineName' in resource group '$ResourceGroupName' ..." # get Azure subscription information Write-WithTime_Using_WriteHost "Getting Azure subscription information ..." $SubscriptionContext = Get-AzSubscriptionContext Write-WithTime_Using_WriteHost "Azure subscription name: '$($SubscriptionContext.Name)', Subscription Id: '$($SubscriptionContext.SubscriptionId)', Tenant Id: '$($SubscriptionContext.TenantId)'." # Get the file names for export/import/restore tasks $GenerateFilesPathNames = Get-AzVMUniqueueExportImportJSONFileNamePath -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName Write-WithTime_Using_WriteHost "Importing VM '$VirtualMachineName' restore file '$($GenerateFilesPathNames.VMOSDiskRestore)' ..." $VMImportedRestoreFileFromJSONObject = Get-Content $GenerateFilesPathNames.VMOSDiskRestore -ErrorAction Stop | ConvertFrom-Json # Check if resource group exists Write-WithTime_Using_WriteHost "Checking if resource group '$ResourceGroupName' exists ..." $VMResourceGroupExist = Test-AzResourceGroupExist -ResourceGroupName $ResourceGroupName if ($VMResourceGroupExist) { Write-WithTime_Using_WriteHost "Resource group '$ResourceGroupName' exists." }else { Throw "Azure resource group '$ResourceGroupName' do not exist. Please check your resource group '$ResourceGroupName' name." } # Check if VM exist Write-WithTime_Using_WriteHost "Checking if virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' exists ..." $VMExist = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName -ErrorAction SilentlyContinue if ($VMExist) { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' exists." Write-WithTime_Using_WriteHost "Getting virtual machine '$VirtualMachineName' configuration ..." $originalVM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName -ErrorAction Stop if ($originalVM.HardwareProfile.VmSize -eq $VMImportedRestoreFileFromJSONObject.HardwareProfile.VmSize) { Throw "VM is already set to original SKU '$($VMImportedRestoreFileFromJSONObject.HardwareProfile.VmSize)'. There is no need to restore it." #return #exit }else { # Remove the original VM $ToDelete = $true if(-not $Force){ $ToDelete = Get-AzVMDeleteAnswer -VirtualMachineName $VirtualMachineName -ResourceGroupName $ResourceGroupName } if($ToDelete){ Write-WithTime_Using_WriteHost "Removing virtual machine '$VirtualMachineName' ..." Remove-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName -Force -ErrorAction Stop > $null }else { # Exit Return } } }else { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' do not exists." # Check OS disk $DiskName = $VMImportedRestoreFileFromJSONObject.StorageProfile.OsDisk.Name Write-WithTime_Using_WriteHost "Checking existance of the OS disk '$DiskName' in resource group '$ResourceGroupName' ..." $OSDiskExist = Test-AzDiskExist -ResourceGroupName $VMImportedRestoreFileFromJSONObject.OSDiskInfo.OSDisk.ResourceGroupName -DiskName $VMImportedRestoreFileFromJSONObject.StorageProfile.OsDisk.Name if ($OSDiskExist) { Write-WithTime_Using_WriteHost "OS disk '$DiskName' in resource group '$ResourceGroupName' exists." }else { Write-WithTime_Using_WriteHost "OS disk '$DiskName' in resource group '$ResourceGroupName' do not exists." # Check Snapshot - BREAK if missing! Write-WithTime_Using_WriteHost "Getting OS disk '$DiskName' snapshot with Id '$($VMImportedRestoreFileFromJSONObject.StorageProfile.OsDisk.OSDiskSnapshotId)' ..." # Get the snapshot Name and ResourceGroupName $VMOSSnapshot = Get-AzResource -ResourceId $VMImportedRestoreFileFromJSONObject.StorageProfile.OsDisk.OSDiskSnapshotId -ErrorAction Stop # Get snapshot $snapshot = Get-AzSnapshot -ResourceGroupName $VMOSSnapshot.ResourceGroupName -SnapshotName $VMOSSnapshot.Name -ErrorAction Stop # Create new OS disk from snapshot # Get the OS Disk info $OSDiskInfo = $VMImportedRestoreFileFromJSONObject.OSDiskInfo $VMIsZonal = $VMImportedRestoreFileFromJSONObject.Zones # Convert PS Object to Hash table $TagsHashTable = @{} $OSDiskInfo.OSDiskTags.PSObject.Properties | ForEach-Object { $TagsHashTable[$_.Name] = $_.Value } if($OSDiskInfo.OSDisk.PurchasePlan){ Write-WithTime_Using_WriteHost "Original OS disk has purchase plan: Name '$($OSDiskInfo.OSDisk.PurchasePlan.Name)', Publisher '$($OSDiskInfo.OSDisk.PurchasePlan.Publisher)', Product '$($OSDiskInfo.OSDisk.PurchasePlan.Product)', PromotionCode '$($OSDiskInfo.OSDisk.PurchasePlan.PromotionCode)'." $OSDiskPurchasePlan = $OSDiskInfo.OSDisk.PurchasePlan $diskPurchasePlan = New-AzDiskPurchasePlanConfig -Name $OSDiskInfo.OSDisk.PurchasePlan.Name -Publisher $OSDiskInfo.OSDisk.PurchasePlan.Publisher -Product $OSDiskInfo.OSDisk.PurchasePlan.Product # -PromotionCode $OSDisk.PurchasePlan.PromotionCode if ($VMIsZonal) { $newdiskConfig = New-AzDiskConfig -AccountType $OSDiskInfo.StorageType -Location $OSDiskInfo.Location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $TagsHashTable -PurchasePlan $diskPurchasePlan -Zone $OSDiskInfo.OSDiskZone }else { $newdiskConfig = New-AzDiskConfig -AccountType $OSDiskInfo.StorageType -Location $OSDiskInfo.Location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $TagsHashTable -PurchasePlan $diskPurchasePlan } }else{ Write-WithTime_Using_WriteHost "OS disk has NO purchase plan" if ($VMIsZonal) { $newdiskConfig = New-AzDiskConfig -AccountType $OSDiskInfo.StorageType -Location $OSDiskInfo.Location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $TagsHashTable -Zone $OSDiskInfo.OSDiskZone }else { $newdiskConfig = New-AzDiskConfig -AccountType $OSDiskInfo.StorageType -Location $OSDiskInfo.Location -CreateOption Copy -SourceResourceId $snapshot.Id -Tag $TagsHashTable } } Write-WithTime_Using_WriteHost "Creating OS disk '$($OSDiskInfo.OSDiskName)' from snapshot '$($snapshot.Name)' ..." $newdisk = New-AzDisk -Disk $newdiskConfig -ResourceGroupName $ResourceGroupName -DiskName $OSDiskInfo.OSDiskName -ErrorAction Stop } } $SourceVMSKU = $VMImportedRestoreFileFromJSONObject.HardwareProfile.VmSize Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' original SKU is '$SourceVMSKU'." # get new updated ARM JSON template with Original VM SKU $UpdatedOriginalARMTemplate = Update-AzVMARMTemplateForReDeploy -SourceVMFullPathFile $GenerateFilesPathNames.OriginalARMVMFullPathFile -NewVMSKU $SourceVMSKU # Save to a new ARM template JSON File Write-WithTime_Using_WriteHost "Exporting new updated Azure VM ARM template to '$($GenerateFilesPathNames.OriginalRestoreARMVMFullPathFile)' ..." $UpdatedOriginalARMTemplate | ConvertTo-Json -Depth 100 | Out-File $GenerateFilesPathNames.OriginalRestoreARMVMFullPathFile # Recreate VM from updated JSON Write-WithTime_Using_WriteHost "Restoring VM to the original VM SKU '$SourceVMSKU' from the Azure ARM template file '$($GenerateFilesPathNames.OriginalRestoreARMVMFullPathFile)' ..." New-AzResourceGroupDeployment -Name $VirtualMachineName -ResourceGroupName $ResourceGroupName -TemplateFile $GenerateFilesPathNames.OriginalRestoreARMVMFullPathFile -Verbose -ErrorAction Stop > $null Write-WithTime_Using_WriteHost "Virtual Machine '$VirtualMachineName' in resource group '$ResourceGroupName' is restored to the original VM SKU '$SourceVMSKU'." Write-WithTime_Using_WriteHost "Executing post configuration tasks ..." # Reinstall extensions if ($VMImportedRestoreFileFromJSONObject.Extensions) { Write-WithTime_Using_WriteHost "Restoring virtual machine '$VirtualMachineName' VM extensions ..." Restore-AzVMExtensions -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName -VMExtensions $VMImportedRestoreFileFromJSONObject.Extensions } Write-WithTime_Using_WriteHost "Restore of the virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' to the original VM SKU '$SourceVMSKU ' is succesfully finished." } catch{ Write-Error $_.Exception.Message } finally { $EndTime = Get-Date $ElapsedTime = $EndTime - $StartTime Write-WithTime_Using_WriteHost "Total time : $($ElapsedTime.Days) days, $($ElapsedTime.Hours) hours, $($ElapsedTime.Minutes) minutes, $($ElapsedTime.Seconds) seconds, $($ElapsedTime.Seconds) milliseconds." Stop-Transcript } } END {} } Function Invoke-AzResizeAzVMValidation { <# .SYNOPSIS Invoke-AzResizeAzVMValidation validate if an VM is ready to migrate to new VM SKU. .DESCRIPTION Invoke-AzResizeAzVMValidation validate if an VM is ready to migrate to new VM SKU. If VM is ready for migration, it returns $true, otherwise $false. .PARAMETER VMResourceGroupName Virtual Machine Resource Group Name .PARAMETER VirtualMachineName Virtual Machine Name .PARAMETER SubscriptionId You can specify explictly an Subscription Id. This is an optional paramater. .EXAMPLE $ResourceGroupName = "sap-ab1" $VMName = "ab1-ascs" $NewVMSKU = "Standard_E4s_v5" [bool] $ret = Invoke-AzResizeAzVMValidation -ResourceGroupName $ResourceGroupName -VirtualMachineName $VMName -NewVMSKU $NewVMSKU .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $NewVMSKU, [Parameter(Mandatory=$False)] [string] $SubscriptionId ) BEGIN{ } PROCESS{ try{ [bool] $ResizePrerequisitsFulfilled = $true # Set Subscription Id if ($SubscriptionId) { Write-WithTime_Using_WriteHost "Setting context to Azure subscription: $SubscriptionId ..." Set-AzContext -SubscriptionId $SubscriptionId -ErrorAction Stop > $null } # get Azure subscription information Write-WithTime_Using_WriteHost "Getting Azure subscription information ..." $SubscriptionContext = Get-AzSubscriptionContext Write-WithTime_Using_WriteHost "Azure subscription name: '$($SubscriptionContext.Name)', Subscription Id: '$($SubscriptionContext.SubscriptionId)', Tenant Id: '$($SubscriptionContext.TenantId)'." # Check if resource group exists Write-WithTime_Using_WriteHost "Checking if resource group '$ResourceGroupName' exists ..." $VMResourceGroupExist = Test-AzResourceGroupExist -ResourceGroupName $ResourceGroupName if ($VMResourceGroupExist) { Write-WithTime_Using_WriteHost "Resource group '$ResourceGroupName' exists." }else { Throw "Azure resource group '$ResourceGroupName' do not exist. Please check your resource group '$ResourceGroupName' name." } # Check if VM exist Write-WithTime_Using_WriteHost "Checking if virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' exists ..." $VMExist = Test-AzVirtualMachineExist -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName if ($VMExist) { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' exists." }else { Throw "Virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' do not exists. Please check virtual machine name '$VirtualMachineName' and resource group name '$ResourceGroupName'." } # CHeck if VM is running Write-WithTime_Using_WriteHost "Checking if virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' is running ..." $VMIsRunning = Test-AzVMIsStarted -ResourceGroupName $ResourceGroupName -VMName $VirtualMachineName if ($VMIsRunning -eq $True) { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' is running." }else { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' is not running." Write-WithTime_Using_WriteHost "Starting virtual machine '$VirtualMachineName' ..." $StartVMStatus = Start-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName -ErrorAction Stop } Write-WithTime_Using_WriteHost "Getting virtual machine '$VirtualMachineName' configuration ..." $originalVM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName -ErrorAction Stop # Check if VM SKU exist in an Azure region Write-WithTime_Using_WriteHost "Checking if target Azure VM SKU '$NewVMSKU' exist in Azure region '$($originalVM.Location)' ..." $VMSKUExist = Test-AzComputeSKUExists -Location $originalVM.Location -VMSKU $NewVMSKU if ($VMSKUExist) { Write-WithTime_Using_WriteHost "Target Azure VM SKU '$NewVMSKU' exist in Azure region '$($originalVM.Location)'." }else { Throw "Target Azure VM SKU '$NewVMSKU' exist do not in Azure region '$($originalVM.Location)'. Please choose another VM SKU." } # Source and Target VM SKU must be different if ($originalVM.HardwareProfile.VmSize -eq $NewVMSKU) { Throw "Source and new target VM SKU have the same value '$NewVMSKU'. No need to resize the VM '$VirtualMachineName' in resource group '$ResourceGroupName'." } # Print VM Extensions Write-WithTime_Using_WriteHost "Getting virtual machine '$VirtualMachineName' extensions ...." $VMExtensions = $originalVM.Extensions if ($VMExtensions) { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' has configured $($VMExtensions.count) extension(s)." Write-AzVMExtensions $VMExtensions }else { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' has no configured extensions." } # Check VM PPG Write-WithTime_Using_WriteHost "Checking if VM '$VirtualMachineName' in resource group '$ResourceGroupName' has configured Proximity Placement Group ..." $VMHasPPG = Test-AzVMPPG -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName if ($VMHasPPG) { $VMPPG = Get-AzVmPPG -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' is configured with Proximity Placement Group (PPG) Id '$VMPPG'. PPG increase possibility of compute allocation failure during VM resize. It is highly recommended to remove PPG before continuing VM resize procedure!" -Level "WARN" }else { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' has no configured with Proximity Placement Group." } Write-WithTime_Using_WriteHost "Resizing from '$VirtualMachineName' in resource group '$ResourceGroupName' from '$($originalVM.HardwareProfile.VmSize)' to '$NewVMSKU' SKU ..." # Check if VM is regional or zonal Write-WithTime_Using_WriteHost "Checking if Virtual Machine '$VirtualMachineName' is zonal VM ..." $VMIsZonal = Test-AzVMIsZonalVM -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName if ($VMIsZonal) { Write-WithTime_Using_WriteHost "Virtual Machine '$VirtualMachineName' is zonal VM in zone '$($originalVM.Zones)'." }else { Write-WithTime_Using_WriteHost "Virtual Machine '$VirtualMachineName' is regional VM." } # Check target VM SKU regional or zonal availability if ($VMIsZonal) { Write-WithTime_Using_WriteHost "Checking target VM SKU '$NewVMSKU' zonal availability in Azure region '$($originalVM.Location)' and zone '$($originalVM.Zones)' ..." $VMSKUIsAvailable = Test-AzComputeSKUAvailability -Location $originalVM.Location -VMSKU $NewVMSKU -AzureZone $originalVM.Zones if (-not $VMSKUIsAvailable) { Throw "VM SKU '$NewVMSKU' is not available in the Azure region '$($originalVM.Location)' and zone '$($originalVM.Zones)'. Cannot resize Azure VM '$VirtualMachineName' to the new VM SKU '$NewVMSKU'!" }else { Write-WithTime_Using_WriteHost "VM SKU '$NewVMSKU' is available in the Azure region '$($originalVM.Location)' and zone '$($originalVM.Zones)'." } }else { Write-WithTime_Using_WriteHost "Checking target VM SKU '$NewVMSKU' regional availability in Azure region '$($originalVM.Location)' ..." $VMSKUIsAvailable = Test-AzComputeSKUAvailability -Location $originalVM.Location -VMSKU $NewVMSKU if (-not $VMSKUIsAvailable) { Throw "VM SKU '$NewVMSKU' is not available in the Azure region '$($originalVM.Location)'. Cannot resize Azure VM '$VirtualMachineName' to the new VM SKU '$NewVMSKU'!" }else { Write-WithTime_Using_WriteHost "VM SKU '$NewVMSKU' is available in the Azure region '$($originalVM.Location)'." } } # Check if new VM SKU supports current VM Hyper-V Generation Write-WithTime_Using_WriteHost "Checking Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' ..." $VMStatus = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName -Status $CurrentVMHyperVGeneration = $VMStatus.HyperVGeneration if ($CurrentVMHyperVGeneration -eq "V1") { Write-WithTime_Using_WriteHost "Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' is 'V1' - VM is Generation 1." }elseif ($CurrentVMHyperVGeneration -eq "V2") { Write-WithTime_Using_WriteHost "Hyper-V Generation of virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' is 'V2' - VM is Generation 2." } Write-WithTime_Using_WriteHost "Checking if new VM SKU '$NewVMSKU' supports current VM '$VirtualMachineName' Hyper-V Generation '$CurrentVMHyperVGeneration' ..." $NEwVMSKUSupportsCurrentHyperVgeneration = Test-AzVMResizeSupportNewSKUGeneration -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName -VMSKU $NewVMSKU if ($NEwVMSKUSupportsCurrentHyperVgeneration) { Write-WithTime_Using_WriteHost "New VM SKU '$NewVMSKU' supports current VM '$VirtualMachineName' Hyper-V Generation '$CurrentVMHyperVGeneration'." }else { Throw "New VM SKU '$NewVMSKU' do not supports current VM '$VirtualMachineName' Hyper-V Generation '$CurrentVMHyperVGeneration'. Please choose another VM SKU that supports VM Hyper-V generation '$CurrentVMHyperVGeneration'." } # If VM has Premium disk , check if target VM SKU supports Premium disks or only standard Write-WithTime_Using_WriteHost "Checking if virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' has premium disks ..." $VMHasPremiumDisk = Test-AzVMHasPremiumDisks -ResourceGroupName $ResourceGroupName -VMName $VirtualMachineName if ($VMHasPremiumDisk) { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' has premium disk." Write-WithTime_Using_WriteHost "Checking if target VM SKU '$NewVMSKU' supports premium disks ..." $TargetVMSKUSupportsPremiumDisk = Test-AzVMSKUPremiumDiskSupport -Location $originalVM.Location -VMSKU $NewVMSKU if ($TargetVMSKUSupportsPremiumDisk) { Write-WithTime_Using_WriteHost "Target VM SKU '$NewVMSKU' supports premium disks." }else { Throw "Virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' has premium disk, but target VM SKU '$NewVMSKU' do not supports premium disks. Please choose another VM SKU that supports premium disks." } }else { Write-WithTime_Using_WriteHost "Virtual machine '$VirtualMachineName' in resource group '$ResourceGroupName' has no premium disk." } # Check if target VM SKU supports needed number of data disks Write-WithTime_Using_WriteHost "Checking if new VM SKU '$NewVMSKU' supports current VM '$VirtualMachineName' data disks number ..." $VMDataDisksNumber = $originalVM.StorageProfile.DataDisks.Count $MaxNumberOfDataDisksForSKU = Get-AzComputeSKUMaxDataDisks -Location $originalVM.Location -VMSKU $NewVMSKU Write-WithTime_Using_WriteHost "Current VM '$VirtualMachineName' has '$VMDataDisksNumber' data disks." Write-WithTime_Using_WriteHost "New VM SKU '$NewVMSKU' support maximum '$MaxNumberOfDataDisksForSKU' data disks." if ($VMDataDisksNumber -gt $MaxNumberOfDataDisksForSKU) { Throw "New VM SKU '$NewVMSKU' support maximum '$MaxNumberOfDataDisksForSKU' data disks, which is less of the current '$VirtualMachineName' VM data disk(s) number - '$VMDataDisksNumber'. Please choose another VM SKU that supports at least '$VMDataDisksNumber' disks." }else { Write-WithTime_Using_WriteHost "New VM SKU '$NewVMSKU' with support for maximum number of '$MaxNumberOfDataDisksForSKU' data disks, can accomodate current '$VirtualMachineName' VM '$VMDataDisksNumber' disks." } # Check if target VM SKU supports needed number of NIC cards Write-WithTime_Using_WriteHost "Checking if new VM SKU '$NewVMSKU' supports current VM '$VirtualMachineName' NIC cards number ..." $VMNICCardsNumber = $originalVM.NetworkProfile.NetworkInterfaces.Count $MaxNumberOfNICCardsForSKU = Get-AzComputeSKUMaxNetworkInterfaces -Location $originalVM.Location -VMSKU $NewVMSKU Write-WithTime_Using_WriteHost "Current VM '$VirtualMachineName' has '$VMNICCardsNumber' NIC cards." Write-WithTime_Using_WriteHost "New VM SKU '$NewVMSKU' support maximum '$MaxNumberOfNICCardsForSKU' NIC cards." if ($VMNICCardsNumber -gt $MaxNumberOfNICCardsForSKU) { Throw "New VM SKU '$NewVMSKU' support maximum '$MaxNumberOfNICCardsForSKU' NIC cards, which is less of the current '$VMNICCardsNumber' VM NIC card(s) number. Please choose another VM SKU that supports at least '$VMNICCardsNumber' NIC cards." }else { Write-WithTime_Using_WriteHost "New VM SKU '$NewVMSKU' with support for maximum number of '$MaxNumberOfNICCardsForSKU' NIC cards, can accomodate current '$VirtualMachineName' VM '$VMNICCardsNumber' NIC Cards." } # Check if traget VM SKU supports Trusted Launch Write-WithTime_Using_WriteHost "Checking source VM '$VirtualMachineName' security type ..." $VMSecurityType = $originalVM.SecurityProfile.SecurityType Write-WithTime_Using_WriteHost "VM '$VirtualMachineName' security type is '$VMSecurityType'." if ($VMSecurityType -eq "TrustedLaunch") { Write-WithTime_Using_WriteHost "Checking if target VM SKU '$NewVMSKU' supports 'Trusted Launch' security type ..." $VMSKUSupportsTrustedLaunch = Get-AzComputeSKUTrustedLaunchSupport -Location $Location -VMSKU $NewVMSKU if ($VMSKUSupportsTrustedLaunch) { Write-WithTime_Using_WriteHost "Target VM SKU '$NewVMSKU' support 'Trusted Launch' security type." }else { Write-Error "Target VM SKU '$NewVMSKU' do not support 'Trusted Launch' security type. Please choose another VM SKU that supports 'Trusted Launch' security type." Throw "Here 'https://learn.microsoft.com/en-us/azure/virtual-machines/trusted-launch#virtual-machines-sizes' you can check current Azure VM SKUs that do not supports 'Trusted Launch' security type." } } # Check VMs SKU suport for temp disk Write-WithTime_Using_WriteHost "Checking source VM SKU '$($originalVM.HardwareProfile.VmSize)' support for temp disk... " $SourceVMSKUSupportForTempDisk = Test-AzVMSKUEphemeralOSDiskSupport -Location $originalVM.Location -VMSKU $originalVM.HardwareProfile.VmSize if ($SourceVMSKUSupportForTempDisk -eq "True") { Write-WithTime_Using_WriteHost "Source VM SKU '$($originalVM.HardwareProfile.VmSize)' supports temp disk." }elseif (($SourceVMSKUSupportForTempDisk -eq "False")) { Write-WithTime_Using_WriteHost "Source VM SKU '$($originalVM.HardwareProfile.VmSize)' do not support temp disk." } Write-WithTime_Using_WriteHost "Checking target VM SKU '$NewVMSKU' support for temp disk... " $TargetVMSKUSupportForTempDisk = Test-AzVMSKUEphemeralOSDiskSupport -Location $originalVM.Location -VMSKU $NewVMSKU if ($TargetVMSKUSupportForTempDisk -eq "True") { Write-WithTime_Using_WriteHost "Target VM SKU '$NewVMSKU' supports temp disk." }elseif (($TargetVMSKUSupportForTempDisk -eq "False")) { Write-WithTime_Using_WriteHost "Target VM SKU '$NewVMSKU' do not support temp disk." } if ($SourceVMSKUSupportForTempDisk -eq "True" -and $TargetVMSKUSupportForTempDisk -eq "False") { Write-WithTime_Using_WriteHost "Resizing from source VM SKU '$($originalVM.HardwareProfile.VmSize)' WITH temp disk, to target VM SKU '$NewVMSKU' WITHOUT temp disks requires that VM and OS disk are recreated, as described in the Azure documentation https://learn.microsoft.com/sl-si/azure/virtual-machines/azure-vms-no-temp-disk#how-do-i-migrate-from-a-vm-size-with-local-temp-disk-to-a-vm-size-with-no-local-temp-disk--- ..." -Level "WARN" Write-WithTime_Using_WriteHost "If you have configured OS paging on the temp storage, it is highly advised to reconfigure OS paging on a persistent disk prior to VM SKU conversion, as described in the Azure documentation https://learn.microsoft.com/sl-si/azure/virtual-machines/windows/change-drive-letter." -Level "WARN" }elseif ($SourceVMSKUSupportForTempDisk -eq "False" -and $TargetVMSKUSupportForTempDisk -eq "True") { Write-WithTime_Using_WriteHost "Resizing from source VM SKU '$($originalVM.HardwareProfile.VmSize)' WITHOUT temp disk, to target VM SKU '$NewVMSKU' WITH temp disks requires that VM and OS disk are recreated, as described in the Azure documentation https://learn.microsoft.com/sl-si/azure/virtual-machines/azure-vms-no-temp-disk#how-do-i-migrate-from-a-vm-size-with-local-temp-disk-to-a-vm-size-with-no-local-temp-disk--- ..." -Level "WARN" }else { Write-WithTime_Using_WriteHost "Resizing procedure from source VM SKU '$($originalVM.HardwareProfile.VmSize)' to target VM SKU '$NewVMSKU' will recreate VM and OS disk ..." -Level "WARN" } } catch{ [bool] $ResizePrerequisitsFulfilled = $false Write-Error $_.Exception.Message } finally { Write-Output $ResizePrerequisitsFulfilled } } END {} } Function Get-AzVMHyperVGeneration { <# .SYNOPSIS Get-AzVMHyperVGeneration gets an VM Hyper-V Generation version - V1 or V2. .DESCRIPTION Get-AzVMHyperVGeneration gets an VM Hyper-V Generation version - V1 or V2. .PARAMETER VMResourceGroupName Virtual Machine Resource Group Name .PARAMETER VirtualMachineName Virtual Machine Name .PARAMETER SubscriptionId You can specify explictly an Subscription Id. This is an optional paramater. .EXAMPLE # get Hyperv Genrreation version for VM 'vm1' in resource group 'my-resourcegroup1' Get-AzVMHyperVGeneration -ResourceGroupName my-resourcegroup1 -VirtualMachineName vm1 .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory=$False)] [string] $SubscriptionId ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Get-AzVMHyperVGeneration ..." # Set Subscription Id if ($SubscriptionId) { Write-Verbose "Setting context to Azure subscription: $SubscriptionId ..." Set-AzContext -SubscriptionId $SubscriptionId -ErrorAction Stop > $null } $VMStatus = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName -Status Write-Output $VMStatus.HyperVGeneration Write-Verbose "Get-AzVMHyperVGeneration executed succesfully." } catch{ Write-Error "Error while executing Get-AzVMHyperVGeneration. $($_.Exception.Message)" } } END {} } function Test-AzVMResizeSupportNewSKUGeneration { <# .SYNOPSIS .DESCRIPTION .EXAMPLE .EXAMPLE .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string]$ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $VMSKU ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Test-AzVMResizeSupportNewSKUGeneration ..." Write-Verbose "Checking if new VM SKU '$VMSKU' supports current VM '$VirtualMachineName' Hyper-V Generation ..." $VM = Get-AzVM -ResourceGroupName $ResourceGroupName -Name $VirtualMachineName $CurrentVMHyperVGeneration = Get-AzVMHyperVGeneration -ResourceGroupName $ResourceGroupName -VirtualMachineName $VirtualMachineName $VMSKUGenSupport = Get-AzComputeSKUGenerationSupport -Location $VM.Location -VMSKU $VMSKU if ($VMSKUGenSupport.Contains($CurrentVMHyperVGeneration) ) { Write-Verbose "New VM SKU '$VMSKU' supports current VM '$VirtualMachineName' Hyper-V Generation '$CurrentVMHyperVGeneration'." Write-Output $true }else { Write-Verbose "New VM SKU '$VMSKU' do not supports current VM '$VirtualMachineName' Hyper-V Generation '$CurrentVMHyperVGeneration'." Write-Output $false } Write-Verbose "Test-AzVMResizeSupportNewSKUGeneration executed succesfully." } catch{ Write-Error "Error while executing Test-AzVMResizeSupportNewSKUGeneration. $($_.Exception.Message)" } } END {} } function Get-AzComputeSKUMaxDataDisks { <# .SYNOPSIS Get-AzComputeSKUMaxDataDisks gets maximum number of data disks for an SKU. .DESCRIPTION Get-AzComputeSKUMaxDataDisks gets maximum number of data disks for an SKU. .EXAMPLE # get list of all all zones supporting VM SKU "Standard_D64s_v3" Get-AzComputeSKUMaxDataDisks -Location "westeurope" -VMSKU "Standard_D64s_v3" .EXAMPLE Example .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $Location, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $VMSKU ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Get-AzComputeSKUMaxDataDisks ..." $SubId = (Get-AzContext).Subscription.Id $SKU = Get-AzComputeResourceSku -Location $Location | where { ($_.Name -eq $VMSKU) } if ($null -eq $SKU) { Write-Host Throw "VM SKU '$VMSKU' not found in Azure region '$Location'. Please check your VM SKU size." } $MaxDataDiskCount = ($SKU.Capabilities | where Name -eq MaxDataDiskCount).Value Write-Output $MaxDataDiskCount Write-Verbose "Get-AzComputeSKUMaxDataDisks executed succesfully." } catch{ Write-Error "Error while executing Get-AzComputeSKUMaxDataDisks. $($_.Exception.Message)" } } END {} } function Get-AzComputeSKUMaxNetworkInterfaces { <# .SYNOPSIS Get-AzComputeSKUMaxNetworkInterfaces gets maximum number of network interfaces for an SKU. .DESCRIPTION Get-AzComputeSKUMaxNetworkInterfaces gets maximum number of network interfaces for an SKU. .EXAMPLE # get max number of NIC cards for the VM SKU "Standard_D64s_v3" in "westeurope" Get-AzComputeSKUMaxNetworkInterfaces -Location "westeurope" -VMSKU "Standard_D64s_v3" .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $Location, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $VMSKU ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Get-AzComputeSKUMaxNetworkInterfaces ..." $SubId = (Get-AzContext).Subscription.Id $SKU = Get-AzComputeResourceSku -Location $Location | where { ($_.Name -eq $VMSKU) } if ($null -eq $SKU) { Write-Host Throw "VM SKU '$VMSKU' not found in Azure region '$Location'. Please check your VM SKU size." } $MaxMaxNetworkInterfacesCount = ($SKU.Capabilities | where Name -eq MaxNetworkInterfaces).Value Write-Output $MaxMaxNetworkInterfacesCount Write-Verbose "Get-AzComputeSKUMaxNetworkInterfaces executed succesfully." } catch{ Write-Error "Error while executing Get-AzComputeSKUMaxNetworkInterfaces. $($_.Exception.Message)" } } END {} } ### function Get-AzComputeSKUTrustedLaunchSupport { <# .SYNOPSIS Get-AzComputeSKUTrustedLaunchSupport checks if an VM SKU supports Trusted Launch security feature. .DESCRIPTION Get-AzComputeSKUTrustedLaunchSupport checks if an VM SKU supports Trusted Launch security feature. It returns $True or $False .EXAMPLE # Returns $False Get-AzComputeSKUTrustedLaunchSupport -Location "eastus" -VMSKU Standard_M128ms .EXAMPLE # Returns $True Get-AzComputeSKUTrustedLaunchSupport -Location "eastus" -VMSKU Standard_E4s_v5 .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $Location, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $VMSKU ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Get-AzComputeSKUTrustedLaunchSupport ..." $SubId = (Get-AzContext).Subscription.Id $SKU = Get-AzComputeResourceSku -Location $Location | where { ($_.Name -eq $VMSKU) } if ($null -eq $SKU) { Write-Host Throw "VM SKU '$VMSKU' not found in Azure region '$Location'. Please check your VM SKU size." } $TrustedLaunchDisabled = ($SKU.Capabilities | where Name -eq TrustedLaunchDisabled).Value if ($TrustedLaunchDisabled) { Write-Output $false }else { Write-Output $true } Write-Verbose "Get-AzComputeSKUTrustedLaunchSupport executed succesfully." } catch{ #Write-Error $_.Exception.Message Write-Error "Error while executing Get-AzComputeSKUTrustedLaunchSupport. $($_.Exception.Message)" } } END {} } function Test-AzComputeSKUExists { <# .SYNOPSIS Test-AzComputeSKUExists checks if an VM SKU in an Azure region exists. .DESCRIPTION Test-AzComputeSKUExists checks if an VM SKU in an Azure region exists. It returns $True or $False .EXAMPLE # Returns $True Test-AzComputeSKUExists -Location "eastus" -VMSKU Standard_M128ms .EXAMPLE # Returns $False Test-AzComputeSKUExists -Location "eastus" -VMSKU Standard_E4s_v5XXXXX .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $Location, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $VMSKU ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Test-AzComputeSKUExists ..." $SubId = (Get-AzContext).Subscription.Id $SKU = Get-AzComputeResourceSku -Location $Location | where { ($_.Name -eq $VMSKU) } if ($null -eq $SKU) { Write-Output $false }else { Write-Output $true } Write-Verbose "Test-AzComputeSKUExists executed succesfully." } catch{ Write-Error "Error while executing Test-AzComputeSKUExists. $_($_.Exception.Message)" } } END {} } function Test-AzVMIsResizableToSKU { <# .SYNOPSIS Test-AzComputeSKUExists checks if an VM can be resized to a SKU. .DESCRIPTION Test-AzComputeSKUExists checks if an VM can be resized to a SKU. It returns $True or $False .EXAMPLE # Returns $True Test-AzVMIsResizableToSKU -ResourceGroupName MyresourceGroup1 -VirtualMachineName myvm1 -NewVMSKU Standard_M128s_v3 .LINK .NOTES v0.1 - Initial version #> #Requires -Modules Az.Compute #Requires -Version 5.1 [CmdletBinding()] param( [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $ResourceGroupName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] [string] $VirtualMachineName, [Parameter(Mandatory=$True)] [ValidateNotNullOrEmpty()] $NewVMSKU ) BEGIN{ } PROCESS{ try{ Write-Verbose "Executing Test-AzVMIsResizableToSKU ..." $VMSizesForVM = Get-AzVMSize -ResourceGroupName $ResourceGroupName -VMName $VirtualMachineName $VMIsResizableToSKU = $VMSizesForVM.Name -contains $NewVMSKU Write-Output $VMIsResizableToSKU Write-Verbose "Test-AzVMIsResizableToSKU executed succesfully." } catch{ #Write-Error $_.Exception.Message Write-Error "Error while executing Test-AzVMIsResizableToSKU. $_($_.Exception.Message)" } } END {} } |