Az.Adm.psm1
<# .SYNOPSIS ################################################################################################################# # Created by: Diogo De Santana Jacome # # # # Modified by: Diogo De Santana Jacome # # # # # # Version: 1.0 # # # # # ################################################################################################################# Get-AzAdGroupRrbac is an advanced function that can be used to check all users of groups that have RBAC permission .DESCRIPTION Get-AzAdGroupRbac is an advanced function that can be used to check all users of groups that have RBAC permission You need to be connected to Azure subscription You need to have role Reader permission on Azure subscription and in Azure AD .EXAMPLE C:\PS> Get-AzAdGroupRbac -Import .\AZAD_Groups.csv .EXAMPLE C:\PS> Get-AzAdGroupRbac -Group GP-Ower .EXAMPLE C:\PS> Get-AzAdGroupRbac -Group xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx .EXAMPLE C:\PS> Get-AzAdGroupRbac -Import .\AZAD_Groups.csv | Export-Csv C:\Users\$env:USERNAME\Documents\GroupUserAll.csv .LINK https://github.com/Didjacome #> function Get-AzAdGroupRbac { [CmdletBinding(DefaultParameterSetName = 'Group')] param( [Parameter(Mandatory, ParameterSetName = 'Group')] [string] $Group, [Parameter(Position = 0, Mandatory, ValueFromPipelineByPropertyName, ValueFromPipeline, ParameterSetName = 'import')] [string] $Import ) process { Write-Verbose "ParameterSetName is '$($PSCmdlet.ParameterSetName)'" if ( $PSCmdlet.ParameterSetName -eq 'import' ) { $Validar_Import = Test-Path $Import -ErrorAction SilentlyContinue -WarningAction SilentlyContinue if ( $Validar_Import -eq $true) { function matrizContar ($inicio, $final, $de, $var2) { $contagem = $inicio while ($contagem -le $final) { $RoleGroup = (Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object DisplayName -Like $var2).RoleDefinitionName[$contagem] $ScopeRBAC = (Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object DisplayName -Like $var2).Scope[$contagem] $GroupAssignment = (Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object DisplayName -Like $var2).DisplayName[$contagem] $Id = Get-AzADGroupMember -GroupDisplayName $var2 | Select-Object -ExpandProperty Id foreach ($ver in $id) { Get-AzADUser -ObjectId $ver | Select-Object @{n = 'SignInName'; e = { $_.Mail } }, @{n = 'RoleDefinitionName'; e = { "$RoleGroup" } }, @{n = 'Scope'; e = { "$ScopeRBAC" } }, @{n = 'associated Group'; e = { "$GroupAssignment" } } } $contagem += $de } } $i = 0 $p = 1 $rep = (Import-Csv $Import -UseCulture | Select-Object DisplayName | Sort-Object DisplayName | Get-Unique -AsString).DisplayName foreach ($d in $rep) { $countGp = (Get-Content $Import | Select-String -Pattern $d -CaseSensitive -SimpleMatch ).count ; $f = $countGp - 1 ; matrizContar -inicio $i -final $f -de $p -var $d } } else { Write-Host [' Csv import error Please go to ''https://github.com/Didjacome'] -ForegroundColor DarkRed } } if ( $PSCmdlet.ParameterSetName -eq 'Group' ) { $ValidarGP = (Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object DisplayName -Like $Group | Get-Unique -AsString ).DisplayName if ( $ValidarGP -like $Group ) { function matrizContar ($inicio, $final, $de, $var2) { $contagem = $inicio while ($contagem -le $final) { $RoleGroup = (Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object DisplayName -Like $var2).RoleDefinitionName[$contagem] $ScopeRBAC = (Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object DisplayName -Like $var2).Scope[$contagem] $GroupAssignment = (Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object DisplayName -Like $var2).DisplayName[$contagem] $id = Get-AzADGroupMember -GroupDisplayName $var2 | Select-Object -ExpandProperty Id foreach ($ver in $id) { Get-AzADUser -ObjectId $ver | Select-Object @{n = 'SignInName'; e = { $_.Mail } }, @{n = 'RoleDefinitionName'; e = { "$RoleGroup" } }, @{n = 'Scope'; e = { "$ScopeRBAC" } }, @{n = 'associated Group'; e = { "$GroupAssignment" } } } $contagem += $de } } $i = 0 $p = 1 $rep = (Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object DisplayName -Like $Group | Get-Unique -AsString ).DisplayName foreach ($d in $rep) { $countGp = ((Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object DisplayName -Like $d).ObjectId).count ; $f = $countGp - 1 ; matrizContar -inicio $i -final $f -de $p -var $d } } else { $validarGPId = (Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object ObjectId -Like $Group | Get-Unique -AsString ).ObjectId if ($validarGPId -eq $Group) { function matrizContar ($inicio, $final, $de, $var2) { $contagem = $inicio while ($contagem -le $final) { $RoleGroup = (Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object ObjectId -EQ $var2).RoleDefinitionName[$contagem] $ScopeRBAC = (Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object ObjectId -EQ $var2).Scope[$contagem] $GroupAssignment = (Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object ObjectId -EQ $var2).DisplayName[$contagem] $Id = Get-AzADGroupMember -GroupObjectId $var2 | Select-Object -ExpandProperty Id foreach ($ver in $Id) { Get-AzADUser -ObjectId $ver | Select-Object @{n = 'SignInName'; e = { $_.Mail } }, @{n = 'RoleDefinitionName'; e = { "$RoleGroup" } }, @{n = 'Scope'; e = { "$ScopeRBAC" } }, @{n = 'associated Group'; e = { "$GroupAssignment" } } } $contagem += $de } } $i = 0 $p = 1 $rep = (Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object ObjectId -Like $Group | Get-Unique -AsString ).ObjectId foreach ($d in $rep) { $countGp = ((Get-AzRoleAssignment -WarningAction SilentlyContinue | Where-Object ObjectType -EQ Group | Where-Object ObjectId -Like $d).ObjectId).count ; $f = $countGp - 1 ; matrizContar -inicio $i -final $f -de $p -var $d } } else { Write-Host ['Group does not exist Please go to ''https://github.com/Didjacome'] -ForegroundColor DarkRed } } } } } <# .SYNOPSIS ################################################################################################################# # Created by: Diogo De Santana Jacome # # # # Modified by: Diogo De Santana Jacome # # # # # # Version: 1.0 # # # # # ################################################################################################################# Set-AzTag is an advanced function that can be used to configure tags on all resources in a resource group .DESCRIPTION Set-AzTag is an advanced function that can be used to configure tags on all resources in a resource group You need to be signed in to the Azure subscription You need to have permission on the Azure subscription .EXAMPLE C:\PS> Set-AzTag -RG "My Resource Group Name" -ImportCSV .\Tags.csv .EXAMPLE C:\PS> Set-AzTag -RG "My Resource Group Name" -Tag_Name Env -Tag_value PRD .LINK https://github.com/Didjacome #> function Set-AzTag { [CmdletBinding(DefaultParameterSetName = 'TAG')] param ( # Parameter help description [Parameter(Mandatory)] [System.String] $RG, [Parameter(Mandatory, ParameterSetName = 'TAG')] [System.String] $Tag_Name, [Parameter(Mandatory, ParameterSetName = 'TAG')] [System.String] $Tag_Value, [Parameter(Position = 0, Mandatory, ValueFromPipelineByPropertyName, ValueFromPipeline, ParameterSetName = 'CSV')] [System.String] $ImportCSV ) process { Write-Verbose "ParameterSetName is '$($PSCmdlet.ParameterSetName)'" if ($PSCmdlet.ParameterSetName -eq 'TAG') { $tags = @{$Tag_Name = $Tag_Value } $rg_id = (Get-AzResourceGroup -Name $RG).ResourceId $all_resource_id = (Get-AzResource -ResourceGroupName $RG).ResourceId Update-AzTag -ResourceId $rg_id -Tag $tags -Operation Merge foreach ( $resource in $all_resource_id ) { Update-AzTag -ResourceId $resource -Tag $tags -Operation Merge } } if ($PSCmdlet.ParameterSetName -eq 'CSV') { function convertCsvToHashTable($ImportCSV) { $csv = Import-Csv $ImportCSV -UseCulture $headers = $csv[0].psobject.properties.name $key = $headers[0] $value = $headers[1] $hashTable = @{} $csv | ForEach-Object { $hashTable[$_."$key"] = $_."$value" } return $hashTable } $tags = convertCsvToHashTable $ImportCSV $rg_id = (Get-AzResourceGroup -Name $RG).ResourceId $all_resource_id = (Get-AzResource -ResourceGroupName $RG).ResourceId Update-AzTag -ResourceId $rg_id -Tag $tags -Operation Merge foreach ( $resource in $all_resource_id ) { Update-AzTag -ResourceId $resource -Tag $tags -Operation Merge } } } } <# .SYNOPSIS ################################################################################################################# # Created by: Diogo De Santana Jacome # # # # Modified by: Diogo De Santana Jacome # # # # # # Version: 1.0 # # # # # ################################################################################################################# Convert-CsvToHashtable is an advanced function that converts CSV to HashTable .DESCRIPTION Convert-CsvToHashtable is an advanced function that converts CSV to HashTable .EXAMPLE C:\PS> Convert-CsvTohashtable -Path .\variavel.csv .LINK https://github.com/Didjacome #> function Convert-CsvTohashtable { param ( # Parameter help description [Parameter(Mandatory)] [System.String] $Path ) process { $csv = Import-Csv $Path -UseCulture $headers = $csv[0].psobject.properties.name $key = $headers[0] $value = $headers[1] $hashTable = @{} $csv | ForEach-Object { $hashTable[$_."$key"] = $_."$value" } return $hashTable } } <# .SYNOPSIS ################################################################################################################# # Created by: Diogo De Santana Jacome # # Co-creator: Luan Victor Cordeiro Levandoski # # Modified by: Diogo De Santana Jacome # # # # # # Version: 1.0 # # # # # ################################################################################################################# Get-AzGraphUserRbac is an advanced function that can be used to verify all users, MFA, MS 365 license, Azure AD role, Azure subscription role, last login, user lock. .DESCRIPTION Get-AzGraphUserRbac is an advanced function that can be used to verify all users, MFA, MS 365 license, Azure AD role, Azure subscription role, last login, user lock. You need a Service Principal that can access the graph API. API Permissions: AuditLog.Read.All Directory.Read.All Group.Read.All User.Read.All UserAuthenticationMethod.Read.All You need to have role Reader permission on Azure subscription and in Azure AD This function will download a CSV spreadsheet about the Microsoft Upgraded license Licensing-service-plan-reference: https://docs.microsoft.com/En-us/azure/active-directory/enterprise-users/licensing-service-plan-reference .EXAMPLE C:\PS> Get-AzGraphUserRbac -upn test@contoso.onmicrosoft.com -tenantdomain contoso.onmicrosoft.com -ClientID 00000000-0000-0000-0000-00000000 -ClientSecret 0000zzzz0000zzzz0000zzzz -tenantid xxxxx-xxxxx-xxxxxx-xxxxx .EXAMPLE C:\PS> Get-AzGraphUserRbac -upn test@contoso.onmicrosoft.com -tenantdomain contoso.onmicrosoft.com -ClientID 00000000-0000-0000-0000-00000000 -ClientSecret 0000zzzz0000zzzz0000zzzz -tenantid xxxxx-xxxxx-xxxxxx-xxxxx | export-csv report-security.csv .EXAMPLE C:\PS> $User_Ext = (Get-AzADUser | Where-Object UserPrincipalName -Like '*#EXT#@*').UserPrincipalName C:\PS> $User_Ext_ALL = $User_Ext.replace('#', '%23') C:\PS> Foreach ( $Users in $User_Ext_ALL){ Get-AzGraphUserRbac -upn $Users -tenantdomain contoso.onmicrosoft.com -ClientID 00000000-0000-0000-0000-00000000 -ClientSecret 0000zzzz0000zzzz0000zzzz -tenantid xxxxx-xxxxx-xxxxxx-xxxxx} .LINK https://github.com/Didjacome #> function Get-AzGraphUserRbac { param ( [Parameter(Mandatory)] [string]$upn, [Parameter(Mandatory)] [String]$tenantdomain, [Parameter(Mandatory)] [string]$ClientSecret, [Parameter(Mandatory)] [string]$ClientID, [Parameter(Mandatory)] [string]$tenantid ) [string]$select = 'select' [string]$filter = 'filter' [string]$cifrao = '$' [string]$cf = $cifrao + $filter [string]$cs = $cifrao + $select $Uri_MS_License = 'https://download.microsoft.com/download/e/3/e/e3e9faf2-f28b-490a-9ada-c6089a1fc5b0/Product%20names%20and%20service%20plan%20identifiers%20for%20licensing.csv' $File_CSV_License = 'license.csv' if ((Test-Path $File_CSV_License) -eq $false) { Invoke-WebRequest -Uri $Uri_MS_License -OutFile $File_CSV_License $data = Import-Csv $File_CSV_License } else { $data = Import-Csv $File_CSV_License } class ReportsUsers { [string]$name [string]$email [string]$MFADefault [string]$MFAMethods [string]$MFASmsEnabled [string]$MFANumber [string]$license [string]$RoleADAssignedUser [string]$RoleRbacName [string]$RolesRbacScope [string]$DN [string]$AccoutCreate [string]$UserLestlogin [string]$AccountEnabled } $ReportsUsersList = New-Object Collections.Generic.List[ReportsUsers] class LicenseAll { [string]$LicenseNameAll } $LicenseAllList = New-Object Collections.Generic.List[LicenseAll] $loginURL = 'https://login.microsoftonline.com' $resource = 'https://graph.microsoft.com' # Microsoft Graph API resource URI $body = @{grant_type = 'client_credentials'; resource = $resource; client_id = $ClientID; client_secret = $ClientSecret } $oauth = Invoke-RestMethod -Method Post -Uri $loginURL/$tenantdomain/oauth2/token?api-version=1.0 -Body $body if ($oauth.access_token -ne $null) { $headerParams = @{'Authorization' = "$($oauth.token_type) $($oauth.access_token)" } $MFA_url = "https://graph.microsoft.com/beta/reports/authenticationMethods/userRegistrationDetails?$cf=userPrincipalName eq '$upn'" $mfa = (Invoke-WebRequest -UseBasicParsing -Headers $headerParams -Uri $MFA_url) $MFASMS_URL = "https://graph.microsoft.com/beta/users/$upn/authentication/phoneMethods" $SMS = (Invoke-WebRequest -UseBasicParsing -Headers $headerParams -Uri $MFASMS_url) $User_url = "https://graph.microsoft.com/beta/users?$cf=userPrincipalName eq '$upn'" $User = (Invoke-WebRequest -UseBasicParsing -Headers $headerParams -Uri $User_url) $Sing_url = "https://graph.microsoft.com/beta/users?$cf=userPrincipalName eq '$upn'&$cs=signInActivity" $Sing = (Invoke-WebRequest -UseBasicParsing -Headers $headerParams -Uri $Sing_url) $license_url = "https://graph.microsoft.com/v1.0/users/$upn/licenseDetails" $license = (Invoke-WebRequest -UseBasicParsing -Headers $headerParams -Uri $license_url) $role_url = "https://graph.microsoft.com/beta/users/$upn/transitiveMemberOf/microsoft.graph.directoryRole?$cs=displayName" $role = Invoke-WebRequest -UseBasicParsing -Headers $headerParams -Uri $role_url -SkipHttpErrorCheck -SkipHeaderValidation } else { Write-Host 'ERROR: No Access Token' } $mfajson = ($mfa.content | ConvertFrom-Json).value $DefaultMFA = $mfajson.defaultMfaMethod $countMFAMethods = ($mfajson.methodsRegistered).count if ($countMFAMethods -gt 1) { $MethodsRegist = $mfajson.methodsRegistered function MethodsWords ($i, $f, $p) { $start = $i while ($start -le $f) { $Words = $MethodsRegist[$start] $Letters = $MethodsRegist[$start].Length $new_words = $Words.Insert($Letters, ' | ') $set_of_words += $new_words $start += $p } return $set_of_words } $initiation = 0 $end = $countMFAMethods - 1 $go = 1 $MethodsMFA = MethodsWords -i $initiation -f $end -p $go } else { $MethodsMFA = $mfajson.methodsRegistered } $Smsjson = ($SMS.content | ConvertFrom-Json).value $Phone = $Smsjson.phoneNumber if ($Smsjson.phoneNumber -ne $null) { $MFASMS = $true } else { $MFASMS = $false } if (($DefaultMFA -eq $null) -and ($MethodsMFA -eq $null) ) { if ($MFASMS -eq $true) { $DefaultMFA = 'OneWaySMS' $MethodsMFA = 'OneWaySMS' } } if (($DefaultMFA -eq 'none') -and ($MethodsMFA -eq $null) -and ($MFASMS -eq $false) ) { $DefaultMFA = '' } $Userjson = ($User.content | ConvertFrom-Json).value $SignInName = $Userjson.userPrincipalName $displayName = $Userjson.displayName $DateCreate = $Userjson.createdDateTime $BlockCredential = $Userjson.accountEnabled $DN = $Userjson.onPremisesDistinguishedName $Singjson = ($Sing.content | ConvertFrom-Json).value $Lestlogin = $Singjson.signInActivity.lastSignInDateTime $licensejson = ($license.content | ConvertFrom-Json).value If ($licensejson.skuId -ne $null) { $licenseId = $licensejson.skuId foreach ($licenseIds in $licenseId) { $Popline = ' | ' $LicenseName = ($data | Where-Object GUID -EQ $licenseIds).Product_Display_Name | Get-Unique $licenseNames = $LicenseName + $Popline $LicenseAll = [LicenseAll]::new() $LicenseAll.LicenseNameAll = $licenseNames $LicenseAllList.add($LicenseAll) } } $rolejson = ($role.content | ConvertFrom-Json).value $AADRoleName = $rolejson.displayName $SecuredPassword = ConvertTo-SecureString $ClientSecret -AsPlainText -Force $Credential = New-Object System.Management.Automation.PSCredential -ArgumentList $ClientID, $SecuredPassword Connect-AzAccount -Credential $Credential -ServicePrincipal -TenantId $tenantid -WarningAction SilentlyContinue -ErrorAction Break | Out-Null $UPNRbac = $upn.replace('%23', '#') $RoleName = (Get-AzRoleAssignment -SignInName $UPNRbac -WarningAction SilentlyContinue).RoleDefinitionName $RoleScope = (Get-AzRoleAssignment -SignInName $UPNRbac -WarningAction SilentlyContinue).Scope $ReportsUsers = [ReportsUsers]::new() $ReportsUsers.name = $displayName $ReportsUsers.email = $SignInName $ReportsUsers.MFADefault = $DefaultMFA $ReportsUsers.MFAMethods = $MethodsMFA $ReportsUsers.MFASmsEnabled = $MFASMS $ReportsUsers.MFANumber = $Phone $ReportsUsers.license = $LicenseAllList.LicenseNameAll $ReportsUsers.RoleADAssignedUser = $AADRoleName $ReportsUsers.RoleRbacName = $RoleName $ReportsUsers.RolesRbacScope = $RoleScope $ReportsUsers.DN = $DN $ReportsUsers.AccoutCreate = $DateCreate $ReportsUsers.UserLestlogin = $Lestlogin $ReportsUsers.AccountEnabled = $BlockCredential $ReportsUsersList.add($ReportsUsers) return $ReportsUsersList } <# .SYNOPSIS ################################################################################################################# # Created by: Diogo De Santana Jacome # # Co-creator: Luan Victor Cordeiro Levandoski # # Modified by: Diogo De Santana Jacome # # # # # # Version: 1.0 # # # # # ################################################################################################################# Get-AzGraphUser is an advanced function that can be used to verify all users, MFA, MS 365 license, Azure AD role, last login, user lock. .DESCRIPTION Get-AzGraphUser is an advanced function that can be used to verify all users, MFA, MS 365 license, Azure AD role, last login, user lock. You need a Service Principal that can access the graph API. API Permissions: AuditLog.Read.All Directory.Read.All Group.Read.All User.Read.All UserAuthenticationMethod.Read.All You need to have role Reader permission on Azure subscription and in Azure AD This function will download a CSV spreadsheet about the Microsoft Upgraded license Licensing-service-plan-reference: https://docs.microsoft.com/En-us/azure/active-directory/enterprise-users/licensing-service-plan-reference .EXAMPLE C:\PS> Get-AzGraphUser -upn test@contoso.onmicrosoft.com -tenantdomain contoso.onmicrosoft.com -ClientID 00000000-0000-0000-0000-00000000 -ClientSecret 0000zzzz0000zzzz0000zzzz .EXAMPLE C:\PS> Get-AzGraphUser -upn test@contoso.onmicrosoft.com -tenantdomain contoso.onmicrosoft.com -ClientID 00000000-0000-0000-0000-00000000 -ClientSecret 0000zzzz0000zzzz0000zzzz | export-csv report-security.csv .EXAMPLE C:\PS> $Users_Ids_Dev = (Get-AzADGroupMember -GroupDisplayName GP-Dev).id C:\PS> $Rbac_GP = Get-AzADGroupRBAC -Group GP-Dev C:\PS> Foreach ( $Users in $Users_Ids_Dev){ $upn = (Get-AzADUser -ObjectId $Users).UserPrincipalName $Users_Graph_All Get-AzGraphUser -upn $upn -tenantdomain contoso.onmicrosoft.com -ClientID 00000000-0000-0000-0000-00000000 -ClientSecret 0000zzzz0000zzzz0000zzzz} C:\PS> $ListAll = ($Rbac_GP | Merge-Object $Users_Graph_All -On SignInName) C:\PS> $ListAll | export-csv Security-GP-Dev.csv .EXAMPLE C:\PS> $User_Ext = (Get-AzADUser | Where-Object UserPrincipalName -Like '*#EXT#@*').UserPrincipalName C:\PS> $User_Ext_ALL = $User_Ext.replace('#', '%23') C:\PS> Foreach ( $Users in $User_Ext_ALL){ Get-AzGraphUser -upn $Users -tenantdomain contoso.onmicrosoft.com -ClientID 00000000-0000-0000-0000-00000000 -ClientSecret 0000zzzz0000zzzz0000zzzz} .LINK https://github.com/Didjacome #> function Get-AzGraphUser { param ( [Parameter(Mandatory)] [string]$upn, [Parameter(Mandatory)] [String]$tenantdomain, [Parameter(Mandatory)] [string]$ClientSecret, [Parameter(Mandatory)] [string]$ClientID ) [string]$select = 'select' [string]$filter = 'filter' [string]$cifrao = '$' [string]$cf = $cifrao + $filter [string]$cs = $cifrao + $select $Uri_MS_License = 'https://download.microsoft.com/download/e/3/e/e3e9faf2-f28b-490a-9ada-c6089a1fc5b0/Product%20names%20and%20service%20plan%20identifiers%20for%20licensing.csv' $File_CSV_License = 'license.csv' if ((Test-Path $File_CSV_License) -eq $false) { Invoke-WebRequest -Uri $Uri_MS_License -OutFile $File_CSV_License $data = Import-Csv $File_CSV_License } else { $data = Import-Csv $File_CSV_License } class ReportsUsers { [string]$name [string]$SignInName [string]$MFADefault [string]$MFAMethods [string]$MFASmsEnabled [string]$MFANumber [string]$license [string]$RoleADAssignedUser [string]$DN [string]$AccoutCreate [string]$UserLestlogin [string]$AccountEnabled } $ReportsUsersList = New-Object Collections.Generic.List[ReportsUsers] class LicenseAll { [string]$LicenseNameAll } $LicenseAllList = New-Object Collections.Generic.List[LicenseAll] $loginURL = 'https://login.microsoftonline.com' $resource = 'https://graph.microsoft.com' # Microsoft Graph API resource URI $body = @{grant_type = 'client_credentials'; resource = $resource; client_id = $ClientID; client_secret = $ClientSecret } $oauth = Invoke-RestMethod -Method Post -Uri $loginURL/$tenantdomain/oauth2/token?api-version=1.0 -Body $body if ($oauth.access_token -ne $null) { $headerParams = @{'Authorization' = "$($oauth.token_type) $($oauth.access_token)" } $MFA_url = "https://graph.microsoft.com/beta/reports/authenticationMethods/userRegistrationDetails?$cf=userPrincipalName eq '$upn'" $mfa = (Invoke-WebRequest -UseBasicParsing -Headers $headerParams -Uri $MFA_url) $MFASMS_URL = "https://graph.microsoft.com/beta/users/$upn/authentication/phoneMethods" $SMS = (Invoke-WebRequest -UseBasicParsing -Headers $headerParams -Uri $MFASMS_url) $User_url = "https://graph.microsoft.com/beta/users?$cf=userPrincipalName eq '$upn'" $User = (Invoke-WebRequest -UseBasicParsing -Headers $headerParams -Uri $User_url) $Sing_url = "https://graph.microsoft.com/beta/users?$cf=userPrincipalName eq '$upn'&$cs=signInActivity" $Sing = (Invoke-WebRequest -UseBasicParsing -Headers $headerParams -Uri $Sing_url) $license_url = "https://graph.microsoft.com/v1.0/users/$upn/licenseDetails" $license = (Invoke-WebRequest -UseBasicParsing -Headers $headerParams -Uri $license_url) $role_url = "https://graph.microsoft.com/beta/users/$upn/transitiveMemberOf/microsoft.graph.directoryRole?$cs=displayName" $role = Invoke-WebRequest -UseBasicParsing -Headers $headerParams -Uri $role_url -SkipHttpErrorCheck -SkipHeaderValidation } else { Write-Host 'ERROR: No Access Token' } $mfajson = ($mfa.content | ConvertFrom-Json).value $DefaultMFA = $mfajson.defaultMfaMethod $countMFAMethods = ($mfajson.methodsRegistered).count if ($countMFAMethods -gt 1) { $MethodsRegist = $mfajson.methodsRegistered function MethodsWords ($i, $f, $p) { $start = $i while ($start -le $f) { $Words = $MethodsRegist[$start] $Letters = $MethodsRegist[$start].Length $new_words = $Words.Insert($Letters, ' | ') $set_of_words += $new_words $start += $p } return $set_of_words } $initiation = 0 $end = $countMFAMethods - 1 $go = 1 $MethodsMFA = MethodsWords -i $initiation -f $end -p $go } else { $MethodsMFA = $mfajson.methodsRegistered } $Smsjson = ($SMS.content | ConvertFrom-Json).value $Phone = $Smsjson.phoneNumber if ($Smsjson.phoneNumber -ne $null) { $MFASMS = $true } else { $MFASMS = $false } if (($DefaultMFA -eq $null) -and ($MethodsMFA -eq $null) ) { if ($MFASMS -eq $true) { $DefaultMFA = 'OneWaySMS' $MethodsMFA = 'OneWaySMS' } } if (($DefaultMFA -eq 'none') -and ($MethodsMFA -eq $null) -and ($MFASMS -eq $false) ) { $DefaultMFA = '' } $Userjson = ($User.content | ConvertFrom-Json).value $displayName = $Userjson.displayName $SignName = $Userjson.mail $SignNameValidate = $SignName.Replace('#EXT#@sotreqcloud.onmicrosoft.com', '').Replace('_', '@') $DateCreate = $Userjson.createdDateTime $BlockCredential = $Userjson.accountEnabled $DN = $Userjson.onPremisesDistinguishedName $Singjson = ($Sing.content | ConvertFrom-Json).value $Lestlogin = $Singjson.signInActivity.lastSignInDateTime $licensejson = ($license.content | ConvertFrom-Json).value If ($licensejson.skuId -ne $null) { $licenseId = $licensejson.skuId foreach ($licenseIds in $licenseId) { $Popline = ' | ' $LicenseName = ($data | Where-Object GUID -EQ $licenseIds).Product_Display_Name | Get-Unique $licenseNames = $LicenseName + $Popline $LicenseAll = [LicenseAll]::new() $LicenseAll.LicenseNameAll = $licenseNames $LicenseAllList.add($LicenseAll) } } $rolejson = ($role.content | ConvertFrom-Json).value $AADRoleName = $rolejson.displayName $ReportsUsers = [ReportsUsers]::new() $ReportsUsers.name = $displayName $ReportsUsers.SignInName = $SignNameValidate $ReportsUsers.MFADefault = $DefaultMFA $ReportsUsers.MFAMethods = $MethodsMFA $ReportsUsers.MFASmsEnabled = $MFASMS $ReportsUsers.MFANumber = $Phone $ReportsUsers.license = $LicenseAllList.LicenseNameAll $ReportsUsers.RoleADAssignedUser = $AADRoleName $ReportsUsers.DN = $DN $ReportsUsers.AccoutCreate = $DateCreate $ReportsUsers.UserLestlogin = $Lestlogin $ReportsUsers.AccountEnabled = $BlockCredential $ReportsUsersList.add($ReportsUsers) return $ReportsUsersList } <# .SYNOPSIS ################################################################################################################# # Created by: Diogo De Santana Jacome # # # # Modified by: Diogo De Santana Jacome # # # # # # Version: 1.0 # # # # # ################################################################################################################# New-AzSnapshotDiskOs is an advanced function that can be used to perform manager disk snapshots of Virtual Machine operating systems in Azure. .DESCRIPTION New-AzSnapshotDiskOs is an advanced function that can be used to perform manager disk snapshots of Virtual Machine operating systems in Azure. You need to have role Contibuitor in Subscription Azure .EXAMPLE C:\PS> New-AzSnapshotDiskOs -VmName VM-SQL-01 .EXAMPLE C:\PS> New-AzSnapshotDiskOs -VmName VM-SQL-01 -SnapshotName Snap-VM-SQL-OS -ResourceGroupName RG-Snapshots .EXAMPLE C:\PS> New-AzSnapshotDiskOs -VmName VM-SQL-01 -SnapshotName Snap-VM-SQL-OS -ResourceGroupName RG-Snapshots -Tag @{Issue="xxxxxx";env="prd"} .EXAMPLE C:\PS> New-AzSnapshotDiskOs -ComputerName SQLSERVER -SnapshotName Snap-VM-SQL-OS -ResourceGroupName RG-Snapshots .EXAMPLE C:\PS> $VM = (import-csv VirtualMachines.csv).Name C:\PS> Foreach ($VMS in $VM) {New-AzSnapshotDiskOs -VmName $VMS -Tag @{Issue="xxxxx";env="prd"}} .LINK https://github.com/Didjacome #> function New-AzSnapshotDiskOs { [CmdletBinding(DefaultParameterSetName = 'VmName')] param ( [Parameter(Mandatory, ParameterSetName = 'VmName')] [System.String] $VmName, [Parameter(Position = 0, Mandatory, ValueFromPipelineByPropertyName, ValueFromPipeline, ParameterSetName = 'ComputerName')] [System.String] $ComputerName, [string]$SnapshotName, [string]$ResourceGroupName, [Hashtable]$Tag ) process { Write-Verbose "ParameterSetName is '$($PSCmdlet.ParameterSetName)'" if ($PSCmdlet.ParameterSetName -eq 'VmName') { $Vms = Get-AzVM | Where-Object Name -EQ $VmName if ($SnapshotName -eq '') { $Name = $Vms.Name $SnapshotName = $Name + '-OS' if ((Get-AzSnapshot -Name $SnapshotName).ProvisioningState -eq 'Succeeded') { $IdDisk = $Vms.StorageProfile.OsDisk.ManagedDisk.id $countNames = (Search-AzGraph -Query "Resources| where type == 'microsoft.compute/snapshots' | where properties.provisioningState == 'Succeeded' and properties.creationData.sourceResourceId == '$IdDisk'| project name").Count $nameSnaps = (Search-AzGraph -Query "Resources | where type == 'microsoft.compute/snapshots' | where name == '$SnapshotName' and properties.provisioningState == 'Succeeded'").name $SnapshotName = $nameSnaps + '-' + $countNames } } if ($ResourceGroupName -eq '') { $ResourceGroupName = $vms.ResourceGroupName } $Location = $Vms.Location $OsDiskId = $Vms.StorageProfile.OsDisk.ManagedDisk.id if ($Tag -eq $null) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $OsDiskId -Location $Location -CreateOption copy New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotName -ResourceGroupName $ResourceGroupName } if ($Tag -ne $null) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $OsDiskId -Location $Location -CreateOption copy -Tag $Tag New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotName -ResourceGroupName $ResourceGroupName } } if ($PSCmdlet.ParameterSetName -eq 'ComputerName') { $CheckVmId_OsProfile = (Search-AzGraph -Query "Resources | where type == 'microsoft.compute/virtualmachines' | where properties.osProfile.computerName == '$ComputerName'").id $CheckVmId_InstanceView = (Search-AzGraph -Query "Resources | where type == 'microsoft.compute/virtualmachines' | where properties.extended.instanceView.computerName == '$ComputerName'").id If ($CheckVmId_OsProfile -eq $null) { if ($CheckVmId_InstanceView -eq $null) { Write-Error 'The computername does not exist, check that the name is correct. Case sensitive. If the problem persists utlize VMname with flag -VmName.'; exit 1; } else { $Vms = (Search-AzGraph -Query "Resources | where type == 'microsoft.compute/virtualmachines' | where properties.extended.instanceView.computerName == '$ComputerName'") } } else { $Vms = (Search-AzGraph -Query "Resources | where type == 'microsoft.compute/virtualmachines' | where properties.osProfile.computerName == '$ComputerName'") } if ($SnapshotName -eq '') { $Name = $Vms.Name $SnapshotName = $Name + '-OS' if ((Search-AzGraph -Query "Resources | where type == 'microsoft.compute/snapshots' | where name == '$SnapshotName' and properties.provisioningState == 'Succeeded'").properties.provisioningState -eq 'Succeeded') { $IdDisk = $vms.properties.storageProfile.osDisk.managedDisk.id $countNames = (Search-AzGraph -Query "Resources| where type == 'microsoft.compute/snapshots' | where properties.provisioningState == 'Succeeded' and properties.creationData.sourceResourceId == '$IdDisk'| project name").Count $nameSnaps = (Search-AzGraph -Query "Resources | where type == 'microsoft.compute/snapshots' | where name == '$SnapshotName' and properties.provisioningState == 'Succeeded'").name $SnapshotName = $nameSnaps + '-' + $countNames } } if ($ResourceGroupName -eq '') { $ResourceGroupName = $vms.ResourceGroup } $Location = $vms.Location $OsDiskId = $vms.properties.storageProfile.osDisk.managedDisk.id if ($Tag -eq $null) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $OsDiskId -Location $Location -CreateOption copy New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotName -ResourceGroupName $ResourceGroupName } if ($Tag -ne $null) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $OsDiskId -Location $Location -CreateOption copy -Tag $Tag New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotName -ResourceGroupName $ResourceGroupName } } } } <# .SYNOPSIS ################################################################################################################# # Created by: Diogo De Santana Jacome # # # # Modified by: Diogo De Santana Jacome # # # # # # version: 1.0 # # # # # ################################################################################################################# New-AzSnapshotDiskAll is an advanced function that can be used to perform snapshots of all virtual machine manager disks in Azure. .DESCRIPTION New-AzSnapshotDiskAll is an advanced function that can be used to perform snapshots of all virtual machine manager disks in Azure. You need to have role Contibuitor in Subscription Azure Important: Not recommended for Azure shared disks .EXAMPLE C:\PS> New-AzSnapshotDiskAll -VmName VM-SQL-01 .EXAMPLE C:\PS> New-AzSnapshotDiskAll -VmName VM-SQL-01 -SnapshotName Snap -ResourceGroupName RG-Snapshots .EXAMPLE C:\PS> New-AzSnapshotDiskAll -VmName VM-SQL-01 -SnapshotName Snap -ResourceGroupName RG-Snapshots -Tag @{Issue="xxxxxx";env="prd"} .EXAMPLE C:\PS> New-AzSnapshotDiskAll -ComputerName SQLSERVER -SnapshotName Snap -ResourceGroupName RG-Snapshots .EXAMPLE C:\PS> $VM = (import-csv VirtualMachines.csv).Name C:\PS> Foreach ($VMS in $VM) {New-AzSnapshotDiskAll -VmName $VMS -Tag @{Issue="xxxxx";env="prd"}} .LINK https://github.com/Didjacome #> function New-AzSnapshotDiskAll { [CmdletBinding(DefaultParameterSetName = 'VmName')] param ( [Parameter(Mandatory, ParameterSetName = 'VmName')] [System.String] $VmName, [Parameter(Position = 0, Mandatory, ValueFromPipelineByPropertyName, ValueFromPipeline, ParameterSetName = 'ComputerName')] [System.String] $ComputerName, [string]$SnapshotName, [string]$ResourceGroupName, [Hashtable]$Tag ) process { Write-Verbose "ParameterSetName is '$($PSCmdlet.ParameterSetName)'" if ($PSCmdlet.ParameterSetName -eq 'VmName') { $Vms = Get-AzVM | Where-Object Name -EQ $VmName $IdVms = $Vms.id $DiskAll = Get-AzDisk | Where-Object ManagedBy -EQ $IdVms | Select-Object Name, id, OsType $Location = $Vms.Location if ($SnapshotName -eq '') { $VmName = $Vms.Name $CountDiskDatas = ($diskall | Where-Object OsType -EQ $null).count class disknames { [string]$name } $disknamesAllList = New-Object Collections.Generic.List[disknames] function DiskNamesSum ($i, $f, $p) { $start = $i while ($start -le $f) { $NameSnapshot = $VmName + '-Data' + '-' + $start $disknames = [disknames]::new() $disknames.name = $NameSnapshot $disknamesAllList.add($disknames) $start += $p } return $disknamesAllList } $initiation = 0 $go = 1 $end = $CountDiskDatas - 1 DiskNamesSum -i $initiation -f $end -p $go $SnapshotNameDisk = $disknamesAllList.name $DataDiskAllId = ($diskall | Where-Object OsType -EQ $null).id if ($ResourceGroupName -eq '') { $ResourceGroupName = $vms.ResourceGroupName } if ($CountDiskDatas -ne 1) { if ($tag -eq $null) { function SetSnapNameAndDiskId ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId[$start] -Location $Location -CreateOption copy New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk[$start] -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskId -i $initiation -f $end -p $go New-AzSnapshotDiskOs -VmName $VmName -ResourceGroupName $ResourceGroupName } if ($Tag -ne $null) { function SetSnapNameAndDiskIdtag ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId[$start] -Location $Location -CreateOption copy -Tag $Tag New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk[$start] -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskIdtag -i $initiation -f $end -p $go New-AzSnapshotDiskOs -VmName $VmName -Tag $Tag -ResourceGroupName $ResourceGroupName } } if ($CountDiskDatas -eq 1) { if ($tag -eq $null) { function SetSnapNameAndDiskId ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId -Location $Location -CreateOption copy New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskId -i $initiation -f $end -p $go New-AzSnapshotDiskOs -VmName $VmName -ResourceGroupName $ResourceGroupName } if ($Tag -ne $null) { function SetSnapNameAndDiskIdtag ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId -Location $Location -CreateOption copy -Tag $Tag New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskIdtag -i $initiation -f $end -p $go New-AzSnapshotDiskOs -VmName $VmName -Tag $Tag -ResourceGroupName $ResourceGroupName } } } if ($SnapshotName -ne '') { $CountDiskDatas = ($diskall | Where-Object OsType -EQ $null).count class NamesDisk { [string]$name } $NamesDiskAllList = New-Object Collections.Generic.List[namesDisk] function DiskNamesSum ($i, $f, $p) { $start = $i while ($start -le $f) { $NameSnapshot = $SnapshotName + '-Data' + '-' + $start $NamesDisk = [NamesDisk]::new() $NamesDisk.name = $NameSnapshot $NamesDiskAllList.add($NamesDisk) $start += $p } return $NamesDiskAllList } $initiation = 0 $go = 1 $end = $CountDiskDatas - 1 DiskNamesSum -i $initiation -f $end -p $go $SnapshotNameDisk = $NamesDiskAllList.name $DataDiskAllId = ($diskall | Where-Object OsType -EQ $null).id if ($ResourceGroupName -eq '') { $ResourceGroupName = $vms.ResourceGroupName } If ($CountDiskDatas -ne 1) { if ($tag -eq $null) { function SetSnapNameAndDiskId ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId[$start] -Location $Location -CreateOption copy New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk[$start] -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskId -i $initiation -f $end -p $go New-AzSnapshotDiskOs -VmName $VmName -ResourceGroupName $ResourceGroupName } if ($tag -ne $null) { function SetSnapNameAndDiskId ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId[$start] -Location $Location -CreateOption copy -Tag $Tag New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk[$start] -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskId -i $initiation -f $end -p $go New-AzSnapshotDiskOs -VmName $VmName -Tag $Tag -ResourceGroupName $ResourceGroupName } } If ($CountDiskDatas -eq 1) { if ($tag -eq $null) { function SetSnapNameAndDiskId ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId -Location $Location -CreateOption copy New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskId -i $initiation -f $end -p $go New-AzSnapshotDiskOs -VmName $VmName -ResourceGroupName $ResourceGroupName } if ($tag -ne $null) { function SetSnapNameAndDiskId ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId -Location $Location -CreateOption copy -Tag $Tag New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskId -i $initiation -f $end -p $go New-AzSnapshotDiskOs -VmName $VmName -Tag $Tag -ResourceGroupName $ResourceGroupName } } } } if ($PSCmdlet.ParameterSetName -eq 'ComputerName') { $CheckVmId_OsProfile = (Search-AzGraph -Query "Resources | where type == 'microsoft.compute/virtualmachines' | where properties.osProfile.computerName == '$ComputerName'").id $CheckVmId_InstanceView = (Search-AzGraph -Query "Resources | where type == 'microsoft.compute/virtualmachines' | where properties.extended.instanceView.computerName == '$ComputerName'").id If ($CheckVmId_OsProfile -eq $null) { if ($CheckVmId_InstanceView -eq $null) { Write-Error 'The computername does not exist, check that the name is correct. Case sensitive. If the problem persists utlize VMname with flag -VmName.'; exit 1; } else { $Vms = (Search-AzGraph -Query "Resources | where type == 'microsoft.compute/virtualmachines' | where properties.extended.instanceView.computerName == '$ComputerName'") } } else { $Vms = (Search-AzGraph -Query "Resources | where type == 'microsoft.compute/virtualmachines' | where properties.osProfile.computerName == '$ComputerName'") } $IdVms = $Vms.id $DiskAll = Get-AzDisk | Where-Object ManagedBy -EQ $IdVms | Select-Object Name, id, OsType $Location = $Vms.Location if ($SnapshotName -eq '') { $VmName = $Vms.Name $CountDiskDatas = ($diskall | Where-Object OsType -EQ $null).count class Computernamesdisk { [string]$name } $Computernamesdisklist = New-Object Collections.Generic.List[Computernamesdisk] function DiskNamesSum ($i, $f, $p) { $start = $i while ($start -le $f) { $NameSnapshot = $VmName + '-Data' + '-' + $start $Computernamesdisk = [Computernamesdisk]::new() $Computernamesdisk.name = $NameSnapshot $Computernamesdisklist.add($Computernamesdisk) $start += $p } return $Computernamesdisklist } $initiation = 0 $go = 1 $end = $CountDiskDatas - 1 DiskNamesSum -i $initiation -f $end -p $go $SnapshotNameDisk = $Computernamesdisklist.name $DataDiskAllId = ($diskall | Where-Object OsType -EQ $null).id if ($ResourceGroupName -eq '') { $ResourceGroupName = $vms.ResourceGroup } if ( $CountDiskDatas -ne 1) { if ($tag -eq $null) { function SetSnapNameAndDiskId ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId[$start] -Location $Location -CreateOption copy New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk[$start] -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskId -i $initiation -f $end -p $go New-AzSnapshotDiskOs -ComputerName $ComputerName -ResourceGroupName $ResourceGroupName } if ($Tag -ne $null) { function SetSnapNameAndDiskIdtag ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId[$start] -Location $Location -CreateOption copy -Tag $Tag New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk[$start] -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskIdtag -i $initiation -f $end -p $go New-AzSnapshotDiskOs -ComputerName $ComputerName -Tag $Tag -ResourceGroupName $ResourceGroupName } } if ( $CountDiskDatas -eq 1) { if ($tag -eq $null) { function SetSnapNameAndDiskId ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId -Location $Location -CreateOption copy New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskId -i $initiation -f $end -p $go New-AzSnapshotDiskOs -ComputerName $ComputerName -ResourceGroupName $ResourceGroupName } if ($Tag -ne $null) { function SetSnapNameAndDiskIdtag ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId -Location $Location -CreateOption copy -Tag $Tag New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskIdtag -i $initiation -f $end -p $go New-AzSnapshotDiskOs -ComputerName $ComputerName -Tag $Tag -ResourceGroupName $ResourceGroupName } } } if ($SnapshotName -ne '') { $VmName = $Vms.Name $CountDiskDatas = ($diskall | Where-Object OsType -EQ $null).count class ComputerNameDiskNames { [string]$name } $ComputerNameDiskNamesAllList = New-Object Collections.Generic.List[ComputerNameDiskNames] function DiskNamesSum ($i, $f, $p) { $start = $i while ($start -le $f) { $NameSnapshot = $SnapshotName + '-Data' + '-' + $start $ComputerNameDiskNames = [ComputerNameDiskNames]::new() $ComputerNameDiskNames.name = $NameSnapshot $ComputerNameDiskNamesAllList.add($ComputerNameDiskNames) $start += $p } return $ComputerNameDiskNamesAllList } $initiation = 0 $go = 1 $end = $CountDiskDatas - 1 DiskNamesSum -i $initiation -f $end -p $go $SnapshotNameDisk = $ComputerNameDiskNamesAllList.name $DataDiskAllId = ($diskall | Where-Object OsType -EQ $null).id if ($ResourceGroupName -eq '') { $ResourceGroupName = $vms.ResourceGroup } if ($CountDiskDatas -ne 1) { if ($tag -eq $null) { function SetSnapNameAndDiskId ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId[$start] -Location $Location -CreateOption copy New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk[$start] -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskId -i $initiation -f $end -p $go New-AzSnapshotDiskOs -ComputerName $ComputerName -ResourceGroupName $ResourceGroupName } if ($tag -ne $null) { function SetSnapNameAndDiskId ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId[$start] -Location $Location -CreateOption copy -Tag $Tag New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk[$start] -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskId -i $initiation -f $end -p $go New-AzSnapshotDiskOs -ComputerName $ComputerName -Tag $Tag -ResourceGroupName $ResourceGroupName } } if ($CountDiskDatas -eq 1) { if ($tag -eq $null) { function SetSnapNameAndDiskId ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId -Location $Location -CreateOption copy New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskId -i $initiation -f $end -p $go New-AzSnapshotDiskOs -ComputerName $ComputerName -ResourceGroupName $ResourceGroupName } if ($tag -ne $null) { function SetSnapNameAndDiskId ($i, $f, $p) { $start = $i While ($start -le $f) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $DataDiskAllId -Location $Location -CreateOption copy -Tag $Tag New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotNameDisk -ResourceGroupName $ResourceGroupName | Out-Null $start += $p } } $numberloop = $DataDiskAllId.count $initiation = 0 $go = 1 $end = $numberloop - 1 SetSnapNameAndDiskId -i $initiation -f $end -p $go New-AzSnapshotDiskOs -ComputerName $ComputerName -Tag $Tag -ResourceGroupName $ResourceGroupName } } } } } } <# .SYNOPSIS ################################################################################################################# # Created by: Diogo De Santana Jacome # # # # Modified by: Diogo De Santana Jacome # # # # # # Version: 1.0 # # # # # ################################################################################################################# .DESCRIPTION New-SnapshotDisk is an advanced function that can be used to take snapshots of the virtual machine point manager disks in Azure. You need to have role Contibuitor in Subscription Azure Important: Not recommended for Azure shared disks .EXAMPLE C:\PS> New-AzSnapshotDisk -DiskName VM-SQL_OSDisk .EXAMPLE C:\PS> New-AzSnapshotDisk -DiskName VM-SQL_OSDisk -SnapshotName Snap -ResourceGroupName RG-Snapshots .EXAMPLE C:\PS> New-AzSnapshotDisk -DiskId xxxxxx-xxxx-xxxxx-xxxx -SnapshotName Snap -ResourceGroupName RG-Snapshots -Tag @{Issue="xxxxxx";env="prd"} .LINK https://github.com/Didjacome #> function New-AzSnapshotDisk { [CmdletBinding(DefaultParameterSetName = 'DiskName')] param ( [Parameter(Mandatory, ParameterSetName = 'DiskName')] [string]$diskName, [Parameter(Position = 0, Mandatory, ValueFromPipelineByPropertyName, ValueFromPipeline, ParameterSetName = 'diskId')] [string]$diskId, [string]$SnapshotName, [string]$ResourceGroupName, [Hashtable]$Tag ) process { Write-Verbose "ParameterSetName is '$($PSCmdlet.ParameterSetName)'" if ($PSCmdlet.ParameterSetName -eq 'DiskName') { $disk = Get-AzDisk -name $diskName $id = $disk.id $Location = $disk.location if ($ResourceGroupName -eq '') { $ResourceGroupName = $disk.ResourceGroupName } if ($SnapshotName -eq '') { $SnapshotName = $diskName + 'Snap-01' } if ($Tag -eq $null) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $id -Location $Location -CreateOption copy New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotName -ResourceGroupName $ResourceGroupName | Out-Null } if ($Tag -ne $null) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $id -Location $Location -CreateOption copy -Tag $Tag New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotName -ResourceGroupName $ResourceGroupName | Out-Null } } if ($PSCmdlet.ParameterSetName -eq 'diskId') { $disk = (Get-AzDisk | Where-Object Id -EQ $diskId) $id = $disk.id $name = $disk.name $Location = $disk.location if ($ResourceGroupName -eq '') { $ResourceGroupName = $disk.ResourceGroupName } if ($SnapshotName -eq '') { $SnapshotName = $Name + 'Snap-01' } if ($Tag -eq $null) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $id -Location $Location -CreateOption copy New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotName -ResourceGroupName $ResourceGroupName | Out-Null } if ($Tag -ne $null) { $SnapshotConfig = New-AzSnapshotConfig -SourceUri $id -Location $Location -CreateOption copy -Tag $Tag New-AzSnapshot -Snapshot $SnapshotConfig -SnapshotName $SnapshotName -ResourceGroupName $ResourceGroupName | Out-Null } } } } <# .SYNOPSIS ################################################################################################################# # Created by: Diogo De Santana Jacome # # # # Modified by: Diogo De Santana Jacome # # # # # # Version: 1.0 # # # # # ################################################################################################################# .DESCRIPTION Get-AzVnetInvertory is an advanced function that can be used to generate a report of the current state of your vnets You must have the Reader role in Azure Subscription Important: If you have more than one Azure Subscription, connect to the management group to use the "Get-AzVnetInvertory -All" flag. .EXAMPLE C:\PS> Get-AzVnetInvertory .EXAMPLE C:\PS> Get-AzVnetInvertory -vnetName vnet-hub-us .EXAMPLE C:\PS> $vnets= (import-csv vnets.csv).Name C:\PS> Foreach ($vnet in $vnets) {Get-AzVnetInvertory -vnetName $vnet } .LINK https://github.com/Didjacome #> function Get-AzVnetInvertory { [CmdletBinding(DefaultParameterSetName = 'All')] param ( # Parameter help description [Parameter(Mandatory = $false, ParameterSetName = 'vnet')] [System.String] $vnetName, [Parameter(Mandatory = $false, ParameterSetName = 'All')] [switch] $All ) process { if ($PSCmdlet.ParameterSetName -eq 'All'){ $vNets = Get-AzVirtualNetwork foreach ($vNet in $vNets) { $subnetList = @() foreach ($subnet in $vNet.Subnets) { $subnetList += "[ $($subnet.Name) | $($subnet.AddressPrefix -join ', ') ] " } $vnetPeeringList = @() foreach ($vnetPeering in $vNet.VirtualNetworkPeerings) { $remoteVNET = $vnetPeering.RemoteVirtualNetwork $remoteVNETName = ($remoteVNET | foreach-Object {Split-Path $_.Id -leaf}) -join ', ' $remoteVNETAddressSpace = $vnetPeering.RemoteVirtualNetworkAddressSpace.AddressPrefixes -join ', ' $vnetPeeringList += "[ $($vnetPeering.Name) | $($vnetPeering.PeeringState) | $remoteVNETName | $remoteVNETAddressSpace ] " } [PSCustomObject]@{ Name = $vNet.Name ResourceGroupName = $vNet.ResourceGroupName Location = $vNet.Location Id = $vNet.Id AddressSpace = $vNet.AddressSpace.AddressPrefixes -join ', ' Subnets = $subnetList -join ', ' VnetPeerings = $vnetPeeringList -join ', ' EnableDdosProtection = $vNet.EnableDdosProtection } } } if ($PSCmdlet.ParameterSetName -eq 'vnet'){ $vNets = Get-AzVirtualNetwork -Name $vnetName foreach ($vNet in $vNets) { $subnetList = @() foreach ($subnet in $vNet.Subnets) { $subnetList += "[ $($subnet.Name) | $($subnet.AddressPrefix -join ', ') ] " } $vnetPeeringList = @() foreach ($vnetPeering in $vNet.VirtualNetworkPeerings) { $remoteVNET = $vnetPeering.RemoteVirtualNetwork $remoteVNETName = ($remoteVNET | foreach-Object {Split-Path $_.Id -leaf}) -join ', ' $remoteVNETAddressSpace = $vnetPeering.RemoteVirtualNetworkAddressSpace.AddressPrefixes -join ', ' $vnetPeeringList += "[ $($vnetPeering.Name) | $($vnetPeering.PeeringState) | $remoteVNETName | $remoteVNETAddressSpace ] " } [PSCustomObject]@{ Name = $vNet.Name ResourceGroupName = $vNet.ResourceGroupName Location = $vNet.Location Id = $vNet.Id AddressSpace = $vNet.AddressSpace.AddressPrefixes -join ', ' Subnets = $subnetList -join ', ' VnetPeerings = $vnetPeeringList -join ', ' EnableDdosProtection = $vNet.EnableDdosProtection } } } } } <# .SYNOPSIS ################################################################################################################# # Created by: Diogo De Santana Jacome # # # # Modified by: Diogo De Santana Jacome # # # # # # Version: 1.0 # # # # # ################################################################################################################# .DESCRIPTION Get-OracleObject is an advanced function that can be used to generate a query report in oracle Important: This cmdlet is in previwer .EXAMPLE C:\PS> Get-OracleObject -ConnectionString "XXX" -Query "xxx" -Path_ManagedDataAccess "xxx" .LINK https://github.com/Didjacome #> function Get-OracleObject { [cmdletbinding( DefaultParameterSetName = '', ConfirmImpact = 'low' )] param ( [Parameter( Mandatory = $True, Position = 0, ParameterSetName = '', ValueFromPipeline = $True)] [string]$ConnectionString, [Parameter( Position = 1, Mandatory = $True, ParameterSetName = '')] [string]$Query, [Parameter( Position = 2, Mandatory = $True, ParameterSetName = '')] [string]$Path_ManagedDataAccess ) Begin{ Add-Type -Path $Path_ManagedDataAccess $connection = New-Object Oracle.ManagedDataAccess.Client.OracleConnection class OracleResult { [string]$BDName [string]$DBConnectStatus [string]$Serverversion [string]$QueryStatus [string]$QueryResult } } Process{ $sb = [Oracle.ManagedDataAccess.Client.OracleConnectionStringBuilder]::new() $sb["Statement Cache Size"] = 0 $sb["Data Source"] = $connectionString $connection = New-Object Oracle.ManagedDataAccess.Client.OracleConnection($sb.connectionString) $connection.Open() $validate_connection = $connection.State if ( $validate_connection -eq "Closed"){ $DB_Connect_Status = "time out" $DB_Host = "time out" $DB_Serverversion = "time out" $status = "time out" $DB_query_result = "time out" }elseif ($validate_connection -eq "Open") { $DB_Connect_Status = $connection.State $DB_Host = $connection.HostName $DB_Serverversion = $connection.ServerVersion $command = New-Object Oracle.ManagedDataAccess.Client.OracleCommand($query, $connection) $reader = $command.ExecuteReader() $status = $reader.Read() while ($reader.Read()) { $DB_query_result = $reader.GetString(0) } } $connection.PurgeStatementCache() if ($connection.State -eq 'Open') { $connection.close() ; $reader.Close()}else{$diogo="nao fechou ja esta fechada"} $OracleResult = [OracleResult]::new() $OracleResult.BDName += $DB_Host $OracleResult.DBConnectStatus += $DB_Connect_Status $OracleResult.Serverversion += $DB_Serverversion $OracleResult.QueryStatus += $status $OracleResult.QueryResult += $DB_query_result $OracleResultList.add($OracleResult) } end{ return $OracleResultList } } |