ansible-later/env_27/lib/python2.7/site-packages/ansible/modules/windows/setup.ps1
2019-04-11 13:00:36 +02:00

437 lines
16 KiB
PowerShell

#!powershell
# Copyright: (c) 2018, Ansible Project
# GNU General Public License v3.0+ (see COPYING or https://www.gnu.org/licenses/gpl-3.0.txt)
#Requires -Module Ansible.ModuleUtils.Legacy
Function Get-CustomFacts {
[cmdletBinding()]
param (
[Parameter(mandatory=$false)]
$factpath = $null
)
if (-not (Test-Path -Path $factpath)) {
Fail-Json $result "The path $factpath does not exist. Typo?"
}
$FactsFiles = Get-ChildItem -Path $factpath | Where-Object -FilterScript {($PSItem.PSIsContainer -eq $false) -and ($PSItem.Extension -eq '.ps1')}
foreach ($FactsFile in $FactsFiles) {
$out = & $($FactsFile.FullName)
$result.ansible_facts.Add("ansible_$(($FactsFile.Name).Split('.')[0])", $out)
}
}
Function Get-MachineSid {
# The Machine SID is stored in HKLM:\SECURITY\SAM\Domains\Account and is
# only accessible by the Local System account. This method get's the local
# admin account (ends with -500) and lops it off to get the machine sid.
$admins_sid = "S-1-5-32-544"
$admin_group = ([Security.Principal.SecurityIdentifier]$admins_sid).Translate([Security.Principal.NTAccount]).Value
Add-Type -AssemblyName System.DirectoryServices.AccountManagement
$principal_context = New-Object -TypeName System.DirectoryServices.AccountManagement.PrincipalContext([System.DirectoryServices.AccountManagement.ContextType]::Machine)
$group_principal = New-Object -TypeName System.DirectoryServices.AccountManagement.GroupPrincipal($principal_context, $admin_group)
$searcher = New-Object -TypeName System.DirectoryServices.AccountManagement.PrincipalSearcher($group_principal)
$groups = $searcher.FindOne()
$machine_sid = $null
foreach ($user in $groups.Members) {
$user_sid = $user.Sid
if ($user_sid.Value.EndsWith("-500")) {
$machine_sid = $user_sid.AccountDomainSid.Value
break
}
}
return $machine_sid
}
$cim_instances = @{}
Function Get-LazyCimInstance([string]$instance_name, [string]$namespace="Root\CIMV2") {
if(-not $cim_instances.ContainsKey($instance_name)) {
$cim_instances[$instance_name] = $(Get-CimInstance -Namespace $namespace -ClassName $instance_name)
}
return $cim_instances[$instance_name]
}
$result = @{
ansible_facts = @{ }
changed = $false
}
$grouped_subsets = @{
min=[System.Collections.Generic.List[string]]@('date_time','distribution','dns','env','local','platform','powershell_version','user')
network=[System.Collections.Generic.List[string]]@('all_ipv4_addresses','all_ipv6_addresses','interfaces','windows_domain', 'winrm')
hardware=[System.Collections.Generic.List[string]]@('bios','memory','processor','uptime')
external=[System.Collections.Generic.List[string]]@('facter')
}
# build "all" set from everything mentioned in the group- this means every value must be in at least one subset to be considered legal
$all_set = [System.Collections.Generic.HashSet[string]]@()
foreach($kv in $grouped_subsets.GetEnumerator()) {
[void] $all_set.UnionWith($kv.Value)
}
# dynamically create an "all" subset now that we know what should be in it
$grouped_subsets['all'] = [System.Collections.Generic.List[string]]$all_set
# start with all, build up gather and exclude subsets
$gather_subset = [System.Collections.Generic.HashSet[string]]$grouped_subsets.all
$explicit_subset = [System.Collections.Generic.HashSet[string]]@()
$exclude_subset = [System.Collections.Generic.HashSet[string]]@()
$params = Parse-Args $args -supports_check_mode $true
$factpath = Get-AnsibleParam -obj $params -name "fact_path" -type "path"
$gather_subset_source = Get-AnsibleParam -obj $params -name "gather_subset" -type "list" -default "all"
foreach($item in $gather_subset_source) {
if(([string]$item).StartsWith("!")) {
$item = ([string]$item).Substring(1)
if($item -eq "all") {
$all_minus_min = [System.Collections.Generic.HashSet[string]]@($all_set)
[void] $all_minus_min.ExceptWith($grouped_subsets.min)
[void] $exclude_subset.UnionWith($all_minus_min)
}
elseif($grouped_subsets.ContainsKey($item)) {
[void] $exclude_subset.UnionWith($grouped_subsets[$item])
}
elseif($all_set.Contains($item)) {
[void] $exclude_subset.Add($item)
}
# NB: invalid exclude values are ignored, since that's what posix setup does
}
else {
if($grouped_subsets.ContainsKey($item)) {
[void] $explicit_subset.UnionWith($grouped_subsets[$item])
}
elseif($all_set.Contains($item)) {
[void] $explicit_subset.Add($item)
}
else {
# NB: POSIX setup fails on invalid value; we warn, because we don't implement the same set as POSIX
# and we don't have platform-specific config for this...
Add-Warning $result "invalid value $item specified in gather_subset"
}
}
}
[void] $gather_subset.ExceptWith($exclude_subset)
[void] $gather_subset.UnionWith($explicit_subset)
$ansible_facts = @{
gather_subset=@($gather_subset_source)
module_setup=$true
}
$osversion = [Environment]::OSVersion
if($gather_subset.Contains('all_ipv4_addresses') -or $gather_subset.Contains('all_ipv6_addresses')) {
$netcfg = Get-LazyCimInstance Win32_NetworkAdapterConfiguration
# TODO: split v4/v6 properly, return in separate keys
$ips = @()
Foreach ($ip in $netcfg.IPAddress) {
If ($ip) {
$ips += $ip
}
}
$ansible_facts += @{
ansible_ip_addresses = $ips
}
}
if($gather_subset.Contains('bios')) {
$win32_bios = Get-LazyCimInstance Win32_Bios
$win32_cs = Get-LazyCimInstance Win32_ComputerSystem
$ansible_facts += @{
ansible_bios_date = $win32_bios.ReleaseDate.ToString("MM/dd/yyyy")
ansible_bios_version = $win32_bios.SMBIOSBIOSVersion
ansible_product_name = $win32_cs.Model.Trim()
ansible_product_serial = $win32_bios.SerialNumber
# ansible_product_version = ([string] $win32_cs.SystemFamily)
}
}
if($gather_subset.Contains('date_time')) {
$datetime = (Get-Date)
$datetime_utc = $datetime.ToUniversalTime()
$date = @{
date = $datetime.ToString("yyyy-MM-dd")
day = $datetime.ToString("dd")
epoch = (Get-Date -UFormat "%s")
hour = $datetime.ToString("HH")
iso8601 = $datetime_utc.ToString("yyyy-MM-ddTHH:mm:ssZ")
iso8601_basic = $datetime.ToString("yyyyMMddTHHmmssffffff")
iso8601_basic_short = $datetime.ToString("yyyyMMddTHHmmss")
iso8601_micro = $datetime_utc.ToString("yyyy-MM-ddTHH:mm:ss.ffffffZ")
minute = $datetime.ToString("mm")
month = $datetime.ToString("MM")
second = $datetime.ToString("ss")
time = $datetime.ToString("HH:mm:ss")
tz = ([System.TimeZoneInfo]::Local.Id)
tz_offset = $datetime.ToString("zzzz")
# Ensure that the weekday is in English
weekday = $datetime.ToString("dddd", [System.Globalization.CultureInfo]::InvariantCulture)
weekday_number = (Get-Date -UFormat "%w")
weeknumber = (Get-Date -UFormat "%W")
year = $datetime.ToString("yyyy")
}
$ansible_facts += @{
ansible_date_time = $date
}
}
if($gather_subset.Contains('distribution')) {
$win32_os = Get-LazyCimInstance Win32_OperatingSystem
$product_type = switch($win32_os.ProductType) {
1 { "workstation" }
2 { "domain_controller" }
3 { "server" }
default { "unknown" }
}
$ansible_facts += @{
ansible_distribution = $win32_os.Caption
ansible_distribution_version = $osversion.Version.ToString()
ansible_distribution_major_version = $osversion.Version.Major.ToString()
ansible_os_family = "Windows"
ansible_os_name = ($win32_os.Name.Split('|')[0]).Trim()
ansible_os_product_type = $product_type
}
}
if($gather_subset.Contains('env')) {
$env_vars = @{ }
foreach ($item in Get-ChildItem Env:) {
$name = $item | select -ExpandProperty Name
# Powershell ConvertTo-Json fails if string ends with \
$value = ($item | select -ExpandProperty Value).TrimEnd("\")
$env_vars.Add($name, $value)
}
$ansible_facts += @{
ansible_env = $env_vars
}
}
if($gather_subset.Contains('facter')) {
# See if Facter is on the System Path
Try {
$facter_exe = Get-Command facter -ErrorAction Stop
$facter_installed = $true
} Catch {
$facter_installed = $false
}
# Get JSON from Facter, and parse it out.
if ($facter_installed) {
&facter -j | Tee-Object -Variable facter_output | Out-Null
$facts = "$facter_output" | ConvertFrom-Json
ForEach($fact in $facts.PSObject.Properties) {
$fact_name = $fact.Name
$ansible_facts.Add("facter_$fact_name", $fact.Value)
}
}
}
if($gather_subset.Contains('interfaces')) {
$netcfg = Get-LazyCimInstance Win32_NetworkAdapterConfiguration
$ActiveNetcfg = @()
$ActiveNetcfg += $netcfg | where {$_.ipaddress -ne $null}
$namespaces = Get-LazyCimInstance __Namespace -namespace root
if ($namespaces | Where-Object { $_.Name -eq "StandardCimv" }) {
$net_adapters = Get-LazyCimInstance MSFT_NetAdapter -namespace Root\StandardCimv2
$guid_key = "InterfaceGUID"
$name_key = "Name"
} else {
$net_adapters = Get-LazyCimInstance Win32_NetworkAdapter
$guid_key = "GUID"
$name_key = "NetConnectionID"
}
$formattednetcfg = @()
foreach ($adapter in $ActiveNetcfg)
{
$thisadapter = @{
default_gateway = $null
connection_name = $null
dns_domain = $adapter.dnsdomain
interface_index = $adapter.InterfaceIndex
interface_name = $adapter.description
macaddress = $adapter.macaddress
}
if ($adapter.defaultIPGateway)
{
$thisadapter.default_gateway = $adapter.DefaultIPGateway[0].ToString()
}
$net_adapter = $net_adapters | Where-Object { $_.$guid_key -eq $adapter.SettingID }
if ($net_adapter) {
$thisadapter.connection_name = $net_adapter.$name_key
}
$formattednetcfg += $thisadapter
}
$ansible_facts += @{
ansible_interfaces = $formattednetcfg
}
}
if ($gather_subset.Contains("local") -and $factpath -ne $null) {
# Get any custom facts; results are updated in the
Get-CustomFacts -factpath $factpath
}
if($gather_subset.Contains('memory')) {
$win32_cs = Get-LazyCimInstance Win32_ComputerSystem
$win32_os = Get-LazyCimInstance Win32_OperatingSystem
$ansible_facts += @{
# Win32_PhysicalMemory is empty on some virtual platforms
ansible_memtotal_mb = ([math]::ceiling($win32_cs.TotalPhysicalMemory / 1024 / 1024))
ansible_swaptotal_mb = ([math]::round($win32_os.TotalSwapSpaceSize / 1024))
}
}
if($gather_subset.Contains('platform')) {
$win32_cs = Get-LazyCimInstance Win32_ComputerSystem
$win32_os = Get-LazyCimInstance Win32_OperatingSystem
$ip_props = [System.Net.NetworkInformation.IPGlobalProperties]::GetIPGlobalProperties()
$ansible_facts += @{
ansible_architecture = $win32_os.OSArchitecture
ansible_domain = $ip_props.DomainName
ansible_fqdn = ($ip_props.Hostname + "." + $ip_props.DomainName)
ansible_hostname = $env:COMPUTERNAME
ansible_kernel = $osversion.Version.ToString()
ansible_nodename = ($ip_props.HostName + "." + $ip_props.DomainName)
ansible_machine_id = Get-MachineSid
ansible_owner_contact = ([string] $win32_cs.PrimaryOwnerContact)
ansible_owner_name = ([string] $win32_cs.PrimaryOwnerName)
# FUTURE: should this live in its own subset?
ansible_reboot_pending = (Get-PendingRebootStatus)
ansible_system = $osversion.Platform.ToString()
ansible_system_description = ([string] $win32_os.Description)
ansible_system_vendor = $win32_cs.Manufacturer
}
}
if($gather_subset.Contains('powershell_version')) {
$ansible_facts += @{
ansible_powershell_version = ($PSVersionTable.PSVersion.Major)
}
}
if($gather_subset.Contains('processor')) {
$win32_cs = Get-LazyCimInstance Win32_ComputerSystem
$win32_cpu = Get-LazyCimInstance Win32_Processor
if ($win32_cpu -is [array]) {
# multi-socket, pick first
$win32_cpu = $win32_cpu[0]
}
$cpu_list = @( )
for ($i=1; $i -le ($win32_cpu.NumberOfLogicalProcessors / $win32_cs.NumberOfProcessors); $i++) {
$cpu_list += $win32_cpu.Manufacturer
$cpu_list += $win32_cpu.Name
}
$ansible_facts += @{
ansible_processor = $cpu_list
ansible_processor_cores = $win32_cpu.NumberOfCores
ansible_processor_count = $win32_cs.NumberOfProcessors
ansible_processor_threads_per_core = ($win32_cpu.NumberOfLogicalProcessors / $win32_cs.NumberOfProcessors / $win32_cpu.NumberOfCores)
ansible_processor_vcpus = ($win32_cpu.NumberOfLogicalProcessors / $win32_cs.NumberOfProcessors)
}
}
if($gather_subset.Contains('uptime')) {
$win32_os = Get-LazyCimInstance Win32_OperatingSystem
$ansible_facts += @{
ansible_lastboot = $win32_os.lastbootuptime.ToString("u")
ansible_uptime_seconds = $([System.Convert]::ToInt64($(Get-Date).Subtract($win32_os.lastbootuptime).TotalSeconds))
}
}
if($gather_subset.Contains('user')) {
$user = [Security.Principal.WindowsIdentity]::GetCurrent()
$ansible_facts += @{
ansible_user_dir = $env:userprofile
# Win32_UserAccount.FullName is probably the right thing here, but it can be expensive to get on large domains
ansible_user_gecos = ""
ansible_user_id = $env:username
ansible_user_sid = $user.User.Value
}
}
if($gather_subset.Contains('windows_domain')) {
$win32_cs = Get-LazyCimInstance Win32_ComputerSystem
$domain_roles = @{
0 = "Stand-alone workstation"
1 = "Member workstation"
2 = "Stand-alone server"
3 = "Member server"
4 = "Backup domain controller"
5 = "Primary domain controller"
}
$domain_role = $domain_roles.Get_Item([Int32]$win32_cs.DomainRole)
$ansible_facts += @{
ansible_windows_domain = $win32_cs.Domain
ansible_windows_domain_member = $win32_cs.PartOfDomain
ansible_windows_domain_role = $domain_role
}
}
if($gather_subset.Contains('winrm')) {
$winrm_https_listener_parent_paths = Get-ChildItem -Path WSMan:\localhost\Listener -Recurse | Where-Object {$_.PSChildName -eq "Transport" -and $_.Value -eq "HTTPS"} | select PSParentPath
if ($winrm_https_listener_parent_paths -isnot [array]) {
$winrm_https_listener_parent_paths = @($winrm_https_listener_parent_paths)
}
$winrm_https_listener_paths = @()
foreach ($winrm_https_listener_parent_path in $winrm_https_listener_parent_paths) {
$winrm_https_listener_paths += $winrm_https_listener_parent_path.PSParentPath.Substring($winrm_https_listener_parent_path.PSParentPath.LastIndexOf("\"))
}
$https_listeners = @()
foreach ($winrm_https_listener_path in $winrm_https_listener_paths) {
$https_listeners += Get-ChildItem -Path "WSMan:\localhost\Listener$winrm_https_listener_path"
}
$winrm_cert_thumbprints = @()
foreach ($https_listener in $https_listeners) {
$winrm_cert_thumbprints += $https_listener | where {$_.Name -EQ "CertificateThumbprint" } | select Value
}
$winrm_cert_expiry = @()
foreach ($winrm_cert_thumbprint in $winrm_cert_thumbprints) {
Try {
$winrm_cert_expiry += Get-ChildItem -Path Cert:\LocalMachine\My | where Thumbprint -EQ $winrm_cert_thumbprint.Value.ToString().ToUpper() | select NotAfter
} Catch {}
}
$winrm_cert_expirations = $winrm_cert_expiry | Sort-Object NotAfter
if ($winrm_cert_expirations) {
# this fact was renamed from ansible_winrm_certificate_expires due to collision with ansible_winrm_X connection var pattern
$ansible_facts.Add("ansible_win_rm_certificate_expires", $winrm_cert_expirations[0].NotAfter.ToString("yyyy-MM-dd HH:mm:ss"))
}
}
$result.ansible_facts += $ansible_facts
Exit-Json $result