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using Microsoft.Win32.SafeHandles;
using System;
using System.Collections;
using System.Collections.Generic;
using System.ComponentModel;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Management.Automation;
using System.Management.Automation.Runspaces;
using System.Reflection;
using System.Runtime.InteropServices;
using System.Security.AccessControl;
using System.Security.Principal;
#if CORECLR
using Newtonsoft.Json;
#else
using System.Web.Script.Serialization;
#endif
// Newtonsoft.Json may reference a different System.Runtime version (6.x) than loaded by PowerShell 7.3 (7.x).
// Ignore CS1701 so the code can be compiled when warnings are reported as errors.
//NoWarn -Name CS1701 -CLR Core
// System.Diagnostics.EventLog.dll reference different versioned dlls that are
// loaded in PSCore, ignore CS1702 so the code will ignore this warning
//NoWarn -Name CS1702 -CLR Core
//AssemblyReference -Type Newtonsoft.Json.JsonConvert -CLR Core
//AssemblyReference -Type System.Diagnostics.EventLog -CLR Core
//AssemblyReference -Type System.Security.AccessControl.NativeObjectSecurity -CLR Core
//AssemblyReference -Type System.Security.AccessControl.DirectorySecurity -CLR Core
//AssemblyReference -Type System.Security.Principal.IdentityReference -CLR Core
//AssemblyReference -Name System.Web.Extensions.dll -CLR Framework
namespace Ansible.Basic
{
public class AnsibleModule
{
public delegate void ExitHandler(int rc);
public static ExitHandler Exit = new ExitHandler(ExitModule);
public delegate void WriteLineHandler(string line);
public static WriteLineHandler WriteLine = new WriteLineHandler(WriteLineModule);
public static bool _DebugArgSpec = false;
private static List<string> BOOLEANS_TRUE = new List<string>() { "y", "yes", "on", "1", "true", "t", "1.0" };
private static List<string> BOOLEANS_FALSE = new List<string>() { "n", "no", "off", "0", "false", "f", "0.0" };
private string remoteTmp = Path.GetTempPath();
private string tmpdir = null;
private HashSet<string> noLogValues = new HashSet<string>();
private List<string> optionsContext = new List<string>();
private List<string> warnings = new List<string>();
private List<Dictionary<string, string>> deprecations = new List<Dictionary<string, string>>();
private List<string> cleanupFiles = new List<string>();
private Dictionary<string, string> passVars = new Dictionary<string, string>()
{
// null values means no mapping, not used in Ansible.Basic.AnsibleModule
{ "check_mode", "CheckMode" },
{ "debug", "DebugMode" },
{ "diff", "DiffMode" },
{ "keep_remote_files", "KeepRemoteFiles" },
{ "module_name", "ModuleName" },
{ "no_log", "NoLog" },
{ "remote_tmp", "remoteTmp" },
{ "selinux_special_fs", null },
{ "shell_executable", null },
{ "socket", null },
{ "string_conversion_action", null },
{ "syslog_facility", null },
{ "tmpdir", "tmpdir" },
{ "verbosity", "Verbosity" },
{ "version", "AnsibleVersion" },
};
private List<string> passBools = new List<string>() { "check_mode", "debug", "diff", "keep_remote_files", "no_log" };
private List<string> passInts = new List<string>() { "verbosity" };
private Dictionary<string, List<object>> specDefaults = new Dictionary<string, List<object>>()
{
// key - (default, type) - null is freeform
{ "apply_defaults", new List<object>() { false, typeof(bool) } },
{ "aliases", new List<object>() { typeof(List<string>), typeof(List<string>) } },
{ "choices", new List<object>() { typeof(List<object>), typeof(List<object>) } },
{ "default", new List<object>() { null, null } },
{ "deprecated_aliases", new List<object>() { typeof(List<Hashtable>), typeof(List<Hashtable>) } },
{ "elements", new List<object>() { null, null } },
{ "mutually_exclusive", new List<object>() { typeof(List<List<string>>), typeof(List<object>) } },
{ "no_log", new List<object>() { false, typeof(bool) } },
{ "options", new List<object>() { typeof(Hashtable), typeof(Hashtable) } },
{ "removed_in_version", new List<object>() { null, typeof(string) } },
{ "removed_at_date", new List<object>() { null, typeof(DateTime) } },
{ "removed_from_collection", new List<object>() { null, typeof(string) } },
{ "required", new List<object>() { false, typeof(bool) } },
{ "required_by", new List<object>() { typeof(Hashtable), typeof(Hashtable) } },
{ "required_if", new List<object>() { typeof(List<List<object>>), typeof(List<object>) } },
{ "required_one_of", new List<object>() { typeof(List<List<string>>), typeof(List<object>) } },
{ "required_together", new List<object>() { typeof(List<List<string>>), typeof(List<object>) } },
{ "supports_check_mode", new List<object>() { false, typeof(bool) } },
{ "type", new List<object>() { "str", null } },
};
private Dictionary<string, Delegate> optionTypes = new Dictionary<string, Delegate>()
{
{ "bool", new Func<object, bool>(ParseBool) },
{ "dict", new Func<object, Dictionary<string, object>>(ParseDict) },
{ "float", new Func<object, float>(ParseFloat) },
{ "int", new Func<object, int>(ParseInt) },
{ "json", new Func<object, string>(ParseJson) },
{ "list", new Func<object, List<object>>(ParseList) },
{ "path", new Func<object, string>(ParsePath) },
{ "raw", new Func<object, object>(ParseRaw) },
{ "sid", new Func<object, SecurityIdentifier>(ParseSid) },
{ "str", new Func<object, string>(ParseStr) },
};
public Dictionary<string, object> Diff = new Dictionary<string, object>();
public IDictionary Params = null;
public Dictionary<string, object> Result = new Dictionary<string, object>() { { "changed", false } };
public bool CheckMode { get; private set; }
public bool DebugMode { get; private set; }
public bool DiffMode { get; private set; }
public bool KeepRemoteFiles { get; private set; }
public string ModuleName { get; private set; }
public bool NoLog { get; private set; }
public int Verbosity { get; private set; }
public string AnsibleVersion { get; private set; }
public string Tmpdir
{
get
{
if (tmpdir == null)
{
#if WINDOWS
SecurityIdentifier user = WindowsIdentity.GetCurrent().User;
DirectorySecurity dirSecurity = new DirectorySecurity();
dirSecurity.SetOwner(user);
dirSecurity.SetAccessRuleProtection(true, false); // disable inheritance rules
FileSystemAccessRule ace = new FileSystemAccessRule(user, FileSystemRights.FullControl,
InheritanceFlags.ContainerInherit | InheritanceFlags.ObjectInherit,
PropagationFlags.None, AccessControlType.Allow);
dirSecurity.AddAccessRule(ace);
string baseDir = Path.GetFullPath(Environment.ExpandEnvironmentVariables(remoteTmp));
if (!Directory.Exists(baseDir))
{
string failedMsg = null;
try
{
#if CORECLR
DirectoryInfo createdDir = Directory.CreateDirectory(baseDir);
FileSystemAclExtensions.SetAccessControl(createdDir, dirSecurity);
#else
Directory.CreateDirectory(baseDir, dirSecurity);
#endif
}
catch (Exception e)
{
failedMsg = String.Format("Failed to create base tmpdir '{0}': {1}", baseDir, e.Message);
}
if (failedMsg != null)
{
string envTmp = Path.GetTempPath();
Warn(String.Format("Unable to use '{0}' as temporary directory, falling back to system tmp '{1}': {2}", baseDir, envTmp, failedMsg));
baseDir = envTmp;
}
else
{
NTAccount currentUser = (NTAccount)user.Translate(typeof(NTAccount));
string warnMsg = String.Format("Module remote_tmp {0} did not exist and was created with FullControl to {1}, ", baseDir, currentUser.ToString());
warnMsg += "this may cause issues when running as another user. To avoid this, create the remote_tmp dir with the correct permissions manually";
Warn(warnMsg);
}
}
string dateTime = DateTime.Now.ToFileTime().ToString();
string dirName = String.Format("ansible-moduletmp-{0}-{1}-{2}", dateTime, System.Diagnostics.Process.GetCurrentProcess().Id,
new Random().Next(0, int.MaxValue));
string newTmpdir = Path.Combine(baseDir, dirName);
#if CORECLR
DirectoryInfo tmpdirInfo = Directory.CreateDirectory(newTmpdir);
FileSystemAclExtensions.SetAccessControl(tmpdirInfo, dirSecurity);
#else
Directory.CreateDirectory(newTmpdir, dirSecurity);
#endif
tmpdir = newTmpdir;
if (!KeepRemoteFiles)
cleanupFiles.Add(tmpdir);
#else
throw new NotImplementedException("Tmpdir is only supported on Windows");
#endif
}
return tmpdir;
}
}
public AnsibleModule(string[] args, IDictionary argumentSpec, IDictionary[] fragments = null)
{
// NoLog is not set yet, we cannot rely on FailJson to sanitize the output
// Do the minimum amount to get this running before we actually parse the params
Dictionary<string, string> aliases = new Dictionary<string, string>();
try
{
ValidateArgumentSpec(argumentSpec);
// Merge the fragments if present into the main arg spec.
if (fragments != null)
{
foreach (IDictionary fragment in fragments)
{
ValidateArgumentSpec(fragment);
MergeFragmentSpec(argumentSpec, fragment);
}
}
// Used by ansible-test to retrieve the module argument spec, not designed for public use.
if (_DebugArgSpec)
{
// Cannot call exit here because it will be caught with the catch (Exception e) below. Instead
// just throw a new exception with a specific message and the exception block will handle it.
ScriptBlock.Create("Set-Variable -Name ansibleTestArgSpec -Value $args[0] -Scope Global"
).Invoke(argumentSpec);
throw new Exception("ansible-test validate-modules check");
}
// Now make sure all the metadata keys are set to their defaults, this must be done after we've
// potentially output the arg spec for ansible-test.
SetArgumentSpecDefaults(argumentSpec);
Params = GetParams(args);
aliases = GetAliases(argumentSpec, Params);
SetNoLogValues(argumentSpec, Params);
}
catch (Exception e)
{
if (e.Message == "ansible-test validate-modules check")
Exit(0);
Dictionary<string, object> result = new Dictionary<string, object>
{
{ "failed", true },
{ "msg", String.Format("internal error: {0}", e.Message) },
{ "exception", e.ToString() }
};
WriteLine(ToJson(result));
Exit(1);
}
// Initialise public properties to the defaults before we parse the actual inputs
CheckMode = false;
DebugMode = false;
DiffMode = false;
KeepRemoteFiles = false;
ModuleName = "undefined win module";
NoLog = (bool)argumentSpec["no_log"];
Verbosity = 0;
AppDomain.CurrentDomain.ProcessExit += CleanupFiles;
List<string> legalInputs = passVars.Keys.Select(v => "_ansible_" + v).ToList();
legalInputs.AddRange(((IDictionary)argumentSpec["options"]).Keys.Cast<string>().ToList());
legalInputs.AddRange(aliases.Keys.Cast<string>().ToList());
CheckArguments(argumentSpec, Params, legalInputs);
// Set a Ansible friendly invocation value in the result object
Dictionary<string, object> invocation = new Dictionary<string, object>() { { "module_args", Params } };
Result["invocation"] = RemoveNoLogValues(invocation, noLogValues);
if (!NoLog)
LogEvent(String.Format("Invoked with:\r\n {0}", FormatLogData(Params, 2)), sanitise: false);
}
public static AnsibleModule Create(string[] args, IDictionary argumentSpec, IDictionary[] fragments = null)
{
return new AnsibleModule(args, argumentSpec, fragments);
}
public void Debug(string message)
{
if (DebugMode)
LogEvent(String.Format("[DEBUG] {0}", message));
}
public void Deprecate(string message, string version)
{
Deprecate(message, version, null);
}
public void Deprecate(string message, string version, string collectionName)
{
deprecations.Add(new Dictionary<string, string>() {
{ "msg", message }, { "version", version }, { "collection_name", collectionName } });
LogEvent(String.Format("[DEPRECATION WARNING] {0} {1}", message, version));
}
public void Deprecate(string message, DateTime date)
{
Deprecate(message, date, null);
}
public void Deprecate(string message, DateTime date, string collectionName)
{
string isoDate = date.ToString("yyyy-MM-dd");
deprecations.Add(new Dictionary<string, string>() {
{ "msg", message }, { "date", isoDate }, { "collection_name", collectionName } });
LogEvent(String.Format("[DEPRECATION WARNING] {0} {1}", message, isoDate));
}
public void ExitJson()
{
CleanupFiles(null, null);
WriteLine(GetFormattedResults(Result));
Exit(0);
}
public void FailJson(string message) { FailJson(message, null, null); }
public void FailJson(string message, ErrorRecord psErrorRecord) { FailJson(message, psErrorRecord, null); }
public void FailJson(string message, Exception exception) { FailJson(message, null, exception); }
private void FailJson(string message, ErrorRecord psErrorRecord, Exception exception)
{
Result["failed"] = true;
Result["msg"] = RemoveNoLogValues(message, noLogValues);
if (!Result.ContainsKey("exception") && (Verbosity > 2 || DebugMode))
{
if (psErrorRecord != null)
{
string traceback = String.Format("{0}\r\n{1}", psErrorRecord.ToString(), psErrorRecord.InvocationInfo.PositionMessage);
traceback += String.Format("\r\n + CategoryInfo : {0}", psErrorRecord.CategoryInfo.ToString());
traceback += String.Format("\r\n + FullyQualifiedErrorId : {0}", psErrorRecord.FullyQualifiedErrorId.ToString());
traceback += String.Format("\r\n\r\nScriptStackTrace:\r\n{0}", psErrorRecord.ScriptStackTrace);
Result["exception"] = traceback;
}
else if (exception != null)
Result["exception"] = exception.ToString();
}
CleanupFiles(null, null);
WriteLine(GetFormattedResults(Result));
Exit(1);
}
public void LogEvent(string message, EventLogEntryType logEntryType = EventLogEntryType.Information, bool sanitise = true)
{
if (NoLog)
return;
#if WINDOWS
string logSource = "Ansible";
bool logSourceExists = false;
try
{
logSourceExists = EventLog.SourceExists(logSource);
}
catch (System.Security.SecurityException) { } // non admin users may not have permission
if (!logSourceExists)
{
try
{
EventLog.CreateEventSource(logSource, "Application");
}
catch (System.Security.SecurityException)
{
// Cannot call Warn as that calls LogEvent and we get stuck in a loop
warnings.Add(String.Format("Access error when creating EventLog source {0}, logging to the Application source instead", logSource));
logSource = "Application";
}
}
if (sanitise)
message = (string)RemoveNoLogValues(message, noLogValues);
message = String.Format("{0} - {1}", ModuleName, message);
using (EventLog eventLog = new EventLog("Application"))
{
eventLog.Source = logSource;
try
{
eventLog.WriteEntry(message, logEntryType, 0);
}
catch (System.InvalidOperationException) { } // Ignore permission errors on the Application event log
catch (System.Exception e)
{
// Cannot call Warn as that calls LogEvent and we get stuck in a loop
warnings.Add(String.Format("Unknown error when creating event log entry: {0}", e.Message));
}
}
#else
// Windows Event Log is only available on Windows
return;
#endif
}
public void Warn(string message)
{
warnings.Add(message);
LogEvent(String.Format("[WARNING] {0}", message), EventLogEntryType.Warning);
}
public static object FromJson(string json) { return FromJson<object>(json); }
public static T FromJson<T>(string json)
{
#if CORECLR
return JsonConvert.DeserializeObject<T>(json);
#else
JavaScriptSerializer jss = new JavaScriptSerializer();
jss.MaxJsonLength = int.MaxValue;
jss.RecursionLimit = int.MaxValue;
return jss.Deserialize<T>(json);
#endif
}
public static string ToJson(object obj)
{
// Using PowerShell to serialize the JSON is preferable over the native .NET libraries as it handles
// PS Objects a lot better than the alternatives. In case we are debugging in Visual Studio we have a
// fallback to the other libraries as we won't be dealing with PowerShell objects there.
if (Runspace.DefaultRunspace != null)
{
PSObject rawOut = ScriptBlock.Create("ConvertTo-Json -InputObject $args[0] -Depth 99 -Compress").Invoke(obj)[0];
return rawOut.BaseObject as string;
}
else
{
#if CORECLR
return JsonConvert.SerializeObject(obj);
#else
JavaScriptSerializer jss = new JavaScriptSerializer();
jss.MaxJsonLength = int.MaxValue;
jss.RecursionLimit = int.MaxValue;
return jss.Serialize(obj);
#endif
}
}
public static IDictionary GetParams(string[] args)
{
if (args.Length > 0)
{
string inputJson = File.ReadAllText(args[0]);
Dictionary<string, object> rawParams = FromJson<Dictionary<string, object>>(inputJson);
if (!rawParams.ContainsKey("ANSIBLE_MODULE_ARGS"))
throw new ArgumentException("Module was unable to get ANSIBLE_MODULE_ARGS value from the argument path json");
return (IDictionary)rawParams["ANSIBLE_MODULE_ARGS"];
}
else
{
// $complex_args is already a Hashtable, no need to waste time converting to a dictionary
PSObject rawArgs = ScriptBlock.Create("$complex_args").Invoke()[0];
return rawArgs.BaseObject as Hashtable;
}
}
public static bool ParseBool(object value)
{
if (value.GetType() == typeof(bool))
return (bool)value;
List<string> booleans = new List<string>();
booleans.AddRange(BOOLEANS_TRUE);
booleans.AddRange(BOOLEANS_FALSE);
string stringValue = ParseStr(value).ToLowerInvariant().Trim();
if (BOOLEANS_TRUE.Contains(stringValue))
return true;
else if (BOOLEANS_FALSE.Contains(stringValue))
return false;
string msg = String.Format("The value '{0}' is not a valid boolean. Valid booleans include: {1}",
stringValue, String.Join(", ", booleans));
throw new ArgumentException(msg);
}
public static Dictionary<string, object> ParseDict(object value)
{
Type valueType = value.GetType();
if (valueType == typeof(Dictionary<string, object>))
return (Dictionary<string, object>)value;
else if (value is IDictionary)
return ((IDictionary)value).Cast<DictionaryEntry>().ToDictionary(kvp => (string)kvp.Key, kvp => kvp.Value);
else if (valueType == typeof(string))
{
string stringValue = (string)value;
if (stringValue.StartsWith("{") && stringValue.EndsWith("}"))
return FromJson<Dictionary<string, object>>((string)value);
else if (stringValue.IndexOfAny(new char[1] { '=' }) != -1)
{
List<string> fields = new List<string>();
List<char> fieldBuffer = new List<char>();
char? inQuote = null;
bool inEscape = false;
string field;
foreach (char c in stringValue.ToCharArray())
{
if (inEscape)
{
fieldBuffer.Add(c);
inEscape = false;
}
else if (c == '\\')
inEscape = true;
else if (inQuote == null && (c == '\'' || c == '"'))
inQuote = c;
else if (inQuote != null && c == inQuote)
inQuote = null;
else if (inQuote == null && (c == ',' || c == ' '))
{
field = String.Join("", fieldBuffer);
if (field != "")
fields.Add(field);
fieldBuffer = new List<char>();
}
else
fieldBuffer.Add(c);
}
field = String.Join("", fieldBuffer);
if (field != "")
fields.Add(field);
return fields.Distinct().Select(i => i.Split(new[] { '=' }, 2)).ToDictionary(i => i[0], i => i.Length > 1 ? (object)i[1] : null);
}
else
throw new ArgumentException("string cannot be converted to a dict, must either be a JSON string or in the key=value form");
}
throw new ArgumentException(String.Format("{0} cannot be converted to a dict", valueType.FullName));
}
public static float ParseFloat(object value)
{
if (value.GetType() == typeof(float))
return (float)value;
string valueStr = ParseStr(value);
return float.Parse(valueStr);
}
public static int ParseInt(object value)
{
Type valueType = value.GetType();
if (valueType == typeof(int))
return (int)value;
else
return Int32.Parse(ParseStr(value));
}
public static string ParseJson(object value)
{
// mostly used to ensure a dict is a json string as it may
// have been converted on the controller side
Type valueType = value.GetType();
if (value is IDictionary)
return ToJson(value);
else if (valueType == typeof(string))
return (string)value;
else
throw new ArgumentException(String.Format("{0} cannot be converted to json", valueType.FullName));
}
public static List<object> ParseList(object value)
{
if (value == null)
return null;
Type valueType = value.GetType();
if (valueType.IsGenericType && valueType.GetGenericTypeDefinition() == typeof(List<>))
return (List<object>)value;
else if (valueType == typeof(ArrayList))
return ((ArrayList)value).Cast<object>().ToList();
else if (valueType.IsArray)
return ((object[])value).ToList();
else if (valueType == typeof(string))
return ((string)value).Split(',').Select(s => s.Trim()).ToList<object>();
else if (valueType == typeof(int))
return new List<object>() { value };
else
throw new ArgumentException(String.Format("{0} cannot be converted to a list", valueType.FullName));
}
public static string ParsePath(object value)
{
string stringValue = ParseStr(value);
// do not validate, expand the env vars if it starts with \\?\ as
// it is a special path designed for the NT kernel to interpret
if (stringValue.StartsWith(@"\\?\"))
return stringValue;
stringValue = Environment.ExpandEnvironmentVariables(stringValue);
if (stringValue.IndexOfAny(Path.GetInvalidPathChars()) != -1)
throw new ArgumentException("string value contains invalid path characters, cannot convert to path");
// will fire an exception if it contains any invalid chars
Path.GetFullPath(stringValue);
return stringValue;
}
public static object ParseRaw(object value) { return value; }
public static SecurityIdentifier ParseSid(object value)
{
string stringValue = ParseStr(value);
try
{
return new SecurityIdentifier(stringValue);
}
catch (ArgumentException) { } // ignore failures string may not have been a SID
NTAccount account = new NTAccount(stringValue);
return (SecurityIdentifier)account.Translate(typeof(SecurityIdentifier));
}
public static string ParseStr(object value) { return value.ToString(); }
private void ValidateArgumentSpec(IDictionary argumentSpec)
{
Dictionary<string, object> changedValues = new Dictionary<string, object>();
foreach (DictionaryEntry entry in argumentSpec)
{
string key = (string)entry.Key;
// validate the key is a valid argument spec key
if (!specDefaults.ContainsKey(key))
{
string msg = String.Format("argument spec entry contains an invalid key '{0}', valid keys: {1}",
key, String.Join(", ", specDefaults.Keys));
throw new ArgumentException(FormatOptionsContext(msg, " - "));
}
// ensure the value is casted to the type we expect
Type optionType = null;
if (entry.Value != null)
optionType = (Type)specDefaults[key][1];
if (optionType != null)
{
Type actualType = entry.Value.GetType();
bool invalid = false;
if (optionType.IsGenericType && optionType.GetGenericTypeDefinition() == typeof(List<>))
{
// verify the actual type is not just a single value of the list type
Type entryType = optionType.GetGenericArguments()[0];
object[] arrayElementTypes = new object[]
{
null, // ArrayList does not have an ElementType
entryType,
typeof(object), // Hope the object is actually entryType or it can at least be casted.
};
bool isArray = entry.Value is IList && arrayElementTypes.Contains(actualType.GetElementType());
if (actualType == entryType || isArray)
{
object rawArray;
if (isArray)
rawArray = entry.Value;
else
rawArray = new object[1] { entry.Value };
MethodInfo castMethod = typeof(Enumerable).GetMethod("Cast").MakeGenericMethod(entryType);
MethodInfo toListMethod = typeof(Enumerable).GetMethod("ToList").MakeGenericMethod(entryType);
var enumerable = castMethod.Invoke(null, new object[1] { rawArray });
var newList = toListMethod.Invoke(null, new object[1] { enumerable });
changedValues.Add(key, newList);
}
else if (actualType != optionType && !(actualType == typeof(List<object>)))
invalid = true;
}
else
invalid = actualType != optionType;
if (invalid)
{
string msg = String.Format("argument spec for '{0}' did not match expected type {1}: actual type {2}",
key, optionType.FullName, actualType.FullName);
throw new ArgumentException(FormatOptionsContext(msg, " - "));
}
}
// recursively validate the spec
if (key == "options" && entry.Value != null)
{
IDictionary optionsSpec = (IDictionary)entry.Value;
foreach (DictionaryEntry optionEntry in optionsSpec)
{
optionsContext.Add((string)optionEntry.Key);
IDictionary optionMeta = (IDictionary)optionEntry.Value;
ValidateArgumentSpec(optionMeta);
optionsContext.RemoveAt(optionsContext.Count - 1);
}
}
// validate the type and elements key type values are known types
if (key == "type" || key == "elements" && entry.Value != null)
{
Type valueType = entry.Value.GetType();
if (valueType == typeof(string))
{
string typeValue = (string)entry.Value;
if (!optionTypes.ContainsKey(typeValue))
{
string msg = String.Format("{0} '{1}' is unsupported", key, typeValue);
msg = String.Format("{0}. Valid types are: {1}", FormatOptionsContext(msg, " - "), String.Join(", ", optionTypes.Keys));
throw new ArgumentException(msg);
}
}
else if (!(entry.Value is Delegate))
{
string msg = String.Format("{0} must either be a string or delegate, was: {1}", key, valueType.FullName);
throw new ArgumentException(FormatOptionsContext(msg, " - "));
}
}
}
// Outside of the spec iterator, change the values that were casted above
foreach (KeyValuePair<string, object> changedValue in changedValues)
argumentSpec[changedValue.Key] = changedValue.Value;
}
private void MergeFragmentSpec(IDictionary argumentSpec, IDictionary fragment)
{
foreach (DictionaryEntry fragmentEntry in fragment)
{
string fragmentKey = fragmentEntry.Key.ToString();
if (argumentSpec.Contains(fragmentKey))
{
// We only want to add new list entries and merge dictionary new keys and values. Leave the other
// values as is in the argument spec as that takes priority over the fragment.
if (fragmentEntry.Value is IDictionary)
{
MergeFragmentSpec((IDictionary)argumentSpec[fragmentKey], (IDictionary)fragmentEntry.Value);
}
else if (fragmentEntry.Value is IList)
{
IList specValue = (IList)argumentSpec[fragmentKey];
foreach (object fragmentValue in (IList)fragmentEntry.Value)
specValue.Add(fragmentValue);
}
}
else
argumentSpec[fragmentKey] = fragmentEntry.Value;
}
}
private void SetArgumentSpecDefaults(IDictionary argumentSpec)
{
foreach (KeyValuePair<string, List<object>> metadataEntry in specDefaults)
{
List<object> defaults = metadataEntry.Value;
object defaultValue = defaults[0];
if (defaultValue != null && defaultValue.GetType() == typeof(Type).GetType())
defaultValue = Activator.CreateInstance((Type)defaultValue);
if (!argumentSpec.Contains(metadataEntry.Key))
argumentSpec[metadataEntry.Key] = defaultValue;
}
// Recursively set the defaults for any inner options.
foreach (DictionaryEntry entry in argumentSpec)
{
if (entry.Value == null || entry.Key.ToString() != "options")
continue;
IDictionary optionsSpec = (IDictionary)entry.Value;
foreach (DictionaryEntry optionEntry in optionsSpec)
{
optionsContext.Add((string)optionEntry.Key);
IDictionary optionMeta = (IDictionary)optionEntry.Value;
SetArgumentSpecDefaults(optionMeta);
optionsContext.RemoveAt(optionsContext.Count - 1);
}
}
}
private Dictionary<string, string> GetAliases(IDictionary argumentSpec, IDictionary parameters)
{
Dictionary<string, string> aliasResults = new Dictionary<string, string>();
foreach (DictionaryEntry entry in (IDictionary)argumentSpec["options"])
{
string k = (string)entry.Key;
Hashtable v = (Hashtable)entry.Value;
List<string> aliases = (List<string>)v["aliases"];
object defaultValue = v["default"];
bool required = (bool)v["required"];
if (defaultValue != null && required)
throw new ArgumentException(String.Format("required and default are mutually exclusive for {0}", k));
foreach (string alias in aliases)
{
aliasResults.Add(alias, k);
if (parameters.Contains(alias))
parameters[k] = parameters[alias];
}
List<Hashtable> deprecatedAliases = (List<Hashtable>)v["deprecated_aliases"];
foreach (Hashtable depInfo in deprecatedAliases)
{
foreach (string keyName in new List<string> { "name" })
{
if (!depInfo.ContainsKey(keyName))
{
string msg = String.Format("{0} is required in a deprecated_aliases entry", keyName);
throw new ArgumentException(FormatOptionsContext(msg, " - "));
}
}
if (!depInfo.ContainsKey("version") && !depInfo.ContainsKey("date"))
{
string msg = "One of version or date is required in a deprecated_aliases entry";
throw new ArgumentException(FormatOptionsContext(msg, " - "));
}
if (depInfo.ContainsKey("version") && depInfo.ContainsKey("date"))
{
string msg = "Only one of version or date is allowed in a deprecated_aliases entry";
throw new ArgumentException(FormatOptionsContext(msg, " - "));
}
if (depInfo.ContainsKey("date") && depInfo["date"].GetType() != typeof(DateTime))
{
string msg = "A deprecated_aliases date must be a DateTime object";
throw new ArgumentException(FormatOptionsContext(msg, " - "));
}
string collectionName = null;
if (depInfo.ContainsKey("collection_name"))
{
collectionName = (string)depInfo["collection_name"];
}
string aliasName = (string)depInfo["name"];
if (parameters.Contains(aliasName))
{
string msg = String.Format("Alias '{0}' is deprecated. See the module docs for more information", aliasName);
if (depInfo.ContainsKey("version"))
{
string depVersion = (string)depInfo["version"];
Deprecate(FormatOptionsContext(msg, " - "), depVersion, collectionName);
}
if (depInfo.ContainsKey("date"))
{
DateTime depDate = (DateTime)depInfo["date"];
Deprecate(FormatOptionsContext(msg, " - "), depDate, collectionName);
}
}
}
}
return aliasResults;
}
private void SetNoLogValues(IDictionary argumentSpec, IDictionary parameters)
{
foreach (DictionaryEntry entry in (IDictionary)argumentSpec["options"])
{
string k = (string)entry.Key;
Hashtable v = (Hashtable)entry.Value;
if ((bool)v["no_log"])
{
object noLogObject = parameters.Contains(k) ? parameters[k] : null;
string noLogString = noLogObject == null ? "" : noLogObject.ToString();
if (!String.IsNullOrEmpty(noLogString))
noLogValues.Add(noLogString);
}
string collectionName = null;
if (v.ContainsKey("removed_from_collection"))
{
collectionName = (string)v["removed_from_collection"];
}
object removedInVersion = v["removed_in_version"];
if (removedInVersion != null && parameters.Contains(k))
Deprecate(String.Format("Param '{0}' is deprecated. See the module docs for more information", k),
removedInVersion.ToString(), collectionName);
object removedAtDate = v["removed_at_date"];
if (removedAtDate != null && parameters.Contains(k))
Deprecate(String.Format("Param '{0}' is deprecated. See the module docs for more information", k),
(DateTime)removedAtDate, collectionName);
}
}
private void CheckArguments(IDictionary spec, IDictionary param, List<string> legalInputs)
{
// initially parse the params and check for unsupported ones and set internal vars
CheckUnsupportedArguments(param, legalInputs);
// Only run this check if we are at the root argument (optionsContext.Count == 0)
if (CheckMode && !(bool)spec["supports_check_mode"] && optionsContext.Count == 0)
{
Result["skipped"] = true;
Result["msg"] = String.Format("remote module ({0}) does not support check mode", ModuleName);
ExitJson();
}
IDictionary optionSpec = (IDictionary)spec["options"];
CheckMutuallyExclusive(param, (IList)spec["mutually_exclusive"]);
CheckRequiredArguments(optionSpec, param);
// set the parameter types based on the type spec value
foreach (DictionaryEntry entry in optionSpec)
{
string k = (string)entry.Key;
Hashtable v = (Hashtable)entry.Value;
object value = param.Contains(k) ? param[k] : null;
if (value != null)
{
// convert the current value to the wanted type
Delegate typeConverter;
string type;
if (v["type"].GetType() == typeof(string))
{
type = (string)v["type"];
typeConverter = optionTypes[type];
}
else
{
type = "delegate";
typeConverter = (Delegate)v["type"];
}
try
{
value = typeConverter.DynamicInvoke(value);
param[k] = value;
}
catch (Exception e)
{
string msg = String.Format("argument for {0} is of type {1} and we were unable to convert to {2}: {3}",
k, value.GetType(), type, e.InnerException.Message);
FailJson(FormatOptionsContext(msg));
}
// ensure it matches the choices if there are choices set
List<string> choices = ((List<object>)v["choices"]).Select(x => x.ToString()).Cast<string>().ToList();
if (choices.Count > 0)
{
List<string> values;
string choiceMsg;
if (type == "list")
{
values = ((List<object>)value).Select(x => x.ToString()).Cast<string>().ToList();
choiceMsg = "one or more of";
}
else
{
values = new List<string>() { value.ToString() };
choiceMsg = "one of";
}
List<string> diffList = values.Except(choices, StringComparer.OrdinalIgnoreCase).ToList();
List<string> caseDiffList = values.Except(choices).ToList();
if (diffList.Count > 0)
{
string msg = String.Format("value of {0} must be {1}: {2}. Got no match for: {3}",
k, choiceMsg, String.Join(", ", choices), String.Join(", ", diffList));
FailJson(FormatOptionsContext(msg));
}
/*
For now we will just silently accept case insensitive choices, uncomment this if we want to add it back in
else if (caseDiffList.Count > 0)
{
// For backwards compatibility with Legacy.psm1 we need to be matching choices that are not case sensitive.
// We will warn the user it was case insensitive and tell them this will become case sensitive in the future.
string msg = String.Format(
"value of {0} was a case insensitive match of {1}: {2}. Checking of choices will be case sensitive in a future Ansible release. Case insensitive matches were: {3}",
k, choiceMsg, String.Join(", ", choices), String.Join(", ", caseDiffList.Select(x => RemoveNoLogValues(x, noLogValues)))
);
Warn(FormatOptionsContext(msg));
}*/
}
}
}
CheckRequiredTogether(param, (IList)spec["required_together"]);
CheckRequiredOneOf(param, (IList)spec["required_one_of"]);
CheckRequiredIf(param, (IList)spec["required_if"]);
CheckRequiredBy(param, (IDictionary)spec["required_by"]);
// finally ensure all missing parameters are set to null and handle sub options
foreach (DictionaryEntry entry in optionSpec)
{
string k = (string)entry.Key;
IDictionary v = (IDictionary)entry.Value;
if (!param.Contains(k))
param[k] = null;
CheckSubOption(param, k, v);
}
}
private void CheckUnsupportedArguments(IDictionary param, List<string> legalInputs)
{
HashSet<string> unsupportedParameters = new HashSet<string>();
HashSet<string> caseUnsupportedParameters = new HashSet<string>();
List<string> removedParameters = new List<string>();
foreach (DictionaryEntry entry in param)
{
string paramKey = (string)entry.Key;
if (!legalInputs.Contains(paramKey, StringComparer.OrdinalIgnoreCase))
unsupportedParameters.Add(paramKey);
else if (!legalInputs.Contains(paramKey))
// For backwards compatibility we do not care about the case but we need to warn the users as this will
// change in a future Ansible release.
caseUnsupportedParameters.Add(paramKey);
else if (paramKey.StartsWith("_ansible_"))
{
removedParameters.Add(paramKey);
string key = paramKey.Replace("_ansible_", "");
// skip setting NoLog if NoLog is already set to true (set by the module)
// or there's no mapping for this key
if ((key == "no_log" && NoLog == true) || (passVars[key] == null))
continue;
object value = entry.Value;
if (passBools.Contains(key))
value = ParseBool(value);
else if (passInts.Contains(key))
value = ParseInt(value);
string propertyName = passVars[key];
PropertyInfo property = typeof(AnsibleModule).GetProperty(propertyName);
FieldInfo field = typeof(AnsibleModule).GetField(propertyName, BindingFlags.NonPublic | BindingFlags.Instance);
if (property != null)
property.SetValue(this, value, null);
else if (field != null)
field.SetValue(this, value);
else
FailJson(String.Format("implementation error: unknown AnsibleModule property {0}", propertyName));
}
}
foreach (string parameter in removedParameters)
param.Remove(parameter);
if (unsupportedParameters.Count > 0)
{
legalInputs.RemoveAll(x => passVars.Keys.Contains(x.Replace("_ansible_", "")));
string msg = String.Format("Unsupported parameters for ({0}) module: {1}", ModuleName, String.Join(", ", unsupportedParameters));
msg = String.Format("{0}. Supported parameters include: {1}", FormatOptionsContext(msg), String.Join(", ", legalInputs));
FailJson(msg);
}
/*
// Uncomment when we want to start warning users around options that are not a case sensitive match to the spec
if (caseUnsupportedParameters.Count > 0)
{
legalInputs.RemoveAll(x => passVars.Keys.Contains(x.Replace("_ansible_", "")));
string msg = String.Format("Parameters for ({0}) was a case insensitive match: {1}", ModuleName, String.Join(", ", caseUnsupportedParameters));
msg = String.Format("{0}. Module options will become case sensitive in a future Ansible release. Supported parameters include: {1}",
FormatOptionsContext(msg), String.Join(", ", legalInputs));
Warn(msg);
}*/
// Make sure we convert all the incorrect case params to the ones set by the module spec
foreach (string key in caseUnsupportedParameters)
{
string correctKey = legalInputs[legalInputs.FindIndex(s => s.Equals(key, StringComparison.OrdinalIgnoreCase))];
object value = param[key];
param.Remove(key);
param.Add(correctKey, value);
}
}
private void CheckMutuallyExclusive(IDictionary param, IList mutuallyExclusive)
{
if (mutuallyExclusive == null)
return;
foreach (object check in mutuallyExclusive)
{
List<string> mutualCheck = ((IList)check).Cast<string>().ToList();
int count = 0;
foreach (string entry in mutualCheck)
if (param.Contains(entry))
count++;
if (count > 1)
{
string msg = String.Format("parameters are mutually exclusive: {0}", String.Join(", ", mutualCheck));
FailJson(FormatOptionsContext(msg));
}
}
}
private void CheckRequiredArguments(IDictionary spec, IDictionary param)
{
List<string> missing = new List<string>();
foreach (DictionaryEntry entry in spec)
{
string k = (string)entry.Key;
Hashtable v = (Hashtable)entry.Value;
// set defaults for values not already set
object defaultValue = v["default"];
if (defaultValue != null && !param.Contains(k))
param[k] = defaultValue;
// check required arguments
bool required = (bool)v["required"];
if (required && !param.Contains(k))
missing.Add(k);
}
if (missing.Count > 0)
{
string msg = String.Format("missing required arguments: {0}", String.Join(", ", missing));
FailJson(FormatOptionsContext(msg));
}
}
private void CheckRequiredTogether(IDictionary param, IList requiredTogether)
{
if (requiredTogether == null)
return;
foreach (object check in requiredTogether)
{
List<string> requiredCheck = ((IList)check).Cast<string>().ToList();
List<bool> found = new List<bool>();
foreach (string field in requiredCheck)
if (param.Contains(field))
found.Add(true);
else
found.Add(false);
if (found.Contains(true) && found.Contains(false))
{
string msg = String.Format("parameters are required together: {0}", String.Join(", ", requiredCheck));
FailJson(FormatOptionsContext(msg));
}
}
}
private void CheckRequiredOneOf(IDictionary param, IList requiredOneOf)
{
if (requiredOneOf == null)
return;
foreach (object check in requiredOneOf)
{
List<string> requiredCheck = ((IList)check).Cast<string>().ToList();
int count = 0;
foreach (string field in requiredCheck)
if (param.Contains(field))
count++;
if (count == 0)
{
string msg = String.Format("one of the following is required: {0}", String.Join(", ", requiredCheck));
FailJson(FormatOptionsContext(msg));
}
}
}
private void CheckRequiredIf(IDictionary param, IList requiredIf)
{
if (requiredIf == null)
return;
foreach (object check in requiredIf)
{
IList requiredCheck = (IList)check;
List<string> missing = new List<string>();
List<string> missingFields = new List<string>();
int maxMissingCount = 1;
bool oneRequired = false;
if (requiredCheck.Count < 3 && requiredCheck.Count < 4)
FailJson(String.Format("internal error: invalid required_if value count of {0}, expecting 3 or 4 entries", requiredCheck.Count));
else if (requiredCheck.Count == 4)
oneRequired = (bool)requiredCheck[3];
string key = (string)requiredCheck[0];
object val = requiredCheck[1];
IList requirements = (IList)requiredCheck[2];
if (ParseStr(param[key]) != ParseStr(val))
continue;
string term = "all";
if (oneRequired)
{
maxMissingCount = requirements.Count;
term = "any";
}
foreach (string required in requirements.Cast<string>())
if (!param.Contains(required))
missing.Add(required);
if (missing.Count >= maxMissingCount)
{
string msg = String.Format("{0} is {1} but {2} of the following are missing: {3}",
key, val.ToString(), term, String.Join(", ", missing));
FailJson(FormatOptionsContext(msg));
}
}
}
private void CheckRequiredBy(IDictionary param, IDictionary requiredBy)
{
foreach (DictionaryEntry entry in requiredBy)
{
string key = (string)entry.Key;
if (!param.Contains(key))
continue;
List<string> missing = new List<string>();
List<string> requires = ParseList(entry.Value).Cast<string>().ToList();
foreach (string required in requires)
if (!param.Contains(required))
missing.Add(required);
if (missing.Count > 0)
{
string msg = String.Format("missing parameter(s) required by '{0}': {1}", key, String.Join(", ", missing));
FailJson(FormatOptionsContext(msg));
}
}
}
private void CheckSubOption(IDictionary param, string key, IDictionary spec)
{
object value = param[key];
string type;
if (spec["type"].GetType() == typeof(string))
type = (string)spec["type"];
else
type = "delegate";
string elements = null;
Delegate typeConverter = null;
if (spec["elements"] != null && spec["elements"].GetType() == typeof(string))
{
elements = (string)spec["elements"];
typeConverter = optionTypes[elements];
}
else if (spec["elements"] != null)
{
elements = "delegate";
typeConverter = (Delegate)spec["elements"];
}
if (!(type == "dict" || (type == "list" && elements != null)))
// either not a dict, or list with the elements set, so continue
return;
else if (type == "list")
{
// cast each list element to the type specified
if (value == null)
return;
List<object> newValue = new List<object>();
foreach (object element in (List<object>)value)
{
if (elements == "dict")
newValue.Add(ParseSubSpec(spec, element, key));
else
{
try
{
object newElement = typeConverter.DynamicInvoke(element);
newValue.Add(newElement);
}
catch (Exception e)
{
string msg = String.Format("argument for list entry {0} is of type {1} and we were unable to convert to {2}: {3}",
key, element.GetType(), elements, e.Message);
FailJson(FormatOptionsContext(msg));
}
}
}
param[key] = newValue;
}
else
param[key] = ParseSubSpec(spec, value, key);
}
private object ParseSubSpec(IDictionary spec, object value, string context)
{
bool applyDefaults = (bool)spec["apply_defaults"];
// set entry to an empty dict if apply_defaults is set
IDictionary optionsSpec = (IDictionary)spec["options"];
if (applyDefaults && optionsSpec.Keys.Count > 0 && value == null)
value = new Dictionary<string, object>();
else if (optionsSpec.Keys.Count == 0 || value == null)
return value;
optionsContext.Add(context);
Dictionary<string, object> newValue = (Dictionary<string, object>)ParseDict(value);
Dictionary<string, string> aliases = GetAliases(spec, newValue);
SetNoLogValues(spec, newValue);
List<string> subLegalInputs = optionsSpec.Keys.Cast<string>().ToList();
subLegalInputs.AddRange(aliases.Keys.Cast<string>().ToList());
CheckArguments(spec, newValue, subLegalInputs);
optionsContext.RemoveAt(optionsContext.Count - 1);
return newValue;
}
private string GetFormattedResults(Dictionary<string, object> result)
{
if (!result.ContainsKey("invocation"))
result["invocation"] = new Dictionary<string, object>() { { "module_args", RemoveNoLogValues(Params, noLogValues) } };
if (warnings.Count > 0)
result["warnings"] = warnings;
if (deprecations.Count > 0)
result["deprecations"] = deprecations;
if (Diff.Count > 0 && DiffMode)
result["diff"] = Diff;
return ToJson(result);
}
private string FormatLogData(object data, int indentLevel)
{
if (data == null)
return "$null";
string msg = "";
if (data is IList)
{
string newMsg = "";
foreach (object value in (IList)data)
{
string entryValue = FormatLogData(value, indentLevel + 2);
newMsg += String.Format("\r\n{0}- {1}", new String(' ', indentLevel), entryValue);
}
msg += newMsg;
}
else if (data is IDictionary)
{
bool start = true;
foreach (DictionaryEntry entry in (IDictionary)data)
{
string newMsg = FormatLogData(entry.Value, indentLevel + 2);
if (!start)
msg += String.Format("\r\n{0}", new String(' ', indentLevel));
msg += String.Format("{0}: {1}", (string)entry.Key, newMsg);
start = false;
}
}
else
msg = (string)RemoveNoLogValues(ParseStr(data), noLogValues);
return msg;
}
private object RemoveNoLogValues(object value, HashSet<string> noLogStrings)
{
Queue<Tuple<object, object>> deferredRemovals = new Queue<Tuple<object, object>>();
object newValue = RemoveValueConditions(value, noLogStrings, deferredRemovals);
while (deferredRemovals.Count > 0)
{
Tuple<object, object> data = deferredRemovals.Dequeue();
object oldData = data.Item1;
object newData = data.Item2;
if (oldData is IDictionary)
{
foreach (DictionaryEntry entry in (IDictionary)oldData)
{
object newElement = RemoveValueConditions(entry.Value, noLogStrings, deferredRemovals);
((IDictionary)newData).Add((string)entry.Key, newElement);
}
}
else
{
foreach (object element in (IList)oldData)
{
object newElement = RemoveValueConditions(element, noLogStrings, deferredRemovals);
((IList)newData).Add(newElement);
}
}
}
return newValue;
}
private object RemoveValueConditions(object value, HashSet<string> noLogStrings, Queue<Tuple<object, object>> deferredRemovals)
{
if (value == null)
return value;
Type valueType = value.GetType();
HashSet<Type> numericTypes = new HashSet<Type>
{
typeof(byte), typeof(sbyte), typeof(short), typeof(ushort), typeof(int), typeof(uint),
typeof(long), typeof(ulong), typeof(decimal), typeof(double), typeof(float)
};
if (numericTypes.Contains(valueType) || valueType == typeof(bool))
{
string valueString = ParseStr(value);
if (noLogStrings.Contains(valueString))
return "VALUE_SPECIFIED_IN_NO_LOG_PARAMETER";
foreach (string omitMe in noLogStrings)
if (valueString.Contains(omitMe))
return "VALUE_SPECIFIED_IN_NO_LOG_PARAMETER";
}
else if (valueType == typeof(DateTime))
value = ((DateTime)value).ToString("o");
else if (value is IList)
{
List<object> newValue = new List<object>();
deferredRemovals.Enqueue(new Tuple<object, object>((IList)value, newValue));
value = newValue;
}
else if (value is IDictionary)
{
Hashtable newValue = new Hashtable();
deferredRemovals.Enqueue(new Tuple<object, object>((IDictionary)value, newValue));
value = newValue;
}
else
{
string stringValue = value.ToString();
if (noLogStrings.Contains(stringValue))
return "VALUE_SPECIFIED_IN_NO_LOG_PARAMETER";
foreach (string omitMe in noLogStrings)
if (stringValue.Contains(omitMe))
return (stringValue).Replace(omitMe, "********");
value = stringValue;
}
return value;
}
private void CleanupFiles(object s, EventArgs ev)
{
foreach (string path in cleanupFiles)
{
try
{
#if WINDOWS
FileCleaner.Delete(path);
#else
if (File.Exists(path))
File.Delete(path);
else if (Directory.Exists(path))
Directory.Delete(path, true);
#endif
}
catch (Exception e)
{
Warn(string.Format("Failure cleaning temp path '{0}': {1} {2}",
path, e.GetType().Name, e.Message));
}
}
cleanupFiles = new List<string>();
}
private string FormatOptionsContext(string msg, string prefix = " ")
{
if (optionsContext.Count > 0)
msg += String.Format("{0}found in {1}", prefix, String.Join(" -> ", optionsContext));
return msg;
}
[DllImport("kernel32.dll")]
private static extern IntPtr GetConsoleWindow();
private static void ExitModule(int rc)
{
// When running in a Runspace Environment.Exit will kill the entire
// process which is not what we want, detect if we are in a
// Runspace and call a ScriptBlock with exit instead.
if (Runspace.DefaultRunspace != null)
ScriptBlock.Create("Set-Variable -Name LASTEXITCODE -Value $args[0] -Scope Global; exit $args[0]").Invoke(rc);
else
{
// Used for local debugging in Visual Studio
if (System.Diagnostics.Debugger.IsAttached)
{
Console.WriteLine("Press enter to continue...");
Console.ReadLine();
}
Environment.Exit(rc);
}
}
private static void WriteLineModule(string line)
{
Console.WriteLine(line);
}
}
#if WINDOWS
// Windows is tricky as AVs and other software might still
// have an open handle to files causing a failure. Use a
// custom deletion mechanism to remove the files/dirs.
// https://github.com/ansible/ansible/pull/80247
internal static class FileCleaner
{
private const int FileDispositionInformation = 13;
private const int FileDispositionInformationEx = 64;
private const int ERROR_INVALID_PARAMETER = 0x00000057;
private const int ERROR_DIR_NOT_EMPTY = 0x00000091;
private static bool? _supportsPosixDelete = null;
[Flags()]
public enum DispositionFlags : uint
{
FILE_DISPOSITION_DO_NOT_DELETE = 0x00000000,
FILE_DISPOSITION_DELETE = 0x00000001,
FILE_DISPOSITION_POSIX_SEMANTICS = 0x00000002,
FILE_DISPOSITION_FORCE_IMAGE_SECTION_CHECK = 0x00000004,
FILE_DISPOSITION_ON_CLOSE = 0x00000008,
FILE_DISPOSITION_IGNORE_READONLY_ATTRIBUTE = 0x00000010,
}
[Flags()]
public enum FileFlags : uint
{
FILE_FLAG_OPEN_NO_RECALL = 0x00100000,
FILE_FLAG_OPEN_REPARSE_POINT = 0x00200000,
FILE_FLAG_SESSION_AWARE = 0x00800000,
FILE_FLAG_POSIX_SEMANTICS = 0x01000000,
FILE_FLAG_BACKUP_SEMANTICS = 0x02000000,
FILE_FLAG_DELETE_ON_CLOSE = 0x04000000,
FILE_FLAG_SEQUENTIAL_SCAN = 0x08000000,
FILE_FLAG_RANDOM_ACCESS = 0x10000000,
FILE_FLAG_NO_BUFFERING = 0x20000000,
FILE_FLAG_OVERLAPPED = 0x40000000,
FILE_FLAG_WRITE_THROUGH = 0x80000000,
}
[DllImport("Kernel32.dll", CharSet = CharSet.Unicode, SetLastError = true)]
private static extern SafeFileHandle CreateFileW(
[MarshalAs(UnmanagedType.LPWStr)] string lpFileName,
FileSystemRights dwDesiredAccess,
FileShare dwShareMode,
IntPtr lpSecurityAttributes,
FileMode dwCreationDisposition,
uint dwFlagsAndAttributes,
IntPtr hTemplateFile);
private static SafeFileHandle CreateFile(string path, FileSystemRights access, FileShare share, FileMode mode,
FileAttributes attributes, FileFlags flags)
{
uint flagsAndAttributes = (uint)attributes | (uint)flags;
SafeFileHandle handle = CreateFileW(path, access, share, IntPtr.Zero, mode, flagsAndAttributes,
IntPtr.Zero);
if (handle.IsInvalid)
{
int errCode = Marshal.GetLastWin32Error();
string msg = string.Format("CreateFileW({0}) failed 0x{1:X8}: {2}",
path, errCode, new Win32Exception(errCode).Message);
throw new Win32Exception(errCode, msg);
}
return handle;
}
[DllImport("Ntdll.dll")]
private static extern int NtSetInformationFile(
SafeFileHandle FileHandle,
out IntPtr IoStatusBlock,
ref int FileInformation,
int Length,
int FileInformationClass);
[DllImport("Ntdll.dll")]
private static extern int RtlNtStatusToDosError(
int Status);
public static void Delete(string path)
{
if (File.Exists(path))
{
DeleteEntry(path, FileAttributes.ReadOnly);
}
else if (Directory.Exists(path))
{
Queue<DirectoryInfo> dirQueue = new Queue<DirectoryInfo>();
dirQueue.Enqueue(new DirectoryInfo(path));
bool nonEmptyDirs = false;
HashSet<string> processedDirs = new HashSet<string>();
while (dirQueue.Count > 0)
{
DirectoryInfo currentDir = dirQueue.Dequeue();
bool deleteDir = true;
if (processedDirs.Add(currentDir.FullName))
{
foreach (FileSystemInfo entry in currentDir.EnumerateFileSystemInfos())
{
// Tries to delete each entry. Failures are ignored
// as they will be picked up when the dir is
// deleted and not empty.
if (entry is DirectoryInfo)
{
if ((entry.Attributes & FileAttributes.ReparsePoint) != 0)
{
// If it's a reparse point, just delete it directly.
DeleteEntry(entry.FullName, entry.Attributes, ignoreFailure: true);
}
else
{
// Add the dir to the queue to delete and it will be processed next round.
dirQueue.Enqueue((DirectoryInfo)entry);
deleteDir = false;
}
}
else
{
DeleteEntry(entry.FullName, entry.Attributes, ignoreFailure: true);
}
}
}
if (deleteDir)
{
try
{
DeleteEntry(currentDir.FullName, FileAttributes.Directory);
}
catch (Win32Exception e)
{
if (e.NativeErrorCode == ERROR_DIR_NOT_EMPTY)
{
nonEmptyDirs = true;
}
else
{
throw;
}
}
}
else
{
dirQueue.Enqueue(currentDir);
}
}
if (nonEmptyDirs)
{
throw new IOException("Directory contains files still open by other processes");
}
}
}
private static void DeleteEntry(string path, FileAttributes attr, bool ignoreFailure = false)
{
try
{
if ((attr & FileAttributes.ReadOnly) != 0)
{
// Windows does not allow files set with ReadOnly to be
// deleted. Pre-emptively unset the attribute.
// FILE_DISPOSITION_IGNORE_READONLY_ATTRIBUTE is quite new,
// look at using that flag with POSIX delete once Server 2019
// is the baseline.
File.SetAttributes(path, FileAttributes.Normal);
}
// REPARSE - Only touch the symlink itself and not the target
// BACKUP - Needed for dir handles, bypasses access checks for admins
// DELETE_ON_CLOSE is not used as it interferes with the POSIX delete
FileFlags flags = FileFlags.FILE_FLAG_OPEN_REPARSE_POINT |
FileFlags.FILE_FLAG_BACKUP_SEMANTICS;
using (SafeFileHandle fileHandle = CreateFile(path, FileSystemRights.Delete,
FileShare.ReadWrite | FileShare.Delete, FileMode.Open, FileAttributes.Normal, flags))
{
if (_supportsPosixDelete == null || _supportsPosixDelete == true)
{
// A POSIX delete will delete the filesystem entry even if
// it's still opened by another process so favour that if
// available.
DispositionFlags deleteFlags = DispositionFlags.FILE_DISPOSITION_DELETE |
DispositionFlags.FILE_DISPOSITION_POSIX_SEMANTICS;
SetInformationFile(fileHandle, FileDispositionInformationEx, (int)deleteFlags);
if (_supportsPosixDelete == true)
{
return;
}
}
// FileDispositionInformation takes in a struct with only a BOOLEAN value.
// Using an int will also do the same thing to set that flag to true.
SetInformationFile(fileHandle, FileDispositionInformation, Int32.MaxValue);
}
}
catch
{
if (!ignoreFailure)
{
throw;
}
}
}
private static void SetInformationFile(SafeFileHandle handle, int infoClass, int value)
{
IntPtr ioStatusBlock = IntPtr.Zero;
int ntStatus = NtSetInformationFile(handle, out ioStatusBlock, ref value,
Marshal.SizeOf(typeof(int)), infoClass);
if (ntStatus != 0)
{
int errCode = RtlNtStatusToDosError(ntStatus);
// The POSIX delete was added in Server 2016 (Win 10 14393/Redstone 1)
// Mark this flag so we don't try again.
if (infoClass == FileDispositionInformationEx && _supportsPosixDelete == null &&
errCode == ERROR_INVALID_PARAMETER)
{
_supportsPosixDelete = false;
return;
}
string msg = string.Format("NtSetInformationFile() failed 0x{0:X8}: {1}",
errCode, new Win32Exception(errCode).Message);
throw new Win32Exception(errCode, msg);
}
if (infoClass == FileDispositionInformationEx)
{
_supportsPosixDelete = true;
}
}
}
#endif
}