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ServiceDescriptor.cs
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using System;
using System.Collections;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Reflection;
using System.Xml;
using WMI;
namespace winsw
{
/// <summary>
/// In-memory representation of the configuration file.
/// </summary>
public class ServiceDescriptor
{
// ReSharper disable once InconsistentNaming
protected readonly XmlDocument dom = new XmlDocument();
/// <summary>
/// Where did we find the configuration file?
///
/// This string is "c:\abc\def\ghi" when the configuration XML is "c:\abc\def\ghi.xml"
/// </summary>
public string BasePath { get; set; }
/// <summary>
/// The file name portion of the configuration file.
///
/// In the above example, this would be "ghi".
/// </summary>
public string BaseName { get; set; }
public virtual string ExecutablePath
{
get
{
// this returns the executable name as given by the calling process, so
// it needs to be absolutized.
string p = Environment.GetCommandLineArgs()[0];
return Path.GetFullPath(p);
}
}
public ServiceDescriptor()
{
// find co-located configuration xml. We search up to the ancestor directories to simplify debugging,
// as well as trimming off ".vshost" suffix (which is used during debugging)
//Get the first parent to go into the recursive loop
string p = ExecutablePath;
string baseName = Path.GetFileNameWithoutExtension(p);
if (baseName.EndsWith(".vshost")) baseName = baseName.Substring(0, baseName.Length - 7);
DirectoryInfo d = new DirectoryInfo(Path.GetDirectoryName(p));
while (true)
{
if (File.Exists(Path.Combine(d.FullName, baseName + ".xml")))
break;
if (d.Parent == null)
throw new FileNotFoundException("Unable to locate "+baseName+".xml file within executable directory or any parents");
d = d.Parent;
}
BaseName = baseName;
BasePath = Path.Combine(d.FullName, BaseName);
dom.Load(BasePath + ".xml");
// register the base directory as environment variable so that future expansions can refer to this.
Environment.SetEnvironmentVariable("BASE", d.FullName);
// ditto for ID
Environment.SetEnvironmentVariable("SERVICE_ID", Id);
Environment.SetEnvironmentVariable("WINSW_EXECUTABLE", ExecutablePath);
}
/// <summary>
/// Loads descriptor from existing DOM
/// </summary>
public ServiceDescriptor(XmlDocument dom)
{
this.dom = dom;
}
// ReSharper disable once InconsistentNaming
public static ServiceDescriptor FromXML(string xml)
{
var dom = new XmlDocument();
dom.LoadXml(xml);
return new ServiceDescriptor(dom);
}
private string SingleElement(string tagName)
{
return SingleElement(tagName, false);
}
private string SingleElement(string tagName, Boolean optional)
{
var n = dom.SelectSingleNode("//" + tagName);
if (n == null && !optional) throw new InvalidDataException("<" + tagName + "> is missing in configuration XML");
return n == null ? null : Environment.ExpandEnvironmentVariables(n.InnerText);
}
private int SingleIntElement(XmlNode parent, string tagName, int defaultValue)
{
var e = parent.SelectSingleNode(tagName);
if (e == null)
{
return defaultValue;
}
else
{
return int.Parse(e.InnerText);
}
}
private TimeSpan SingleTimeSpanElement(XmlNode parent, string tagName, TimeSpan defaultValue)
{
var e = parent.SelectSingleNode(tagName);
if (e == null)
{
return defaultValue;
}
else
{
return ParseTimeSpan(e.InnerText);
}
}
private TimeSpan ParseTimeSpan(string v)
{
v = v.Trim();
foreach (var s in Suffix)
{
if (v.EndsWith(s.Key))
{
return TimeSpan.FromMilliseconds(int.Parse(v.Substring(0, v.Length - s.Key.Length).Trim()) * s.Value);
}
}
return TimeSpan.FromMilliseconds(int.Parse(v));
}
private static readonly Dictionary<string,long> Suffix = new Dictionary<string,long> {
{ "ms", 1 },
{ "sec", 1000L },
{ "secs", 1000L },
{ "min", 1000L*60L },
{ "mins", 1000L*60L },
{ "hr", 1000L*60L*60L },
{ "hrs", 1000L*60L*60L },
{ "hour", 1000L*60L*60L },
{ "hours", 1000L*60L*60L },
{ "day", 1000L*60L*60L*24L },
{ "days", 1000L*60L*60L*24L }
};
/// <summary>
/// Path to the executable.
/// </summary>
public string Executable
{
get
{
return SingleElement("executable");
}
}
/// <summary>
/// Optionally specify a different Path to an executable to shutdown the service.
/// </summary>
public string StopExecutable
{
get
{
return SingleElement("stopexecutable");
}
}
/// <summary>
/// Arguments or multiple optional argument elements which overrule the arguments element.
/// </summary>
public string Arguments
{
get
{
string arguments = AppendTags("argument");
if (arguments == null)
{
var argumentsNode = dom.SelectSingleNode("//arguments");
if (argumentsNode == null)
{
return "";
}
return Environment.ExpandEnvironmentVariables(argumentsNode.InnerText);
}
else
{
return arguments;
}
}
}
/// <summary>
/// Multiple optional startargument elements.
/// </summary>
public string Startarguments
{
get
{
return AppendTags("startargument");
}
}
/// <summary>
/// Multiple optional stopargument elements.
/// </summary>
public string Stoparguments
{
get
{
return AppendTags("stopargument");
}
}
/// <summary>
/// Optional working directory.
/// </summary>
public string WorkingDirectory {
get {
var wd = SingleElement("workingdirectory", true);
return String.IsNullOrEmpty(wd) ? Path.GetDirectoryName(Assembly.GetExecutingAssembly().Location) : wd;
}
}
/// <summary>
/// Combines the contents of all the elements of the given name,
/// or return null if no element exists. Handles whitespace quotation.
/// </summary>
private string AppendTags(string tagName)
{
XmlNode argumentNode = dom.SelectSingleNode("//" + tagName);
if (argumentNode == null)
{
return null;
}
else
{
string arguments = "";
foreach (XmlElement argument in dom.SelectNodes("//" + tagName))
{
string token = Environment.ExpandEnvironmentVariables(argument.InnerText);
if (token.StartsWith("\"") && token.EndsWith("\""))
{
// for backward compatibility, if the argument is already quoted, leave it as is.
// in earlier versions we didn't handle quotation, so the user might have worked
// around it by themselves
}
else
{
if (token.Contains(" "))
{
token = '"' + token + '"';
}
}
arguments += " " + token;
}
return arguments;
}
}
/// <summary>
/// LogDirectory is the service wrapper executable directory or the optionally specified logpath element.
/// </summary>
public string LogDirectory
{
get
{
XmlNode loggingNode = dom.SelectSingleNode("//logpath");
if (loggingNode != null)
{
return Environment.ExpandEnvironmentVariables(loggingNode.InnerText);
}
else
{
return Path.GetDirectoryName(ExecutablePath);
}
}
}
public LogHandler LogHandler
{
get
{
string mode=null;
// first, backward compatibility with older configuration
XmlElement e = (XmlElement)dom.SelectSingleNode("//logmode");
if (e!=null) {
mode = e.InnerText;
} else {
// this is more modern way, to support nested elements as configuration
e = (XmlElement)dom.SelectSingleNode("//log");
if (e!=null)
mode = e.GetAttribute("mode");
}
if (mode == null) mode = "append";
switch (mode)
{
case "rotate":
return new SizeBasedRollingLogAppender(LogDirectory, BaseName);
case "none":
return new IgnoreLogAppender();
case "reset":
return new ResetLogAppender(LogDirectory, BaseName);
case "roll":
return new RollingLogAppender(LogDirectory, BaseName);
case "roll-by-time":
XmlNode patternNode = e.SelectSingleNode("pattern");
if (patternNode == null)
{
throw new InvalidDataException("Time Based rolling policy is specified but no pattern can be found in configuration XML.");
}
string pattern = patternNode.InnerText;
int period = SingleIntElement(e,"period",1);
return new TimeBasedRollingLogAppender(LogDirectory, BaseName, pattern, period);
case "roll-by-size":
int sizeThreshold = SingleIntElement(e,"sizeThreshold",10*1024) * SizeBasedRollingLogAppender.BYTES_PER_KB;
int keepFiles = SingleIntElement(e,"keepFiles",SizeBasedRollingLogAppender.DEFAULT_FILES_TO_KEEP);
return new SizeBasedRollingLogAppender(LogDirectory, BaseName, sizeThreshold, keepFiles);
case "append":
return new DefaultLogAppender(LogDirectory, BaseName);
default:
throw new InvalidDataException("Undefined logging mode: " + mode);
}
}
}
/// <summary>
/// Optionally specified depend services that must start before this service starts.
/// </summary>
public string[] ServiceDependencies
{
get
{
ArrayList serviceDependencies = new ArrayList();
var xmlNodeList = dom.SelectNodes("//depend");
if (xmlNodeList != null)
foreach (XmlNode depend in xmlNodeList)
{
serviceDependencies.Add(depend.InnerText);
}
return (string[])serviceDependencies.ToArray(typeof(string));
}
}
public string Id
{
get
{
return SingleElement("id");
}
}
public string Caption
{
get
{
return SingleElement("name");
}
}
public string Description
{
get
{
return SingleElement("description");
}
}
/// <summary>
/// Start mode of the Service
/// </summary>
public StartMode StartMode
{
get
{
var p = SingleElement("startmode", true);
if (p == null) return StartMode.Automatic; // default value
try
{
return (StartMode)Enum.Parse(typeof(StartMode), p, true);
}
catch
{
Console.WriteLine("Start mode in XML must be one of the following:");
foreach (string sm in Enum.GetNames(typeof(StartMode)))
{
Console.WriteLine(sm);
}
throw;
}
}
}
/// <summary>
/// True if the service should when finished on shutdown.
/// This doesn't work on some OSes. See http://msdn.microsoft.com/en-us/library/ms679277%28VS.85%29.aspx
/// </summary>
public bool BeepOnShutdown
{
get
{
return dom.SelectSingleNode("//beeponshutdown") != null;
}
}
/// <summary>
/// The estimated time required for a pending stop operation (default 15 secs).
/// Before the specified amount of time has elapsed, the service should make its next call to the SetServiceStatus function
/// with either an incremented checkPoint value or a change in currentState. (see http://msdn.microsoft.com/en-us/library/ms685996.aspx)
/// </summary>
public TimeSpan WaitHint
{
get
{
return SingleTimeSpanElement(dom.FirstChild, "waithint", TimeSpan.FromSeconds(15));
}
}
/// <summary>
/// The time before the service should make its next call to the SetServiceStatus function
/// with an incremented checkPoint value (default 1 sec).
/// Do not wait longer than the wait hint. A good interval is one-tenth of the wait hint but not less than 1 second and not more than 10 seconds.
/// </summary>
public TimeSpan SleepTime
{
get
{
return SingleTimeSpanElement(dom.FirstChild, "sleeptime", TimeSpan.FromSeconds(1));
}
}
/// <summary>
/// True if the service can interact with the desktop.
/// </summary>
public bool Interactive
{
get
{
return dom.SelectSingleNode("//interactive") != null;
}
}
/// <summary>
/// Environment variable overrides
/// </summary>
public Dictionary<string, string> EnvironmentVariables
{
get
{
Dictionary<string, string> map = new Dictionary<string, string>();
foreach (XmlNode n in dom.SelectNodes("//env"))
{
string key = n.Attributes["name"].Value;
string value = Environment.ExpandEnvironmentVariables(n.Attributes["value"].Value);
map[key] = value;
Environment.SetEnvironmentVariable(key, value);
}
return map;
}
}
/// <summary>
/// List of downloads to be performed by the wrapper before starting
/// a service.
/// </summary>
public List<Download> Downloads
{
get
{
List<Download> r = new List<Download>();
var xmlNodeList = dom.SelectNodes("//download");
if (xmlNodeList != null)
foreach (XmlNode n in xmlNodeList)
{
r.Add(new Download(n));
}
return r;
}
}
public List<SC_ACTION> FailureActions
{
get
{
List<SC_ACTION> r = new List<SC_ACTION>();
var childNodes = dom.SelectNodes("//onfailure");
if (childNodes != null)
{
foreach (XmlNode n in childNodes)
{
SC_ACTION_TYPE type;
string action = n.Attributes["action"].Value;
switch (action)
{
case "restart":
type = SC_ACTION_TYPE.SC_ACTION_RESTART;
break;
case "none":
type = SC_ACTION_TYPE.SC_ACTION_NONE;
break;
case "reboot":
type = SC_ACTION_TYPE.SC_ACTION_REBOOT;
break;
default:
throw new Exception("Invalid failure action: " + action);
}
XmlAttribute delay = n.Attributes["delay"];
r.Add(new SC_ACTION(type, delay != null ? ParseTimeSpan(delay.Value) : TimeSpan.Zero));
}
}
return r;
}
}
public TimeSpan ResetFailureAfter
{
get
{
return SingleTimeSpanElement(dom.FirstChild, "resetfailure", TimeSpan.FromDays(1));
}
}
protected string GetServiceAccountPart(string subNodeName)
{
var node = dom.SelectSingleNode("//serviceaccount");
if (node != null)
{
var subNode = node.SelectSingleNode(subNodeName);
if (subNode != null)
{
return subNode.InnerText;
}
}
return null;
}
protected string AllowServiceLogon
{
get
{
return GetServiceAccountPart("allowservicelogon");
}
}
// ReSharper disable once InconsistentNaming
protected string serviceAccountDomain
{
get
{
return GetServiceAccountPart("domain");
}
}
// ReSharper disable once InconsistentNaming
protected string serviceAccountName
{
get
{
return GetServiceAccountPart("user");
}
}
public string ServiceAccountPassword
{
get
{
return GetServiceAccountPart("password");
}
}
public string ServiceAccountUser
{
get { return (serviceAccountDomain ?? "NULL") + @"\" + (serviceAccountName ?? "NULL"); }
}
public bool HasServiceAccount()
{
return !string.IsNullOrEmpty(serviceAccountDomain) && !string.IsNullOrEmpty(serviceAccountName);
}
public bool AllowServiceAcountLogonRight
{
get
{
if (AllowServiceLogon != null)
{
bool parsedvalue;
if (Boolean.TryParse(AllowServiceLogon, out parsedvalue))
{
return parsedvalue;
}
}
return false;
}
}
/// <summary>
/// Time to wait for the service to gracefully shutdown before we forcibly kill it
/// </summary>
public TimeSpan StopTimeout
{
get
{
return SingleTimeSpanElement(dom.FirstChild, "stoptimeout", TimeSpan.FromSeconds(15));
}
}
public bool StopParentProcessFirst
{
get
{
var value = SingleElement("stopparentprocessfirst", true);
bool result;
if (bool.TryParse(value, out result))
{
return result;
}
return false;
}
}
/// <summary>
/// Desired process priority or null if not specified.
/// </summary>
public ProcessPriorityClass Priority
{
get
{
var p = SingleElement("priority",true);
if (p == null) return ProcessPriorityClass.Normal; // default value
return (ProcessPriorityClass)Enum.Parse(typeof(ProcessPriorityClass), p, true);
}
}
}
}