internal TraceSourceInfo (string name, SourceLevels levels, TraceImplSettings settings)
{
this.name = name;
this.levels = levels;
this.listeners = new TraceListenerCollection (false);
this.listeners.Add (new DefaultTraceListener(), settings);
}
internal TracerConfig(string cfg)
{
if (string.IsNullOrEmpty(cfg))
{
return;
}
var source = new TraceSource(TraceEnvVarName, SourceLevels.All);
this.myListeners = source.Listeners;
var parser = new TraceCfgParser(cfg);
var newListener = parser.OutDevice;
this.myFilters = parser.Filters;
this.myNotFilters = parser.NotFilters;
if (newListener != null)
{
// when the App.config _Trace source should be used we do not replace
// anything
if (!parser.UseAppConfigListeners)
{
this.myListeners.Clear();
this.myListeners.Add(newListener);
}
}
else
{
this.myListeners = null;
}
}
private void TraceConfiguration()
{
try
{
//delete the old log file
string logPath = Path.Combine(PathHelper.ApplicationPath, "ReflectionStudio.exe.log");
if (File.Exists(logPath))
{
File.Delete(logPath);
}
if (ReflectionStudio.Properties.Settings.Default.UseTraceListener)
{
//configure the trace
System.Diagnostics.Trace.AutoFlush = true;
System.Diagnostics.Trace.IndentSize = 2;
//configure the text listenner
System.Diagnostics.TraceListenerCollection listeners = System.Diagnostics.Trace.Listeners;
listeners.Add(new System.Diagnostics.TextWriterTraceListener(logPath, "LOG"));
}
}
catch (Exception error)
{
Tracer.Error("Reflection Studio.TraceConfiguration", error);
}
}
internal TraceSourceInfo (string name, SourceLevels levels, TraceImplSettings settings)
{
this.name = name;
this.levels = levels;
this.listeners = new TraceListenerCollection ();
this.listeners.Add (new DefaultTraceListener() { IndentSize = settings.IndentSize });
}
public TraceHook(TraceSource source)
{
this.listener = new PassThruListener();
this.collection = source.Listeners;
this.lockContext = new object();
source.Listeners.Add(listener);
HookupListener();
}
public ServerConnection()
{
WorldModel = new History();
MessageRecieved += ConnectionMessageRecieved;
// I wish there were a public constructor for TraceListenerCollection, but there is not
ConstructorInfo constructor = typeof(TraceListenerCollection).GetConstructor(
BindingFlags.Instance | BindingFlags.NonPublic, null, new Type[] { }, null);
ChatListeners = (TraceListenerCollection)constructor.Invoke(new object[0] { });
}
public ClientSideMessageProcessor(ServerConnection connection, History history)
{
ServerConnection = connection;
History = history;
ServerConnection.MessageRecieved += ConnectionMessageRecieved;
// I wish there were a public constructor for TraceListenerCollection, but there is not
ConstructorInfo constructor = typeof(TraceListenerCollection).GetConstructor(
BindingFlags.Instance | BindingFlags.NonPublic, null, new Type[] { }, null);
ChatListeners = (TraceListenerCollection)constructor.Invoke(new object[0] { });
}
public void AddRange(TraceListenerCollection value)
{
if (value == null)
{
throw new ArgumentNullException("value");
}
int count = value.Count;
for (int i = 0; i < count; i++)
{
this.Add(value[i]);
}
}
// Make sure that the trace configuration is loaded.
internal static void Initialize()
{
// Bail out if already initialized, or called recursively.
if(initialized)
{
return;
}
initialized = true;
// Create the default trace listener.
DefaultTraceListener defListener =
new DefaultTraceListener();
// Create the initial listeners collection.
listeners = new TraceListenerCollection();
listeners.Add(defListener);
// Get the diagnostics configuration options.
Hashtable options = (Hashtable)
ConfigurationSettings.GetConfig
("system.diagnostics",
new DiagnosticsConfigurationHandler());
if(options == null)
{
options = new Hashtable();
}
// Process the options for the default trace listener.
Object value = options["assertuienabled"];
if(value != null)
{
defListener.AssertUiEnabled = (bool)value;
}
value = options["logfilename"];
if(value != null)
{
defListener.LogFileName = (String)value;
}
// Process the trace options.
value = options["autoflush"];
if(value != null)
{
autoFlush = (bool)value;
}
value = options["indentsize"];
if(value != null)
{
indentSize = (int)value;
}
switches = (Hashtable)(options["switches"]);
}
public TraceSource (string name, SourceLevels sourceLevels)
{
if (name == null)
throw new ArgumentNullException ("name");
Hashtable sources = DiagnosticsConfiguration.Settings ["sources"] as Hashtable;
TraceSourceInfo info = sources != null ? sources [name] as TraceSourceInfo : null;
source_switch = new SourceSwitch (name);
if (info == null)
listeners = new TraceListenerCollection ();
else {
source_switch.Level = info.Levels;
listeners = info.Listeners;
}
}
public TraceListenerCollection GetRuntimeObject()
{
TraceListenerCollection listeners = new TraceListenerCollection();
bool flag = false;
foreach (ListenerElement element in this)
{
if (!flag && !element._isAddedByDefault)
{
new SecurityPermission(SecurityPermissionFlag.UnmanagedCode).Demand();
flag = true;
}
listeners.Add(element.GetRuntimeObject());
}
return listeners;
}
/// <summary>
/// Registers trace listeners to be used by the application.
/// Generally web.config is used to do this, but there are special cases.
/// </summary>
/// <param name="traceListenerCollection">
/// The trace Listener Collection to register trace listeners at.
/// </param>
public static void RegisterTraceListeners(TraceListenerCollection traceListenerCollection)
{
// This replaces web.config setting: configuration\system.diagnostics\trace\listeners\add type="Microsoft.WindowsAzure.Diagnostics.DiagnosticMonitorTraceListener, Microsoft.WindowsAzure.Diagnostics, Version=1.8.0.0, Culture=neutral, PublicKeyToken=31bf3856ad364e35" name="AzureDiagnostics"
// This is done because DiagnosticMonitorTraceListener class throws exception when not running in azure/devfabric.
if (RoleEnvironment.IsAvailable)
{
// See 'diagnostics.wadcfg' file. It contains all configurations of the DiagnosticMonitor.
// It is not needed to configure nor start the DiagnosticMonitor manually in code.
// It will be started automatically and will use settings in the 'diagnostics.wadcfg' file.
// All we need to do is to add the trace listener.
// reference: http://www.windowsazure.com/en-us/develop/net/common-tasks/diagnostics/
// google: https://www.google.com/search?q=diagnostics.wadcfg
traceListenerCollection.Add(new DiagnosticMonitorTraceListener());
}
}
public RedirectOutput()
{
_oldOut = Console.Out;
_oldError = Console.Error;
_oldListeners = Trace.Listeners;
StdOut = new StringWriter(CultureInfo.CurrentCulture);
Console.SetOut(StdOut);
StdError = new StringWriter(CultureInfo.CurrentCulture);
Console.SetError(StdError);
DebugTrace = new StringWriter(CultureInfo.CurrentCulture);
Trace.Listeners.Clear();
Trace.Listeners.Add(new TextWriterTraceListener(DebugTrace));
}
/// <summary>
/// Initializes a new instance of the <see cref="Logger"/> class with the specified <paramref name="name"/> and logging <paramref name="level"/>.
/// </summary>
/// <param name="name">The name of the logger.</param>
/// <param name="level">The log level of the logger.</param>
/// <param name="listeners">The underlying set of trace listeners.</param>
public Logger(String name, SourceLevels level, TraceListenerCollection listeners)
{
Verify.NotNullOrWhiteSpace(name, nameof(name));
// Create the trace source.
traceSource = new TraceSource(name, level);
// Configure trace source listeners.
traceSource.Listeners.Clear();
traceSource.Listeners.AddRange(listeners);
// Determine supported log operations.
fatalEnabled = (level & SourceLevels.Critical) == SourceLevels.Critical;
errorEnabled = (level & SourceLevels.Error) == SourceLevels.Error;
warnEnabled = (level & SourceLevels.Warning) == SourceLevels.Warning;
infoEnabled = (level & SourceLevels.Information) == SourceLevels.Information;
debugEnabled = (level & SourceLevels.Verbose) == SourceLevels.Verbose;
activityEnabled = (level & SourceLevels.ActivityTracing) == SourceLevels.ActivityTracing;
traceEnabled = (level & SourceLevels.All) == SourceLevels.All;
}
public TraceListenerCollection GetRuntimeObject() {
TraceListenerCollection listeners = new TraceListenerCollection();
bool _isDemanded = false;
foreach(ListenerElement element in this) {
// At some point, we need to pull out adding/removing the 'default' DefaultTraceListener
// code from here in favor of adding/not-adding after we load the config (in TraceSource
// and in static Trace)
if (!_isDemanded && !element._isAddedByDefault) {
// Do a full damand; This will disable partially trusted code from hooking up listeners
new SecurityPermission(SecurityPermissionFlag.UnmanagedCode).Demand();
_isDemanded = true;
}
listeners.Add(element.GetRuntimeObject());
}
return listeners;
}
private void Initialize() {
if (!_initCalled) {
lock(this) {
if (_initCalled)
return;
SourceElementsCollection sourceElements = DiagnosticsConfiguration.Sources;
if (sourceElements != null) {
SourceElement sourceElement = sourceElements[sourceName];
if (sourceElement != null) {
if (!String.IsNullOrEmpty(sourceElement.SwitchName)) {
CreateSwitch(sourceElement.SwitchType, sourceElement.SwitchName);
}
else {
CreateSwitch(sourceElement.SwitchType, sourceName);
if (!String.IsNullOrEmpty(sourceElement.SwitchValue))
internalSwitch.Level = (SourceLevels) Enum.Parse(typeof(SourceLevels), sourceElement.SwitchValue);
}
listeners = sourceElement.Listeners.GetRuntimeObject();
attributes = new StringDictionary();
TraceUtils.VerifyAttributes(sourceElement.Attributes, GetSupportedAttributes(), this);
attributes.contents = sourceElement.Attributes;
}
else
NoConfigInit();
}
else
NoConfigInit();
_initCalled = true;
}
}
}
private void Initialize()
{
if (!this._initCalled)
{
lock (this)
{
if (!this._initCalled)
{
SourceElementsCollection sources = DiagnosticsConfiguration.Sources;
if (sources != null)
{
SourceElement element = sources[this.sourceName];
if (element != null)
{
if (!string.IsNullOrEmpty(element.SwitchName))
{
this.CreateSwitch(element.SwitchType, element.SwitchName);
}
else
{
this.CreateSwitch(element.SwitchType, this.sourceName);
if (!string.IsNullOrEmpty(element.SwitchValue))
{
this.internalSwitch.Level = (SourceLevels) Enum.Parse(typeof(SourceLevels), element.SwitchValue);
}
}
this.listeners = element.Listeners.GetRuntimeObject();
this.attributes = new StringDictionary();
TraceUtils.VerifyAttributes(element.Attributes, this.GetSupportedAttributes(), this);
this.attributes.ReplaceHashtable(element.Attributes);
}
else
{
this.NoConfigInit();
}
}
else
{
this.NoConfigInit();
}
this._initCalled = true;
}
}
}
}
private void NoConfigInit()
{
_internalSwitch = new SourceSwitch(_sourceName, _switchLevel.ToString());
_listeners = new TraceListenerCollection();
_listeners.Add(new DefaultTraceListener());
}
public void AddRange (TraceListenerCollection value)
{
InitializeRange (value);
listeners.AddRange (value.listeners);
}
// This method refreshes all the data from the configuration file, so that updated to the configuration file are mirrored
// in the System.Diagnostics.Trace class
static internal void Refresh() {
lock (critSec) {
#if CONFIGURATION_DEP
settingsInitialized = false;
#endif
listeners = null;
}
InitializeSettings();
}
// This method refreshes all the data from the configuration file, so that updated to the configuration file are mirrored
// in the System.Diagnostics.Trace class
static internal void Refresh() {
lock (critSec) {
settingsInitialized = false;
listeners = null;
}
InitializeSettings();
}
public void AddRange(TraceListenerCollection value)
{
InitializeRange(value);
listeners.AddRange(value.listeners);
}
public TraceSourceInfo (string name, SourceLevels levels)
{
this.name = name;
this.levels = levels;
this.listeners = new TraceListenerCollection ();
}
private void NoConfigInit()
{
this.internalSwitch = new SourceSwitch(this.sourceName, this.switchLevel.ToString());
this.listeners = new TraceListenerCollection();
this.listeners.Add(new DefaultTraceListener());
this.attributes = null;
}
// only defines "add" and "remove", but "clear" also works
// for add, "name" is required; initializeData is optional; "type" is required in 1.x, optional in 2.0.
private void AddTraceListeners (IDictionary d, XmlNode listenersNode, TraceListenerCollection listeners)
{
#if !TARGET_JVM
// There are no attributes on <listeners/>
ValidateInvalidAttributes (listenersNode.Attributes, listenersNode);
foreach (XmlNode child in listenersNode.ChildNodes) {
XmlNodeType t = child.NodeType;
if (t == XmlNodeType.Whitespace || t == XmlNodeType.Comment)
continue;
if (t == XmlNodeType.Element) {
XmlAttributeCollection attributes = child.Attributes;
string name = null;
switch (child.Name) {
case "add":
AddTraceListener (d, child, attributes, listeners);
break;
case "remove":
name = GetAttribute (attributes, "name", true, child);
RemoveTraceListener (name);
break;
case "clear":
configValues.Listeners.Clear ();
break;
default:
ThrowUnrecognizedElement (child);
break;
}
ValidateInvalidAttributes (attributes, child);
}
else
ThrowUnrecognizedNode (child);
}
#endif
}
private void NoConfigInit()
{
_internalSwitch = new SourceSwitch(_sourceName, _switchLevel.ToString());
_listeners = new TraceListenerCollection();
_listeners.Add(new DefaultTraceListener());
}
static TraceImpl()
{
listeners = new TraceListenerCollection(true);
}
private void AddTraceListener(IDictionary d, XmlNode child, XmlAttributeCollection attributes, TraceListenerCollection listeners)
{
string name = GetAttribute(attributes, "name", true, child);
string type = null;
#if CONFIGURATION_DEP
type = GetAttribute(attributes, "type", false, child);
if (type == null)
{
// indicated by name.
TraceListener shared = GetSharedListeners(d) [name];
if (shared == null)
{
throw new ConfigurationException(String.Format("Shared trace listener {0} does not exist.", name));
}
if (attributes.Count != 0)
{
throw new ConfigurationErrorsException(string.Format(
"Listener '{0}' references a shared " +
"listener and can only have a 'Name' " +
"attribute.", name));
}
listeners.Add(shared, configValues);
return;
}
#else
type = GetAttribute(attributes, "type", true, child);
#endif
Type t = Type.GetType(type);
if (t == null)
{
throw new ConfigurationException(string.Format("Invalid Type Specified: {0}", type));
}
object[] args;
Type[] types;
string initializeData = GetAttribute(attributes, "initializeData", false, child);
if (initializeData != null)
{
args = new object[] { initializeData };
types = new Type[] { typeof(string) };
}
else
{
args = null;
types = Type.EmptyTypes;
}
BindingFlags flags = BindingFlags.Public | BindingFlags.Instance;
if (t.Assembly == GetType().Assembly)
{
flags |= BindingFlags.NonPublic;
}
ConstructorInfo ctor = t.GetConstructor(flags, null, types, null);
if (ctor == null)
{
throw new ConfigurationException("Couldn't find constructor for class " + type);
}
TraceListener l = (TraceListener)ctor.Invoke(args);
l.Name = name;
#if CONFIGURATION_DEP
string trace = GetAttribute(attributes, "traceOutputOptions", false, child);
if (trace != null)
{
if (trace != trace.Trim())
{
throw new ConfigurationErrorsException(string.Format(
"Invalid value '{0}' for 'traceOutputOptions'.",
trace), child);
}
TraceOptions trace_options;
try {
trace_options = (TraceOptions)Enum.Parse(
typeof(TraceOptions), trace);
} catch (ArgumentException) {
throw new ConfigurationErrorsException(string.Format(
"Invalid value '{0}' for 'traceOutputOptions'.",
trace), child);
}
l.TraceOutputOptions = trace_options;
}
string [] supported_attributes = l.GetSupportedAttributes();
if (supported_attributes != null)
{
for (int i = 0; i < supported_attributes.Length; i++)
{
string key = supported_attributes [i];
string value = GetAttribute(attributes, key, false, child);
if (value != null)
{
l.Attributes.Add(key, value);
}
}
}
#endif
listeners.Add(l, configValues);
}
internal void Refresh()
{
if (!this._initCalled)
{
this.Initialize();
}
else
{
SourceElementsCollection sources = DiagnosticsConfiguration.Sources;
if (sources != null)
{
SourceElement element = sources[this.Name];
if (element != null)
{
if ((string.IsNullOrEmpty(element.SwitchType) && (this.internalSwitch.GetType() != typeof(SourceSwitch))) || (element.SwitchType != this.internalSwitch.GetType().AssemblyQualifiedName))
{
if (!string.IsNullOrEmpty(element.SwitchName))
{
this.CreateSwitch(element.SwitchType, element.SwitchName);
}
else
{
this.CreateSwitch(element.SwitchType, this.Name);
if (!string.IsNullOrEmpty(element.SwitchValue))
{
this.internalSwitch.Level = (SourceLevels) Enum.Parse(typeof(SourceLevels), element.SwitchValue);
}
}
}
else if (!string.IsNullOrEmpty(element.SwitchName))
{
if (element.SwitchName != this.internalSwitch.DisplayName)
{
this.CreateSwitch(element.SwitchType, element.SwitchName);
}
else
{
this.internalSwitch.Refresh();
}
}
else if (!string.IsNullOrEmpty(element.SwitchValue))
{
this.internalSwitch.Level = (SourceLevels) Enum.Parse(typeof(SourceLevels), element.SwitchValue);
}
else
{
this.internalSwitch.Level = SourceLevels.Off;
}
TraceListenerCollection listeners = new TraceListenerCollection();
foreach (ListenerElement element2 in element.Listeners)
{
TraceListener listener = this.listeners[element2.Name];
if (listener != null)
{
listeners.Add(element2.RefreshRuntimeObject(listener));
}
else
{
listeners.Add(element2.GetRuntimeObject());
}
}
TraceUtils.VerifyAttributes(element.Attributes, this.GetSupportedAttributes(), this);
this.attributes = new StringDictionary();
this.attributes.ReplaceHashtable(element.Attributes);
this.listeners = listeners;
}
else
{
this.internalSwitch.Level = this.switchLevel;
this.listeners.Clear();
this.attributes = null;
}
}
}
}
internal void Refresh()
{
if (!_initCalled)
{
Initialize();
return;
}
SourceElementsCollection sources = DiagnosticsConfiguration.Sources;
if (sources != null)
{
SourceElement sourceElement = sources[Name];
if (sourceElement != null)
{
// first check if the type changed
if ((String.IsNullOrEmpty(sourceElement.SwitchType) && internalSwitch.GetType() != typeof(SourceSwitch)) ||
(sourceElement.SwitchType != internalSwitch.GetType().AssemblyQualifiedName))
{
if (!String.IsNullOrEmpty(sourceElement.SwitchName))
{
CreateSwitch(sourceElement.SwitchType, sourceElement.SwitchName);
}
else
{
CreateSwitch(sourceElement.SwitchType, Name);
if (!String.IsNullOrEmpty(sourceElement.SwitchValue))
{
internalSwitch.Level = (SourceLevels)Enum.Parse(typeof(SourceLevels), sourceElement.SwitchValue);
}
}
}
else if (!String.IsNullOrEmpty(sourceElement.SwitchName))
{
// create a new switch if the name changed, otherwise just refresh.
if (sourceElement.SwitchName != internalSwitch.DisplayName)
{
CreateSwitch(sourceElement.SwitchType, sourceElement.SwitchName);
}
else
{
internalSwitch.Refresh();
}
}
else
{
// the switchValue changed. Just update our internalSwitch.
if (!String.IsNullOrEmpty(sourceElement.SwitchValue))
{
internalSwitch.Level = (SourceLevels)Enum.Parse(typeof(SourceLevels), sourceElement.SwitchValue);
}
else
{
internalSwitch.Level = SourceLevels.Off;
}
}
TraceListenerCollection newListenerCollection = new TraceListenerCollection();
foreach (ListenerElement listenerElement in sourceElement.Listeners)
{
TraceListener listener = listeners[listenerElement.Name];
if (listener != null)
{
newListenerCollection.Add(listenerElement.RefreshRuntimeObject(listener));
}
else
{
newListenerCollection.Add(listenerElement.GetRuntimeObject());
}
}
TraceUtils.VerifyAttributes(sourceElement.Attributes, GetSupportedAttributes(), this);
attributes = new StringDictionary();
attributes.contents = sourceElement.Attributes;
listeners = newListenerCollection;
}
else
{
// there was no config, so clear whatever we have.
internalSwitch.Level = switchLevel;
listeners.Clear();
attributes = null;
}
}
}
public void AddRange(System.Diagnostics.TraceListenerCollection value)
{
}
public void AddRange(TraceListenerCollection value)
{
Contract.Requires(value != null);
}
//---------------------------------------------------------------------
public static SysDiag.TraceListener[] Copy(SysDiag.TraceListenerCollection listeners)
{
SysDiag.TraceListener[] array = new SysDiag.TraceListener[listeners.Count];
listeners.CopyTo(array, 0);
return(array);
}
// Initialize the world.
//
// This logically belongs in the static constructor (as it only needs
// to be done once), except for one thing: if the .config file has a
// syntax error, .NET throws a ConfigurationException. If we read the
// .config file in the static ctor, we throw a ConfigurationException
// from the static ctor, which results in a TypeLoadException. Oops.
// Reading the .config file here will allow the static ctor to
// complete successfully, allowing us to throw a normal
// ConfigurationException should the .config file contain an error.
//
// There are also some ordering issues.
//
// The DiagnosticsConfigurationHandler assumes that the TraceImpl.Listeners
// collection exists (so it can initialize the DefaultTraceListener and
// add/remove existing listeners).
private static object InitOnce()
{
object d = null;
#if !NO_LOCK_FREE
// The lock-free version
if (listeners == null)
{
var c = new TraceListenerCollection();
Thread.MemoryBarrier();
while (Interlocked.CompareExchange(ref listeners, c, null) == null)
{
// Read in the .config file and get the ball rolling...
// d = DiagnosticsConfiguration.Settings;
}
Thread.MemoryBarrier();
}
#else
// The lock version (saved for posterity and potential debugging)
lock (lock_) {
if (listeners == null) {
listeners = new TraceListenerCollection ();
// Read in the .config file and get the ball rolling...
d = DiagnosticsConfiguration.Settings;
}
}
#endif
return d;
}
private TraceListenerCollection GetSharedListeners (IDictionary d)
{
TraceListenerCollection shared_listeners = d ["sharedListeners"] as TraceListenerCollection;
if (shared_listeners == null) {
shared_listeners = new TraceListenerCollection (false);
d ["sharedListeners"] = shared_listeners;
}
return shared_listeners;
}
static TraceImpl ()
{
listeners = new TraceListenerCollection (true);
}
private void AddTraceListener (IDictionary d, XmlNode child, XmlAttributeCollection attributes, TraceListenerCollection listeners)
{
string name = GetAttribute (attributes, "name", true, child);
string type = null;
#if NET_2_0 && CONFIGURATION_DEP
type = GetAttribute (attributes, "type", false, child);
if (type == null) {
// indicated by name.
TraceListener shared = GetSharedListeners (d) [name];
if (shared == null)
throw new ConfigurationException (String.Format ("Shared trace listener {0} does not exist.", name));
if (attributes.Count != 0)
throw new ConfigurationErrorsException (string.Format (
"Listener '{0}' references a shared " +
"listener and can only have a 'Name' " +
"attribute.", name));
listeners.Add (shared, configValues);
return;
}
#else
type = GetAttribute (attributes, "type", true, child);
#endif
Type t = Type.GetType (type);
if (t == null)
throw new ConfigurationException (string.Format ("Invalid Type Specified: {0}", type));
object[] args;
Type[] types;
string initializeData = GetAttribute (attributes, "initializeData", false, child);
if (initializeData != null) {
args = new object[] { initializeData };
types = new Type[] { typeof(string) };
} else {
args = null;
types = Type.EmptyTypes;
}
BindingFlags flags = BindingFlags.Public | BindingFlags.Instance;
if (t.Assembly == GetType ().Assembly)
flags |= BindingFlags.NonPublic;
ConstructorInfo ctor = t.GetConstructor (flags, null, types, null);
if (ctor == null)
throw new ConfigurationException ("Couldn't find constructor for class " + type);
TraceListener l = (TraceListener) ctor.Invoke (args);
l.Name = name;
#if NET_2_0 && CONFIGURATION_DEP
string trace = GetAttribute (attributes, "traceOutputOptions", false, child);
if (trace != null) {
if (trace != trace.Trim ())
throw new ConfigurationErrorsException (string.Format (
"Invalid value '{0}' for 'traceOutputOptions'.",
trace), child);
TraceOptions trace_options;
try {
trace_options = (TraceOptions) Enum.Parse (
typeof (TraceOptions), trace);
} catch (ArgumentException) {
throw new ConfigurationErrorsException (string.Format (
"Invalid value '{0}' for 'traceOutputOptions'.",
trace), child);
}
l.TraceOutputOptions = trace_options;
}
string [] supported_attributes = l.GetSupportedAttributes ();
if (supported_attributes != null) {
for (int i = 0; i < supported_attributes.Length; i++) {
string key = supported_attributes [i];
string value = GetAttribute (attributes, key, false, child);
if (value != null)
l.Attributes.Add (key, value);
}
}
#endif
listeners.Add (l, configValues);
}
public LogModel(TraceListenerCollection traceListenerCollection)
{
traceListenerCollection.Add(this);
}
// Initialize the world.
//
// This logically belongs in the static constructor (as it only needs
// to be done once), except for one thing: if the .config file has a
// syntax error, .NET throws a ConfigurationException. If we read the
// .config file in the static ctor, we throw a ConfigurationException
// from the static ctor, which results in a TypeLoadException. Oops.
// Reading the .config file here will allow the static ctor to
// complete successfully, allowing us to throw a normal
// ConfigurationException should the .config file contain an error.
//
// There are also some ordering issues.
//
// DiagnosticsConfigurationHandler doesn't store values within TraceImpl,
// but instead stores values it reads from the .config file within a
// TraceImplSettings object (accessible via the TraceImplSettings.Key key
// in the IDictionary returned).
private static void InitOnce ()
{
if (initLock != null) {
lock (initLock) {
if (listeners == null) {
IDictionary d = DiagnosticsConfiguration.Settings;
TraceImplSettings s = (TraceImplSettings) d [TraceImplSettings.Key];
d.Remove (TraceImplSettings.Key);
autoFlush = s.AutoFlush;
indentLevel = s.IndentLevel;
indentSize = s.IndentSize;
listeners = s.Listeners;
}
}
initLock = null;
}
}
public TraceSourceInfo(string name, SourceLevels levels)
{
this.name = name;
this.levels = levels;
this.listeners = new TraceListenerCollection();
}
