//------------------------------------------------------------------------------
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
// [....]
//------------------------------------------------------------------------------
namespace System.Data.ProviderBase {
using System;
using System.Collections;
using System.Data.Common;
using System.Diagnostics;
using System.Globalization;
using System.Reflection;
using System.Runtime.ConstrainedExecution;
using System.Security;
using System.Security.Permissions;
using System.Security.Principal;
using System.Runtime.Versioning;
internal abstract class DbConnectionPoolCounters {
private static class CreationData {
static internal readonly CounterCreationData HardConnectsPerSecond = new CounterCreationData(
"HardConnectsPerSecond",
"The number of actual connections per second that are being made to servers",
PerformanceCounterType.RateOfCountsPerSecond32);
static internal readonly CounterCreationData HardDisconnectsPerSecond = new CounterCreationData(
"HardDisconnectsPerSecond",
"The number of actual disconnects per second that are being made to servers",
PerformanceCounterType.RateOfCountsPerSecond32);
static internal readonly CounterCreationData SoftConnectsPerSecond = new CounterCreationData(
"SoftConnectsPerSecond",
"The number of connections we get from the pool per second",
PerformanceCounterType.RateOfCountsPerSecond32);
static internal readonly CounterCreationData SoftDisconnectsPerSecond = new CounterCreationData(
"SoftDisconnectsPerSecond",
"The number of connections we return to the pool per second",
PerformanceCounterType.RateOfCountsPerSecond32);
static internal readonly CounterCreationData NumberOfNonPooledConnections = new CounterCreationData(
"NumberOfNonPooledConnections",
"The number of connections that are not using connection pooling",
PerformanceCounterType.NumberOfItems32);
static internal readonly CounterCreationData NumberOfPooledConnections = new CounterCreationData(
"NumberOfPooledConnections",
"The number of connections that are managed by the connection pooler",
PerformanceCounterType.NumberOfItems32);
static internal readonly CounterCreationData NumberOfActiveConnectionPoolGroups = new CounterCreationData(
"NumberOfActiveConnectionPoolGroups",
"The number of unique connection strings",
PerformanceCounterType.NumberOfItems32);
static internal readonly CounterCreationData NumberOfInactiveConnectionPoolGroups = new CounterCreationData(
"NumberOfInactiveConnectionPoolGroups",
"The number of unique connection strings waiting for pruning",
PerformanceCounterType.NumberOfItems32);
static internal readonly CounterCreationData NumberOfActiveConnectionPools = new CounterCreationData(
"NumberOfActiveConnectionPools",
"The number of connection pools",
PerformanceCounterType.NumberOfItems32);
static internal readonly CounterCreationData NumberOfInactiveConnectionPools = new CounterCreationData(
"NumberOfInactiveConnectionPools",
"The number of connection pools",
PerformanceCounterType.NumberOfItems32);
static internal readonly CounterCreationData NumberOfActiveConnections = new CounterCreationData(
"NumberOfActiveConnections",
"The number of connections currently in-use",
PerformanceCounterType.NumberOfItems32);
static internal readonly CounterCreationData NumberOfFreeConnections = new CounterCreationData(
"NumberOfFreeConnections",
"The number of connections currently available for use",
PerformanceCounterType.NumberOfItems32);
static internal readonly CounterCreationData NumberOfStasisConnections = new CounterCreationData(
"NumberOfStasisConnections",
"The number of connections currently waiting to be made ready for use",
PerformanceCounterType.NumberOfItems32);
static internal readonly CounterCreationData NumberOfReclaimedConnections = new CounterCreationData(
"NumberOfReclaimedConnections",
"The number of connections we reclaim from GC'd external connections",
PerformanceCounterType.NumberOfItems32);
};
sealed internal class Counter {
private PerformanceCounter _instance;
internal Counter (string categoryName, string instanceName, string counterName, PerformanceCounterType counterType) {
if (ADP.IsPlatformNT5) {
try {
if (!ADP.IsEmpty(categoryName) && !ADP.IsEmpty(instanceName)) {
PerformanceCounter instance = new PerformanceCounter();
instance.CategoryName = categoryName;
instance.CounterName = counterName;
instance.InstanceName = instanceName;
instance.InstanceLifetime = PerformanceCounterInstanceLifetime.Process;
instance.ReadOnly = false;
instance.RawValue = 0; // make sure we start out at zero
_instance = instance;
}
}
catch (InvalidOperationException e) {
ADP.TraceExceptionWithoutRethrow(e);
//
}
}
}
internal void Decrement() {
PerformanceCounter instance = _instance;
if (null != instance) {
instance.Decrement();
}
}
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.MayFail)]
internal void Dispose () { //
PerformanceCounter instance = _instance;
_instance = null;
if (null != instance) {
instance.RemoveInstance();
// should we be calling instance.Close?
// if we do will it exacerbate the Dispose vs. Decrement race condition
//instance.Close();
}
}
internal void Increment() {
PerformanceCounter instance = _instance;
if (null != instance) {
instance.Increment();
}
}
};
const int CounterInstanceNameMaxLength = 127;
internal readonly Counter HardConnectsPerSecond;
internal readonly Counter HardDisconnectsPerSecond;
internal readonly Counter SoftConnectsPerSecond;
internal readonly Counter SoftDisconnectsPerSecond;
internal readonly Counter NumberOfNonPooledConnections;
internal readonly Counter NumberOfPooledConnections;
internal readonly Counter NumberOfActiveConnectionPoolGroups;
internal readonly Counter NumberOfInactiveConnectionPoolGroups;
internal readonly Counter NumberOfActiveConnectionPools;
internal readonly Counter NumberOfInactiveConnectionPools;
internal readonly Counter NumberOfActiveConnections;
internal readonly Counter NumberOfFreeConnections;
internal readonly Counter NumberOfStasisConnections;
internal readonly Counter NumberOfReclaimedConnections;
protected DbConnectionPoolCounters() : this(null, null) {
}
protected DbConnectionPoolCounters(string categoryName, string categoryHelp) {
AppDomain.CurrentDomain.DomainUnload += new EventHandler(this.UnloadEventHandler);
AppDomain.CurrentDomain.ProcessExit += new EventHandler(this.ExitEventHandler);
AppDomain.CurrentDomain.UnhandledException += new UnhandledExceptionEventHandler(this.ExceptionEventHandler);
string instanceName = null;
if (!ADP.IsEmpty(categoryName)) {
if (ADP.IsPlatformNT5) {
instanceName = GetInstanceName();
}
}
// level 0-3: hard connects/disconnects, plus basic pool/pool entry statistics
string basicCategoryName = categoryName;
HardConnectsPerSecond = new Counter(basicCategoryName, instanceName, CreationData.HardConnectsPerSecond.CounterName, CreationData.HardConnectsPerSecond.CounterType);
HardDisconnectsPerSecond = new Counter(basicCategoryName, instanceName, CreationData.HardDisconnectsPerSecond.CounterName, CreationData.HardDisconnectsPerSecond.CounterType);
NumberOfNonPooledConnections = new Counter(basicCategoryName, instanceName, CreationData.NumberOfNonPooledConnections.CounterName, CreationData.NumberOfNonPooledConnections.CounterType);
NumberOfPooledConnections = new Counter(basicCategoryName, instanceName, CreationData.NumberOfPooledConnections.CounterName, CreationData.NumberOfPooledConnections.CounterType);
NumberOfActiveConnectionPoolGroups = new Counter(basicCategoryName, instanceName, CreationData.NumberOfActiveConnectionPoolGroups.CounterName, CreationData.NumberOfActiveConnectionPoolGroups.CounterType);
NumberOfInactiveConnectionPoolGroups = new Counter(basicCategoryName, instanceName, CreationData.NumberOfInactiveConnectionPoolGroups.CounterName, CreationData.NumberOfInactiveConnectionPoolGroups.CounterType);
NumberOfActiveConnectionPools = new Counter(basicCategoryName, instanceName, CreationData.NumberOfActiveConnectionPools.CounterName, CreationData.NumberOfActiveConnectionPools.CounterType);
NumberOfInactiveConnectionPools = new Counter(basicCategoryName, instanceName, CreationData.NumberOfInactiveConnectionPools.CounterName, CreationData.NumberOfInactiveConnectionPools.CounterType);
NumberOfStasisConnections = new Counter(basicCategoryName, instanceName, CreationData.NumberOfStasisConnections.CounterName, CreationData.NumberOfStasisConnections.CounterType);
NumberOfReclaimedConnections = new Counter(basicCategoryName, instanceName, CreationData.NumberOfReclaimedConnections.CounterName, CreationData.NumberOfReclaimedConnections.CounterType);
// level 4: expensive stuff
string verboseCategoryName = null;
if (!ADP.IsEmpty(categoryName)) {
// don't load TraceSwitch if no categoryName so that Odbc/OleDb have a chance of not loading TraceSwitch
// which are also used by System.Diagnostics.PerformanceCounter.ctor & System.Transactions.get_Current
TraceSwitch perfCtrSwitch = new TraceSwitch("ConnectionPoolPerformanceCounterDetail", "level of detail to track with connection pool performance counters");
if (TraceLevel.Verbose == perfCtrSwitch.Level) {
verboseCategoryName = categoryName;
}
}
SoftConnectsPerSecond = new Counter(verboseCategoryName, instanceName, CreationData.SoftConnectsPerSecond.CounterName, CreationData.SoftConnectsPerSecond.CounterType);
SoftDisconnectsPerSecond = new Counter(verboseCategoryName, instanceName, CreationData.SoftDisconnectsPerSecond.CounterName, CreationData.SoftDisconnectsPerSecond.CounterType);
NumberOfActiveConnections = new Counter(verboseCategoryName, instanceName, CreationData.NumberOfActiveConnections.CounterName, CreationData.NumberOfActiveConnections.CounterType);
NumberOfFreeConnections = new Counter(verboseCategoryName, instanceName, CreationData.NumberOfFreeConnections.CounterName, CreationData.NumberOfFreeConnections.CounterType);
}
[FileIOPermission(SecurityAction.Assert, Unrestricted=true)]
private string GetAssemblyName() {
string result = null;
// First try GetEntryAssembly name, then AppDomain.FriendlyName.
Assembly assembly = Assembly.GetEntryAssembly();
if (null != assembly) {
AssemblyName name = assembly.GetName();
if (name != null) {
result = name.Name; // MDAC 73469
}
}
return result;
}
// SxS: this method uses GetCurrentProcessId to construct the instance name.
//
[ResourceExposure(ResourceScope.None)]
[ResourceConsumption(ResourceScope.Process, ResourceScope.Process)]
private string GetInstanceName() {
string result = null;
string instanceName = GetAssemblyName(); // instance perfcounter name
if (ADP.IsEmpty(instanceName)) {
AppDomain appDomain = AppDomain.CurrentDomain;
if (null != appDomain) {
instanceName = appDomain.FriendlyName;
}
}
//
int pid = SafeNativeMethods.GetCurrentProcessId();
// SQLBUDT #366157 -there are several characters which have special meaning
// to PERFMON. They recommend that we translate them as shown below, to
// prevent problems.
result = String.Format((IFormatProvider)null, "{0}[{1}]", instanceName, pid);
result = result.Replace('(','[').Replace(')',']').Replace('#','_').Replace('/','_').Replace('\\','_');
// SQLBUVSTS #94625 - counter instance name cannot be greater than 127
if (result.Length > CounterInstanceNameMaxLength) {
// Replacing the middle part with "[...]"
// For example: if path is c:\long_path\very_(Ax200)_long__path\perftest.exe and process ID is 1234 than the resulted instance name will be:
// c:\long_path\very_(AxM)[...](AxN)_long__path\perftest.exe[1234]
// while M and N are adjusted to make each part before and after the [...] = 61 (making the total = 61 + 5 + 61 = 127)
const string insertString = "[...]";
int firstPartLength = (CounterInstanceNameMaxLength - insertString.Length) / 2;
int lastPartLength = CounterInstanceNameMaxLength - firstPartLength - insertString.Length;
result = string.Format((IFormatProvider)null, "{0}{1}{2}",
result.Substring(0, firstPartLength),
insertString,
result.Substring(result.Length - lastPartLength, lastPartLength));
Debug.Assert(result.Length == CounterInstanceNameMaxLength,
string.Format((IFormatProvider)null, "wrong calculation of the instance name: expected {0}, actual: {1}", CounterInstanceNameMaxLength, result.Length));
}
return result;
}
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.MayFail)]
public void Dispose() {
// ExceptionEventHandler with IsTerminiating may be called before
// the Connection Close is called or the variables are initialized
SafeDispose(HardConnectsPerSecond);
SafeDispose(HardDisconnectsPerSecond);
SafeDispose(SoftConnectsPerSecond);
SafeDispose(SoftDisconnectsPerSecond);
SafeDispose(NumberOfNonPooledConnections);
SafeDispose(NumberOfPooledConnections);
SafeDispose(NumberOfActiveConnectionPoolGroups);
SafeDispose(NumberOfInactiveConnectionPoolGroups);
SafeDispose(NumberOfActiveConnectionPools);
SafeDispose(NumberOfActiveConnections);
SafeDispose(NumberOfFreeConnections);
SafeDispose(NumberOfStasisConnections);
SafeDispose(NumberOfReclaimedConnections);
}
[ReliabilityContract(Consistency.WillNotCorruptState, Cer.MayFail)]
private void SafeDispose(Counter counter) { // WebData 103603
if (null != counter) {
counter.Dispose();
}
}
[PrePrepareMethod]
void ExceptionEventHandler (object sender, UnhandledExceptionEventArgs e) {
if ((null != e) && e.IsTerminating) {
Dispose();
}
}
[PrePrepareMethod]
void ExitEventHandler (object sender, EventArgs e) {
Dispose();
}
[PrePrepareMethod]
void UnloadEventHandler (object sender, EventArgs e) {
Dispose();
}
}
sealed internal class DbConnectionPoolCountersNoCounters : DbConnectionPoolCounters {
public static readonly DbConnectionPoolCountersNoCounters SingletonInstance = new DbConnectionPoolCountersNoCounters();
private DbConnectionPoolCountersNoCounters() : base () {
}
}
}