//
// Copyright (c) Microsoft. All rights reserved.
// Licensed under the MIT license. See LICENSE file in the project root for full license information.
//
using System;
using System.Collections.Concurrent;
using System.Collections.Generic;
using System.Data;
using System.Data.Common;
using Microsoft.Data.SqlClient;
using System.Globalization;
using System.Linq;
using System.Threading;
using System.Threading.Tasks;
using Microsoft.SqlTools.DataProtocol.Contracts.Connection;
using Microsoft.SqlTools.CoreServices.Connection.ReliableConnection;
using Microsoft.SqlTools.CoreServices.LanguageServices;
using Microsoft.SqlServer.Management.Common;
using Microsoft.SqlTools.Hosting.Utility;
using Microsoft.SqlTools.Hosting;
using Microsoft.SqlTools.Hosting.Protocol;
using Microsoft.SqlTools.CoreServices.LanguageServices.Contracts;
using ConnectionType = Microsoft.SqlTools.DataProtocol.Contracts.Connection.ConnectionType;
using Microsoft.SqlTools.Hosting.Extensibility;
using System.Composition;
using System.Diagnostics;
namespace Microsoft.SqlTools.CoreServices.Connection
{
///
/// Core Connection Management services, not including hosted service implementation
///
[Export(typeof(ConnectionServiceCore))]
public class ConnectionServiceCore : IComposableService
{
public const string AdminConnectionPrefix = "ADMIN:";
private const string SqlAzureEdition = "SQL Azure";
///
/// The SQL connection factory object
///
private ISqlConnectionFactory connectionFactory;
private DatabaseLocksManager lockedDatabaseManager;
private readonly Dictionary ownerToConnectionMap = new Dictionary();
///
/// A map containing all CancellationTokenSource objects that are associated with a given URI/ConnectionType pair.
/// Entries in this map correspond to DbConnection instances that are in the process of connecting.
///
private readonly ConcurrentDictionary cancelTupleToCancellationTokenSourceMap =
new ConcurrentDictionary();
private readonly object cancellationTokenSourceLock = new object();
private ConcurrentDictionary connectedQueues = new ConcurrentDictionary();
private IMultiServiceProvider serviceProvider;
///
/// Default constructor should be private since it's a singleton class, but we need a constructor
/// for use in unit test mocking.
///
public ConnectionServiceCore()
{
var defaultQueue = new ConnectedBindingQueue(needsMetadata: false);
connectedQueues.AddOrUpdate(ConnectionType.Default, defaultQueue, (key, old) => defaultQueue);
this.LockedDatabaseManager.ConnectionService = this;
}
///
/// Test constructor that injects dependency interfaces
///
///
public ConnectionServiceCore(ISqlConnectionFactory testFactory)
{
this.connectionFactory = testFactory;
}
public void SetServiceProvider(IMultiServiceProvider provider)
{
this.serviceProvider = provider;
}
///
/// Map from script URIs to ConnectionInfo objects
/// This is internal for testing access only
///
internal Dictionary OwnerToConnectionMap
{
get
{
return this.ownerToConnectionMap;
}
}
///
/// Database Lock manager instance
///
internal DatabaseLocksManager LockedDatabaseManager
{
get
{
if (lockedDatabaseManager == null)
{
lockedDatabaseManager = DatabaseLocksManager.Instance;
}
return lockedDatabaseManager;
}
set
{
this.lockedDatabaseManager = value;
}
}
///
/// Gets the connection queue
///
internal IConnectedBindingQueue ConnectionQueue
{
get
{
return this.GetConnectedQueue("Default");
}
}
///
/// Returns a connection queue for given type
///
///
///
public IConnectedBindingQueue GetConnectedQueue(string type)
{
IConnectedBindingQueue connectedBindingQueue;
if (connectedQueues.TryGetValue(type, out connectedBindingQueue))
{
return connectedBindingQueue;
}
return null;
}
///
/// Returns all the connection queues
///
public IEnumerable ConnectedQueues
{
get
{
return this.connectedQueues.Values;
}
}
///
/// Register a new connection queue if not already registered
///
///
///
public virtual void RegisterConnectedQueue(string type, IConnectedBindingQueue connectedQueue)
{
if (!connectedQueues.ContainsKey(type))
{
connectedQueues.AddOrUpdate(type, connectedQueue, (key, old) => connectedQueue);
}
}
///
/// Callback for onconnection handler
///
///
public delegate Task OnConnectionHandler(ConnectionInfo info);
///
/// Callback for ondisconnect handler
///
public delegate Task OnDisconnectHandler(IConnectionSummary summary, string ownerUri);
///
/// List of onconnection handlers
///
private readonly List onConnectionActivities = new List();
///
/// List of ondisconnect handlers
///
private readonly List onDisconnectActivities = new List();
///
/// Gets the SQL connection factory instance
///
public ISqlConnectionFactory ConnectionFactory
{
get
{
if (this.connectionFactory == null)
{
this.connectionFactory = new SqlConnectionFactory();
}
return this.connectionFactory;
}
internal set { this.connectionFactory = value; }
}
// Attempts to link a URI to an actively used connection for this URI
public virtual bool TryFindConnection(string ownerUri, out ConnectionInfo connectionInfo)
{
return this.ownerToConnectionMap.TryGetValue(ownerUri, out connectionInfo);
}
///
/// Validates the given ConnectParams object.
///
/// The params to validate
/// A ConnectionCompleteParams object upon validation error,
/// null upon validation success
public ConnectionCompleteParams ValidateConnectParams(ConnectParams connectionParams)
{
string paramValidationErrorMessage;
if (connectionParams == null)
{
return new ConnectionCompleteParams
{
Messages = SR.ConnectionServiceConnectErrorNullParams
};
}
if (!connectionParams.IsValid(out paramValidationErrorMessage))
{
return new ConnectionCompleteParams
{
OwnerUri = connectionParams.OwnerUri,
Messages = paramValidationErrorMessage
};
}
// return null upon success
return null;
}
///
/// Open a connection with the specified ConnectParams
///
public virtual async Task Connect(ConnectParams connectionParams)
{
// Validate parameters
ConnectionCompleteParams validationResults = ValidateConnectParams(connectionParams);
if (validationResults != null)
{
return validationResults;
}
TrySetConnectionType(connectionParams);
connectionParams.Connection.ApplicationName = GetApplicationNameWithFeature(connectionParams.Connection.ApplicationName, connectionParams.Purpose);
// If there is no ConnectionInfo in the map, create a new ConnectionInfo,
// but wait until later when we are connected to add it to the map.
ConnectionInfo connectionInfo;
bool connectionChanged = false;
if (!ownerToConnectionMap.TryGetValue(connectionParams.OwnerUri, out connectionInfo))
{
connectionInfo = new ConnectionInfo(ConnectionFactory, connectionParams.OwnerUri, connectionParams.Connection);
}
else if (IsConnectionChanged(connectionParams, connectionInfo))
{
// We are actively changing the connection information for this connection. We must disconnect
// all active connections, since it represents a full context change
connectionChanged = true;
}
DisconnectExistingConnectionIfNeeded(connectionParams, connectionInfo, disconnectAll: connectionChanged);
if (connectionChanged)
{
connectionInfo = new ConnectionInfo(ConnectionFactory, connectionParams.OwnerUri, connectionParams.Connection);
}
// Try to open a connection with the given ConnectParams
ConnectionCompleteParams response = await TryOpenConnection(connectionInfo, connectionParams);
if (response != null)
{
return response;
}
// If this is the first connection for this URI, add the ConnectionInfo to the map
bool addToMap = connectionChanged || !ownerToConnectionMap.ContainsKey(connectionParams.OwnerUri);
if (addToMap)
{
ownerToConnectionMap[connectionParams.OwnerUri] = connectionInfo;
}
// Return information about the connected SQL Server instance
ConnectionCompleteParams completeParams = GetConnectionCompleteParams(connectionParams.Type, connectionInfo);
// Invoke callback notifications
InvokeOnConnectionActivities(connectionInfo, connectionParams);
TryCloseConnectionTemporaryConnection(connectionParams, connectionInfo);
return completeParams;
}
private void TryCloseConnectionTemporaryConnection(ConnectParams connectionParams, ConnectionInfo connectionInfo)
{
try
{
if (connectionParams.Purpose == ConnectionType.ObjectExplorer || connectionParams.Purpose == ConnectionType.Dashboard || connectionParams.Purpose == ConnectionType.GeneralConnection)
{
DbConnection connection;
string type = connectionParams.Type;
if (connectionInfo.TryGetConnection(type, out connection))
{
// OE doesn't need to keep the connection open
connection.Close();
}
}
}
catch (Exception ex)
{
Logger.Write(TraceEventType.Information, "Failed to close temporary connections. error: " + ex.Message);
}
}
private static string GetApplicationNameWithFeature(string applicationName, string featureName)
{
string appNameWithFeature = applicationName;
if (!string.IsNullOrWhiteSpace(applicationName) && !string.IsNullOrWhiteSpace(featureName))
{
int index = applicationName.IndexOf('-');
string appName = applicationName;
if (index > 0)
{
appName = applicationName.Substring(0, index);
}
appNameWithFeature = $"{appName}-{featureName}";
}
return appNameWithFeature;
}
private void TrySetConnectionType(ConnectParams connectionParams)
{
if (connectionParams != null && connectionParams.Type == ConnectionType.Default && !string.IsNullOrWhiteSpace(connectionParams.OwnerUri))
{
if (connectionParams.OwnerUri.ToLowerInvariant().StartsWith("dashboard://"))
{
connectionParams.Purpose = ConnectionType.Dashboard;
}
else if (connectionParams.OwnerUri.ToLowerInvariant().StartsWith("connection://"))
{
connectionParams.Purpose = ConnectionType.GeneralConnection;
}
}
else if (connectionParams != null)
{
connectionParams.Purpose = connectionParams.Type;
}
}
private bool IsConnectionChanged(ConnectParams connectionParams, ConnectionInfo connectionInfo)
{
if (connectionInfo.HasConnectionType(connectionParams.Type)
&& !connectionInfo.ConnectionDetails.IsComparableTo(connectionParams.Connection))
{
return true;
}
return false;
}
private bool IsDefaultConnectionType(string connectionType)
{
return string.IsNullOrEmpty(connectionType) || ConnectionType.Default.Equals(connectionType, StringComparison.CurrentCultureIgnoreCase);
}
private void DisconnectExistingConnectionIfNeeded(ConnectParams connectionParams, ConnectionInfo connectionInfo, bool disconnectAll)
{
// Resolve if it is an existing connection
// Disconnect active connection if the URI is already connected for this connection type
DbConnection existingConnection;
if (connectionInfo.TryGetConnection(connectionParams.Type, out existingConnection))
{
var disconnectParams = new DisconnectParams()
{
OwnerUri = connectionParams.OwnerUri,
Type = disconnectAll ? null : connectionParams.Type
};
Disconnect(disconnectParams);
}
}
///
/// Creates a ConnectionCompleteParams as a response to a successful connection.
/// Also sets the DatabaseName and IsAzure properties of ConnectionInfo.
///
/// A ConnectionCompleteParams in response to the successful connection
private ConnectionCompleteParams GetConnectionCompleteParams(string connectionType, ConnectionInfo connectionInfo)
{
ConnectionCompleteParams response = new ConnectionCompleteParams { OwnerUri = connectionInfo.OwnerUri, Type = connectionType };
try
{
DbConnection connection;
connectionInfo.TryGetConnection(connectionType, out connection);
// Update with the actual database name in connectionInfo and result
// Doing this here as we know the connection is open - expect to do this only on connecting
connectionInfo.ConnectionDetails.DatabaseName = connection.Database;
if (!string.IsNullOrEmpty(connectionInfo.ConnectionDetails.ConnectionString))
{
// If the connection was set up with a connection string, use the connection string to get the details
var connectionString = new SqlConnectionStringBuilder(connection.ConnectionString);
response.ConnectionSummary = new ConnectionSummary
{
ServerName = connectionString.DataSource,
DatabaseName = connectionString.InitialCatalog,
UserName = connectionString.UserID
};
}
else
{
response.ConnectionSummary = new ConnectionSummary
{
ServerName = connectionInfo.ConnectionDetails.ServerName,
DatabaseName = connectionInfo.ConnectionDetails.DatabaseName,
UserName = connectionInfo.ConnectionDetails.UserName
};
}
response.ConnectionId = connectionInfo.ConnectionId.ToString();
var reliableConnection = connection as ReliableSqlConnection;
DbConnection underlyingConnection = reliableConnection != null
? reliableConnection.GetUnderlyingConnection()
: connection;
ReliableConnectionHelper.ServerInfo serverInfo = ReliableConnectionHelper.GetServerVersion(underlyingConnection);
response.ServerInfo = new ServerInfo
{
ServerMajorVersion = serverInfo.ServerMajorVersion,
ServerMinorVersion = serverInfo.ServerMinorVersion,
ServerReleaseVersion = serverInfo.ServerReleaseVersion,
EngineEditionId = serverInfo.EngineEditionId,
ServerVersion = serverInfo.ServerVersion,
ServerLevel = serverInfo.ServerLevel,
ServerEdition = MapServerEdition(serverInfo),
IsCloud = serverInfo.IsCloud,
AzureVersion = serverInfo.AzureVersion,
OsVersion = serverInfo.OsVersion,
MachineName = serverInfo.MachineName
};
connectionInfo.IsCloud = serverInfo.IsCloud;
connectionInfo.MajorVersion = serverInfo.ServerMajorVersion;
connectionInfo.IsSqlDb = serverInfo.EngineEditionId == (int)DatabaseEngineEdition.SqlDatabase;
connectionInfo.IsSqlDW = (serverInfo.EngineEditionId == (int)DatabaseEngineEdition.SqlDataWarehouse);
}
catch (Exception ex)
{
response.Messages = ex.ToString();
}
return response;
}
private string MapServerEdition(ReliableConnectionHelper.ServerInfo serverInfo)
{
string serverEdition = serverInfo.ServerEdition;
if (string.IsNullOrWhiteSpace(serverEdition))
{
return string.Empty;
}
if (SqlAzureEdition.Equals(serverEdition, StringComparison.OrdinalIgnoreCase))
{
switch(serverInfo.EngineEditionId)
{
case (int) DatabaseEngineEdition.SqlDataWarehouse:
serverEdition = SR.AzureSqlDwEdition;
break;
case (int)DatabaseEngineEdition.SqlStretchDatabase:
serverEdition = SR.AzureSqlStretchEdition;
break;
case (int)DatabaseEngineEdition.SqlOnDemand:
serverEdition = SR.AzureSqlAnalyticsOnDemandEdition;
break;
default:
serverEdition = SR.AzureSqlDbEdition;
break;
}
}
return serverEdition;
}
///
/// Tries to create and open a connection with the given ConnectParams.
///
/// null upon success, a ConnectionCompleteParams detailing the error upon failure
private async Task TryOpenConnection(ConnectionInfo connectionInfo, ConnectParams connectionParams)
{
CancellationTokenSource source = null;
DbConnection connection = null;
CancelTokenKey cancelKey = new CancelTokenKey { OwnerUri = connectionParams.OwnerUri, Type = connectionParams.Type };
ConnectionCompleteParams response = new ConnectionCompleteParams { OwnerUri = connectionInfo.OwnerUri, Type = connectionParams.Type };
bool? currentPooling = connectionInfo.ConnectionDetails.Pooling;
try
{
connectionInfo.ConnectionDetails.Pooling = false;
// build the connection string from the input parameters
string connectionString = BuildConnectionString(connectionInfo.ConnectionDetails);
// create a sql connection instance
connection = connectionInfo.Factory.CreateSqlConnection(connectionString);
connectionInfo.AddConnection(connectionParams.Type, connection);
// Add a cancellation token source so that the connection OpenAsync() can be cancelled
source = new CancellationTokenSource();
// Locking here to perform two operations as one atomic operation
lock (cancellationTokenSourceLock)
{
// If the URI is currently connecting from a different request, cancel it before we try to connect
CancellationTokenSource currentSource;
if (cancelTupleToCancellationTokenSourceMap.TryGetValue(cancelKey, out currentSource))
{
currentSource.Cancel();
}
cancelTupleToCancellationTokenSourceMap[cancelKey] = source;
}
// Open the connection
await connection.OpenAsync(source.Token);
}
catch (SqlException ex)
{
response.ErrorNumber = ex.Number;
response.ErrorMessage = ex.Message;
response.Messages = ex.ToString();
return response;
}
catch (OperationCanceledException)
{
// OpenAsync was cancelled
response.Messages = SR.ConnectionServiceConnectionCanceled;
return response;
}
catch (Exception ex)
{
response.ErrorMessage = ex.Message;
response.Messages = ex.ToString();
return response;
}
finally
{
// Remove our cancellation token from the map since we're no longer connecting
// Using a lock here to perform two operations as one atomic operation
lock (cancellationTokenSourceLock)
{
// Only remove the token from the map if it is the same one created by this request
CancellationTokenSource sourceValue;
if (cancelTupleToCancellationTokenSourceMap.TryGetValue(cancelKey, out sourceValue) && sourceValue == source)
{
cancelTupleToCancellationTokenSourceMap.TryRemove(cancelKey, out sourceValue);
}
source?.Dispose();
}
if (connectionInfo != null && connectionInfo.ConnectionDetails != null)
{
connectionInfo.ConnectionDetails.Pooling = currentPooling;
}
}
// Return null upon success
return null;
}
///
/// Gets the existing connection with the given URI and connection type string. If none exists,
/// creates a new connection. This cannot be used to create a default connection or to create a
/// connection if a default connection does not exist.
///
/// URI identifying the resource mapped to this connection
///
/// What the purpose for this connection is. A single resource
/// such as a SQL file may have multiple connections - one for Intellisense, another for query execution
///
///
/// Workaround for .Net Core clone connection issues: should persist security be used so that
/// when SMO clones connections it can do so without breaking on SQL Password connections.
/// This should be removed once the core issue is resolved and clone works as expected
///
/// A DB connection for the connection type requested
public virtual async Task GetOrOpenConnection(string ownerUri, string connectionType, bool alwaysPersistSecurity = false)
{
Validate.IsNotNullOrEmptyString(nameof(ownerUri), ownerUri);
Validate.IsNotNullOrEmptyString(nameof(connectionType), connectionType);
// Try to get the ConnectionInfo, if it exists
ConnectionInfo connectionInfo;
if (!ownerToConnectionMap.TryGetValue(ownerUri, out connectionInfo))
{
throw new ArgumentOutOfRangeException(SR.ConnectionServiceListDbErrorNotConnected(ownerUri));
}
// Make sure a default connection exists
DbConnection connection;
DbConnection defaultConnection;
if (!connectionInfo.TryGetConnection(ConnectionType.Default, out defaultConnection))
{
throw new InvalidOperationException(SR.ConnectionServiceDbErrorDefaultNotConnected(ownerUri));
}
if(IsDedicatedAdminConnection(connectionInfo.ConnectionDetails))
{
// Since this is a dedicated connection only 1 is allowed at any time. Return the default connection for use in the requested action
connection = defaultConnection;
}
else
{
// Try to get the DbConnection and create if it doesn't already exist
if (!connectionInfo.TryGetConnection(connectionType, out connection) && ConnectionType.Default != connectionType)
{
connection = await TryOpenConnectionForConnectionType(ownerUri, connectionType, alwaysPersistSecurity, connectionInfo);
}
}
VerifyConnectionOpen(connection);
return connection;
}
private async Task TryOpenConnectionForConnectionType(string ownerUri, string connectionType,
bool alwaysPersistSecurity, ConnectionInfo connectionInfo)
{
// If the DbConnection does not exist and is not the default connection, create one.
// We can't create the default (initial) connection here because we won't have a ConnectionDetails
// if Connect() has not yet been called.
bool? originalPersistSecurityInfo = connectionInfo.ConnectionDetails.PersistSecurityInfo;
if (alwaysPersistSecurity)
{
connectionInfo.ConnectionDetails.PersistSecurityInfo = true;
}
ConnectParams connectParams = new ConnectParams
{
OwnerUri = ownerUri,
Connection = connectionInfo.ConnectionDetails,
Type = connectionType
};
try
{
await Connect(connectParams);
}
finally
{
connectionInfo.ConnectionDetails.PersistSecurityInfo = originalPersistSecurityInfo;
}
DbConnection connection;
connectionInfo.TryGetConnection(connectionType, out connection);
return connection;
}
private void VerifyConnectionOpen(DbConnection connection)
{
if (connection == null)
{
// Ignore this connection
return;
}
if (connection.State != ConnectionState.Open)
{
// Note: this will fail and throw to the caller if something goes wrong.
// This seems the right thing to do but if this causes serviceability issues where stack trace
// is unexpected, might consider catching and allowing later code to fail. But given we want to get
// an opened connection for any action using this, it seems OK to handle in this manner
ClearPool(connection);
connection.Open();
}
}
///
/// Clears the connection pool if this is a SqlConnection of some kind.
///
private void ClearPool(DbConnection connection)
{
SqlConnection sqlConn;
if (TryGetAsSqlConnection(connection, out sqlConn))
{
SqlConnection.ClearPool(sqlConn);
}
}
private bool TryGetAsSqlConnection(DbConnection dbConn, out SqlConnection sqlConn)
{
ReliableSqlConnection reliableConn = dbConn as ReliableSqlConnection;
if (reliableConn != null)
{
sqlConn = reliableConn.GetUnderlyingConnection();
}
else
{
sqlConn = dbConn as SqlConnection;
}
return sqlConn != null;
}
///
/// Cancel a connection that is in the process of opening.
///
public bool CancelConnect(CancelConnectParams cancelParams)
{
// Validate parameters
if (cancelParams == null || string.IsNullOrEmpty(cancelParams.OwnerUri))
{
return false;
}
CancelTokenKey cancelKey = new CancelTokenKey
{
OwnerUri = cancelParams.OwnerUri,
Type = cancelParams.Type
};
// Cancel any current connection attempts for this URI
CancellationTokenSource source;
if (cancelTupleToCancellationTokenSourceMap.TryGetValue(cancelKey, out source))
{
try
{
source.Cancel();
return true;
}
catch
{
return false;
}
}
return false;
}
///
/// Close a connection with the specified connection details.
///
public virtual bool Disconnect(DisconnectParams disconnectParams)
{
// Validate parameters
if (disconnectParams == null || string.IsNullOrEmpty(disconnectParams.OwnerUri))
{
return false;
}
// Cancel if we are in the middle of connecting
if (CancelConnections(disconnectParams.OwnerUri, disconnectParams.Type))
{
return false;
}
// Lookup the ConnectionInfo owned by the URI
ConnectionInfo info;
if (!ownerToConnectionMap.TryGetValue(disconnectParams.OwnerUri, out info))
{
return false;
}
// Call Close() on the connections we want to disconnect
// If no connections were located, return false
if (!CloseConnections(info, disconnectParams.Type))
{
return false;
}
// Remove the disconnected connections from the ConnectionInfo map
if (disconnectParams.Type == null)
{
info.RemoveAllConnections();
}
else
{
info.RemoveConnection(disconnectParams.Type);
}
// If the ConnectionInfo has no more connections, remove the ConnectionInfo
if (info.CountConnections == 0)
{
ownerToConnectionMap.Remove(disconnectParams.OwnerUri);
}
// Handle Telemetry disconnect events if we are disconnecting the default connection
if (disconnectParams.Type == null || disconnectParams.Type == ConnectionType.Default)
{
HandleDisconnectTelemetry(info);
InvokeOnDisconnectionActivities(info);
}
// Return true upon success
return true;
}
///
/// Cancel connections associated with the given ownerUri.
/// If connectionType is not null, cancel the connection with the given connectionType
/// If connectionType is null, cancel all pending connections associated with ownerUri.
///
/// true if a single pending connection associated with the non-null connectionType was
/// found and cancelled, false otherwise
private bool CancelConnections(string ownerUri, string connectionType)
{
// Cancel the connection of the given type
if (connectionType != null)
{
// If we are trying to disconnect a specific connection and it was just cancelled,
// this will return true
return CancelConnect(new CancelConnectParams() { OwnerUri = ownerUri, Type = connectionType });
}
// Cancel all pending connections
foreach (var entry in cancelTupleToCancellationTokenSourceMap)
{
string entryConnectionUri = entry.Key.OwnerUri;
string entryConnectionType = entry.Key.Type;
if (ownerUri.Equals(entryConnectionUri))
{
CancelConnect(new CancelConnectParams() { OwnerUri = ownerUri, Type = entryConnectionType });
}
}
return false;
}
///
/// Closes DbConnections associated with the given ConnectionInfo.
/// If connectionType is not null, closes the DbConnection with the type given by connectionType.
/// If connectionType is null, closes all DbConnections.
///
/// true if connections were found and attempted to be closed,
/// false if no connections were found
private bool CloseConnections(ConnectionInfo connectionInfo, string connectionType)
{
ICollection connectionsToDisconnect = new List();
if (connectionType == null)
{
connectionsToDisconnect = connectionInfo.AllConnections;
}
else
{
// Make sure there is an existing connection of this type
DbConnection connection;
if (!connectionInfo.TryGetConnection(connectionType, out connection))
{
return false;
}
connectionsToDisconnect.Add(connection);
}
if (connectionsToDisconnect.Count == 0)
{
return false;
}
foreach (DbConnection connection in connectionsToDisconnect)
{
try
{
connection.Close();
}
catch (Exception)
{
// Ignore
}
}
return true;
}
///
/// List all databases on the server specified
///
public ListDatabasesResponse ListDatabases(ListDatabasesParams listDatabasesParams)
{
// Verify parameters
var owner = listDatabasesParams.OwnerUri;
if (string.IsNullOrEmpty(owner))
{
throw new ArgumentException(SR.ConnectionServiceListDbErrorNullOwnerUri);
}
// Use the existing connection as a base for the search
ConnectionInfo info;
if (!TryFindConnection(owner, out info))
{
throw new Exception(SR.ConnectionServiceListDbErrorNotConnected(owner));
}
ListDatabasesResponse response = new ListDatabasesResponse();
response.DatabaseNames = ListDatabasesFromConnInfo(info);
return response;
}
public string[] ListDatabasesFromConnInfo(ConnectionInfo info, bool includeSystemDBs = true)
{
ConnectionDetails connectionDetails = info.ConnectionDetails.Clone();
// Connect to master and query sys.databases
connectionDetails.DatabaseName = "master";
List dbNames = new List();
using (DbConnection connection = this.ConnectionFactory.CreateSqlConnection(BuildConnectionString(connectionDetails)))
using (DbCommand command = connection.CreateCommand())
{
connection.Open();
command.CommandText = @"SELECT name FROM sys.databases WHERE state_desc='ONLINE' ORDER BY name ASC";
command.CommandTimeout = 15;
command.CommandType = CommandType.Text;
using (DbDataReader reader = command.ExecuteReader())
{
while (reader.Read())
{
dbNames.Add(reader[0].ToString());
}
}
}
string[] results;
var systemDBSet = new HashSet(new[] {"master", "model", "msdb", "tempdb", "DWConfiguration", "DWDiagnostics", "DWQueue"});
if (includeSystemDBs)
{
// Put system databases at the top of the list
results =
dbNames.Where(s => systemDBSet.Contains(s))
.Concat(dbNames.Where(s => !systemDBSet.Contains(s)))
.ToArray();
}
else
{
results = dbNames.Where(s => !systemDBSet.Contains(s)).ToArray();
}
return results;
}
///
/// Add a new method to be called when the onconnection request is submitted
///
///
public void RegisterOnConnectionTask(OnConnectionHandler activity)
{
onConnectionActivities.Add(activity);
}
///
/// Add a new method to be called when the ondisconnect request is submitted
///
public void RegisterOnDisconnectTask(OnDisconnectHandler activity)
{
onDisconnectActivities.Add(activity);
}
///
/// Checks if a ConnectionDetails object represents a DAC connection
///
///
public static bool IsDedicatedAdminConnection(ConnectionDetails connectionDetails)
{
Validate.IsNotNull(nameof(connectionDetails), connectionDetails);
SqlConnectionStringBuilder builder = CreateConnectionStringBuilder(connectionDetails);
string serverName = builder.DataSource;
return serverName != null && serverName.StartsWith(AdminConnectionPrefix, StringComparison.OrdinalIgnoreCase);
}
///
/// Build a connection string from a connection details instance
///
///
public static string BuildConnectionString(ConnectionDetails connectionDetails)
{
return CreateConnectionStringBuilder(connectionDetails).ToString();
}
///
/// Build a connection string builder a connection details instance
///
///
public static SqlConnectionStringBuilder CreateConnectionStringBuilder(ConnectionDetails connectionDetails)
{
SqlConnectionStringBuilder connectionBuilder;
// If connectionDetails has a connection string already, use it to initialize the connection builder, then override any provided options.
// Otherwise use the server name, username, and password from the connection details.
if (!string.IsNullOrEmpty(connectionDetails.ConnectionString))
{
connectionBuilder = new SqlConnectionStringBuilder(connectionDetails.ConnectionString);
}
else
{
// add alternate port to data source property if provided
string dataSource = !connectionDetails.Port.HasValue
? connectionDetails.ServerName
: string.Format("{0},{1}", connectionDetails.ServerName, connectionDetails.Port.Value);
connectionBuilder = new SqlConnectionStringBuilder
{
["Data Source"] = dataSource,
["User Id"] = connectionDetails.UserName,
["Password"] = connectionDetails.Password
};
}
// Check for any optional parameters
if (!string.IsNullOrEmpty(connectionDetails.DatabaseName))
{
connectionBuilder["Initial Catalog"] = connectionDetails.DatabaseName;
}
if (!string.IsNullOrEmpty(connectionDetails.AuthenticationType))
{
switch(connectionDetails.AuthenticationType)
{
case "Integrated":
connectionBuilder.IntegratedSecurity = true;
break;
case "SqlLogin":
break;
case "ActiveDirectoryPassword":
connectionBuilder.Authentication = SqlAuthenticationMethod.ActiveDirectoryPassword;
break;
default:
throw new ArgumentException(SR.ConnectionServiceConnStringInvalidAuthType(connectionDetails.AuthenticationType));
}
}
if (connectionDetails.Encrypt.HasValue)
{
connectionBuilder.Encrypt = connectionDetails.Encrypt.Value;
}
if (connectionDetails.TrustServerCertificate.HasValue)
{
connectionBuilder.TrustServerCertificate = connectionDetails.TrustServerCertificate.Value;
}
if (connectionDetails.PersistSecurityInfo.HasValue)
{
connectionBuilder.PersistSecurityInfo = connectionDetails.PersistSecurityInfo.Value;
}
if (connectionDetails.ConnectTimeout.HasValue)
{
connectionBuilder.ConnectTimeout = connectionDetails.ConnectTimeout.Value;
}
if (connectionDetails.ConnectRetryCount.HasValue)
{
connectionBuilder.ConnectRetryCount = connectionDetails.ConnectRetryCount.Value;
}
if (connectionDetails.ConnectRetryInterval.HasValue)
{
connectionBuilder.ConnectRetryInterval = connectionDetails.ConnectRetryInterval.Value;
}
if (!string.IsNullOrEmpty(connectionDetails.ApplicationName))
{
connectionBuilder.ApplicationName = connectionDetails.ApplicationName;
}
if (!string.IsNullOrEmpty(connectionDetails.WorkstationId))
{
connectionBuilder.WorkstationID = connectionDetails.WorkstationId;
}
if (!string.IsNullOrEmpty(connectionDetails.ApplicationIntent))
{
ApplicationIntent intent;
switch (connectionDetails.ApplicationIntent)
{
case "ReadOnly":
intent = ApplicationIntent.ReadOnly;
break;
case "ReadWrite":
intent = ApplicationIntent.ReadWrite;
break;
default:
throw new ArgumentException(SR.ConnectionServiceConnStringInvalidIntent(connectionDetails.ApplicationIntent));
}
connectionBuilder.ApplicationIntent = intent;
}
if (!string.IsNullOrEmpty(connectionDetails.CurrentLanguage))
{
connectionBuilder.CurrentLanguage = connectionDetails.CurrentLanguage;
}
if (connectionDetails.Pooling.HasValue)
{
connectionBuilder.Pooling = connectionDetails.Pooling.Value;
}
if (connectionDetails.MaxPoolSize.HasValue)
{
connectionBuilder.MaxPoolSize = connectionDetails.MaxPoolSize.Value;
}
if (connectionDetails.MinPoolSize.HasValue)
{
connectionBuilder.MinPoolSize = connectionDetails.MinPoolSize.Value;
}
if (connectionDetails.LoadBalanceTimeout.HasValue)
{
connectionBuilder.LoadBalanceTimeout = connectionDetails.LoadBalanceTimeout.Value;
}
if (connectionDetails.Replication.HasValue)
{
connectionBuilder.Replication = connectionDetails.Replication.Value;
}
if (!string.IsNullOrEmpty(connectionDetails.AttachDbFilename))
{
connectionBuilder.AttachDBFilename = connectionDetails.AttachDbFilename;
}
if (!string.IsNullOrEmpty(connectionDetails.FailoverPartner))
{
connectionBuilder.FailoverPartner = connectionDetails.FailoverPartner;
}
if (connectionDetails.MultiSubnetFailover.HasValue)
{
connectionBuilder.MultiSubnetFailover = connectionDetails.MultiSubnetFailover.Value;
}
if (connectionDetails.MultipleActiveResultSets.HasValue)
{
connectionBuilder.MultipleActiveResultSets = connectionDetails.MultipleActiveResultSets.Value;
}
if (connectionDetails.PacketSize.HasValue)
{
connectionBuilder.PacketSize = connectionDetails.PacketSize.Value;
}
if (!string.IsNullOrEmpty(connectionDetails.TypeSystemVersion))
{
connectionBuilder.TypeSystemVersion = connectionDetails.TypeSystemVersion;
}
connectionBuilder.Pooling = false;
return connectionBuilder;
}
///
/// Change the database context of a connection.
///
/// URI of the owner of the connection
/// Name of the database to change the connection to
public bool ChangeConnectionDatabaseContext(string ownerUri, string newDatabaseName, bool force = false)
{
ConnectionInfo info;
if (TryFindConnection(ownerUri, out info))
{
try
{
info.ConnectionDetails.DatabaseName = newDatabaseName;
foreach (string key in info.AllConnectionTypes)
{
DbConnection conn;
info.TryGetConnection(key, out conn);
if (conn != null && conn.Database != newDatabaseName && conn.State == ConnectionState.Open)
{
if (info.IsCloud && force)
{
conn.Close();
conn.Dispose();
info.RemoveConnection(key);
string connectionString = BuildConnectionString(info.ConnectionDetails);
// create a sql connection instance
DbConnection connection = info.Factory.CreateSqlConnection(connectionString);
connection.Open();
info.AddConnection(key, connection);
}
else
{
conn.ChangeDatabase(newDatabaseName);
}
}
}
// Fire a connection changed event
ConnectionChangedParams parameters = new ConnectionChangedParams();
IConnectionSummary summary = info.ConnectionDetails;
parameters.Connection = summary.Clone();
parameters.OwnerUri = ownerUri;
SendUsingServiceHost((host) => host.SendEvent(ConnectionChangedNotification.Type, parameters));
return true;
}
catch (Exception e)
{
Logger.Write(
TraceEventType.Error,
string.Format(
"Exception caught while trying to change database context to [{0}] for OwnerUri [{1}]. Exception:{2}",
newDatabaseName,
ownerUri,
e.ToString())
);
}
}
return false;
}
///
/// Invokes an action on the service host, if the host exists
///
private void SendUsingServiceHost(Action send)
{
var serviceHost = serviceProvider.GetService();
if (serviceHost != null)
{
send(serviceHost);
}
}
///
/// Invokes the initial on-connect activities if the provided ConnectParams represents the default
/// connection.
///
private void InvokeOnConnectionActivities(ConnectionInfo connectionInfo, ConnectParams connectParams)
{
if (connectParams.Type != ConnectionType.Default && connectParams.Type != ConnectionType.GeneralConnection)
{
return;
}
foreach (var activity in this.onConnectionActivities)
{
// not awaiting here to allow handlers to run in the background
activity(connectionInfo);
}
}
///
/// Invokes the final on-disconnect activities if the provided DisconnectParams represents the default
/// connection or is null - representing that all connections are being disconnected.
///
private void InvokeOnDisconnectionActivities(ConnectionInfo connectionInfo)
{
foreach (var activity in this.onDisconnectActivities)
{
activity(connectionInfo.ConnectionDetails, connectionInfo.OwnerUri);
}
}
///
/// Handles the Telemetry events that occur upon disconnect.
///
///
private void HandleDisconnectTelemetry(ConnectionInfo connectionInfo)
{
SendUsingServiceHost(host => {
try
{
// Send a telemetry notification for intellisense performance metrics
host.SendEvent(TelemetryNotification.Type, new TelemetryParams()
{
Params = new TelemetryProperties
{
Properties = new Dictionary
{
{ TelemetryPropertyNames.IsAzure, connectionInfo.IsCloud.ToOneOrZeroString() }
},
EventName = TelemetryEventNames.IntellisenseQuantile,
Measures = connectionInfo.IntellisenseMetrics.Quantile
}
});
}
catch (Exception ex)
{
Logger.Write(TraceEventType.Verbose, "Could not send Connection telemetry event " + ex.ToString());
}
});
}
///
/// Create and open a new SqlConnection from a ConnectionInfo object
/// Note: we need to audit all uses of this method to determine why we're
/// bypassing normal ConnectionService connection management
///
internal static SqlConnection OpenSqlConnection(ConnectionInfo connInfo, string featureName = null)
{
try
{
// capture original values
int? originalTimeout = connInfo.ConnectionDetails.ConnectTimeout;
bool? originalPersistSecurityInfo = connInfo.ConnectionDetails.PersistSecurityInfo;
bool? originalPooling = connInfo.ConnectionDetails.Pooling;
// increase the connection timeout to at least 30 seconds and and build connection string
connInfo.ConnectionDetails.ConnectTimeout = Math.Max(30, originalTimeout ?? 0);
// enable PersistSecurityInfo to handle issues in SMO where the connection context is lost in reconnections
connInfo.ConnectionDetails.PersistSecurityInfo = true;
// turn off connection pool to avoid hold locks on server resources after calling SqlConnection Close method
connInfo.ConnectionDetails.Pooling = false;
connInfo.ConnectionDetails.ApplicationName = GetApplicationNameWithFeature(connInfo.ConnectionDetails.ApplicationName, featureName);
// generate connection string
string connectionString = ConnectionServiceCore.BuildConnectionString(connInfo.ConnectionDetails);
// restore original values
connInfo.ConnectionDetails.ConnectTimeout = originalTimeout;
connInfo.ConnectionDetails.PersistSecurityInfo = originalPersistSecurityInfo;
connInfo.ConnectionDetails.Pooling = originalPooling;
// open a dedicated binding server connection
SqlConnection sqlConn = new SqlConnection(connectionString);
sqlConn.Open();
return sqlConn;
}
catch (Exception ex)
{
string error = string.Format(CultureInfo.InvariantCulture,
"Failed opening a SqlConnection: error:{0} inner:{1} stacktrace:{2}",
ex.Message, ex.InnerException != null ? ex.InnerException.Message : string.Empty, ex.StackTrace);
Logger.Write(TraceEventType.Error, error);
}
return null;
}
}
}