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MessageQueue.ReceiveByCorrelationId Method

Definition

Receives a message that matches a given correlation identifier.

Overloads

ReceiveByCorrelationId(String, TimeSpan, MessageQueueTransactionType)

Receives the message that matches the given correlation identifier and waits until either a message with the specified correlation identifier is available in the queue, or the time-out expires.

ReceiveByCorrelationId(String, TimeSpan, MessageQueueTransaction)

Receives the message that matches the given correlation identifier (from a transactional queue) and waits until either a message with the specified correlation identifier is available in the queue, or the time-out expires.

ReceiveByCorrelationId(String, TimeSpan)

Receives the message that matches the given correlation identifier (from a non-transactional queue) and waits until either a message with the specified correlation identifier is available in the queue, or the time-out expires.

ReceiveByCorrelationId(String, MessageQueueTransactionType)

Receives the message that matches the given correlation identifier and immediately raises an exception if no message with the specified correlation identifier currently exists in the queue.

ReceiveByCorrelationId(String, MessageQueueTransaction)

Receives the message that matches the given correlation identifier (from a transactional queue) and immediately raises an exception if no message with the specified correlation identifier currently exists in the queue.

ReceiveByCorrelationId(String)

Receives the message that matches the given correlation identifier (from a non-transactional queue) and immediately raises an exception if no message with the specified correlation identifier currently exists in the queue.

ReceiveByCorrelationId(String, TimeSpan, MessageQueueTransactionType)

Receives the message that matches the given correlation identifier and waits until either a message with the specified correlation identifier is available in the queue, or the time-out expires.

public:
 System::Messaging::Message ^ ReceiveByCorrelationId(System::String ^ correlationId, TimeSpan timeout, System::Messaging::MessageQueueTransactionType transactionType);
public System.Messaging.Message ReceiveByCorrelationId (string correlationId, TimeSpan timeout, System.Messaging.MessageQueueTransactionType transactionType);
member this.ReceiveByCorrelationId : string * TimeSpan * System.Messaging.MessageQueueTransactionType -> System.Messaging.Message
Public Function ReceiveByCorrelationId (correlationId As String, timeout As TimeSpan, transactionType As MessageQueueTransactionType) As Message

Parameters

correlationId
String

The CorrelationId of the message to receive.

timeout
TimeSpan

A TimeSpan that indicates the time to wait until a new message is available for inspection.

transactionType
MessageQueueTransactionType

One of the MessageQueueTransactionType values, describing the type of transaction context to associate with the message.

Returns

The Message whose CorrelationId matches the correlationId parameter passed in.

Exceptions

The correlationId parameter is null.

The message with the specified correlationId could not be found.

The value specified for the timeout parameter is not valid, possibly timeout is less than Zero or greater than InfiniteTimeout.

The transactionType parameter is not one of the MessageQueueTransactionType members.

The message with the specified correlationId does not exist in the queue and did not arrive before the time-out expired.

-or-

An error occurred when accessing a Message Queuing method.

Examples

The following code example demonstrates the use of ReceiveByCorrelationId(String, TimeSpan, MessageQueueTransactionType).


// Connect to a nontransactional queue on the local computer.
MessageQueue^ queue = gcnew MessageQueue(".\\exampleQueue");

// Create a new message.
Message^ msg = gcnew Message("Example Message Body");

// Send the message to the nontransactional queue.
queue->Send(msg, "Example Message Label");

// Get the message's Id property value.
String^ id = msg->Id;

// Receive the message from the nontransactional queue.
msg = queue->ReceiveById(id, TimeSpan::FromSeconds(10.0));

// Connect to a transactional queue on the local computer.
MessageQueue^ transQueue = 
    gcnew MessageQueue(".\\exampleTransQueue");

// Create a new message in response to the original message.
Message^ responseMsg = gcnew Message("Example Response Message Body");

// Set the response message's CorrelationId property value to the Id
// property value of the original message.
responseMsg->CorrelationId = id;

// Send the response message to the transactional queue.
transQueue->Send(responseMsg, "Example Response Message Label",
    MessageQueueTransactionType::Single);

// Set the transactional queue's MessageReadPropertyFilter property to
// ensure that the response message includes the desired properties.
transQueue->MessageReadPropertyFilter->CorrelationId = true;

// Receive the response message from the transactional queue.
responseMsg = transQueue->ReceiveByCorrelationId(id,
    TimeSpan::FromSeconds(10.0), MessageQueueTransactionType::Single);

// Display the response message's property values.
Console::WriteLine("Message.Label: {0}", responseMsg->Label);
Console::WriteLine("Message.CorrelationId: {0}",
    responseMsg->CorrelationId);

transQueue->Close();
queue->Close();

// Connect to a nontransactional queue on the local computer.
MessageQueue queue = new MessageQueue(".\\exampleQueue");

// Create a new message.
Message msg = new Message("Example Message Body");

// Send the message to the nontransactional queue.
queue.Send(msg, "Example Message Label");

// Get the message's Id property value.
string id = msg.Id;

// Receive the message from the nontransactional queue.
msg = queue.ReceiveById(id, TimeSpan.FromSeconds(10.0));

// Connect to a transactional queue on the local computer.
MessageQueue transQueue = new MessageQueue(".\\exampleTransQueue");

// Create a new message in response to the original message.
Message responseMsg = new Message("Example Response Message Body");

// Set the response message's CorrelationId property value to the Id
// property value of the original message.
responseMsg.CorrelationId = id;

// Send the response message to the transactional queue.
transQueue.Send(responseMsg, "Example Response Message Label",
    MessageQueueTransactionType.Single);

// Set the transactional queue's MessageReadPropertyFilter property to
// ensure that the response message includes the desired properties.
transQueue.MessageReadPropertyFilter.CorrelationId = true;

// Receive the response message from the transactional queue.
responseMsg = transQueue.ReceiveByCorrelationId(id,
    TimeSpan.FromSeconds(10.0), MessageQueueTransactionType.Single);

// Display the response message's property values.
Console.WriteLine("Message.Label: {0}", responseMsg.Label);
Console.WriteLine("Message.CorrelationId: {0}",
    responseMsg.CorrelationId);

Remarks

This method looks in the queue referenced by the MessageQueue for a message whose CorrelationId matches the specified correlationId parameter. This method returns immediately if the message with the correlation identifier specified by the correlationId parameter is in the queue, using a transaction context defined by the transactionType parameter. Otherwise, the method waits the given period of time for a new message to arrive. If a new message does not arrive before the time-out expires, an exception is thrown.

The timeout parameter does not specify the total running time for this method. Rather, it specifies the time to wait for a new message to arrive in the queue. Each time a new message arrives, this method examines the CorrelationId of the new message to see if it matches the correlationId parameter. If not, this method starts the time-out period over and waits for another new message to arrive. Therefore, if new messages continue to arrive within the time-out period, it is possible for this method to continue running indefinitely, either until the time-out period expires without any new messages arriving, or until a message arrives whose CorrelationId matches the correlationId parameter. Specify Automatic for the transactionType parameter if there is already an external transaction context attached to the thread that you want to use to receive the message. Specify Single if you want to receive the message as a single internal transaction. You can specify None if you want to receive a message from a transactional queue outside of a transaction context.

If this method is called to receive a message from a transactional queue, the message that is received would be returned to the queue if the transaction is aborted. The message is not permanently removed from the queue until the transaction is committed.

The CorrelationId property is used to tie a message sent to the queue to associated response, report, or acknowledgment messages.

Two other methods allow you to receive messages from a queue. The Receive method returns the first message in the queue, and the ReceiveById(String) method is used to retrieve a message by specifying its unique identifier.

To read a message with a specified correlation identifier without removing it from the queue, use the PeekByCorrelationId(String) method. The PeekByCorrelationId(String) method always returns the first message in the queue, so subsequent calls to the method return the same message unless a higher priority message arrives in the queue. There is no transaction context associated with a message returned by a call to PeekByCorrelationId(String). Because PeekByCorrelationId(String) does not remove any messages in the queue, there would be nothing to roll back if the transaction were aborted.

The following table shows whether this method is available in various Workgroup modes.

Workgroup mode Available
Local computer Yes
Local computer and direct format name Yes
Remote computer No
Remote computer and direct format name Yes

See also

Applies to

ReceiveByCorrelationId(String, TimeSpan, MessageQueueTransaction)

Receives the message that matches the given correlation identifier (from a transactional queue) and waits until either a message with the specified correlation identifier is available in the queue, or the time-out expires.

public:
 System::Messaging::Message ^ ReceiveByCorrelationId(System::String ^ correlationId, TimeSpan timeout, System::Messaging::MessageQueueTransaction ^ transaction);
public System.Messaging.Message ReceiveByCorrelationId (string correlationId, TimeSpan timeout, System.Messaging.MessageQueueTransaction transaction);
member this.ReceiveByCorrelationId : string * TimeSpan * System.Messaging.MessageQueueTransaction -> System.Messaging.Message
Public Function ReceiveByCorrelationId (correlationId As String, timeout As TimeSpan, transaction As MessageQueueTransaction) As Message

Parameters

correlationId
String

The CorrelationId of the message to receive.

timeout
TimeSpan

A TimeSpan that indicates the time to wait until a new message is available for inspection.

Returns

The Message whose CorrelationId matches the correlationId parameter passed in.

Exceptions

The correlationId parameter is null.

-or-

The transaction parameter is null.

The value specified for the timeout parameter is not valid, possibly timeout is less than Zero or greater than InfiniteTimeout.

The message with the specified correlationId does not exist in the queue and did not arrive before the time-out expired.

-or-

The queue is non-transactional.

-or-

An error occurred when accessing a Message Queuing method.

Examples

The following code example demonstrates the use of ReceiveByCorrelationId(String, TimeSpan, MessageQueueTransaction).


// Connect to a nontransactional queue on the local computer.
MessageQueue^ queue = gcnew MessageQueue(".\\exampleQueue");

// Create a new message.
Message^ msg = gcnew Message("Example Message Body");

// Send the message to the nontransactional queue.
queue->Send(msg, "Example Message Label");

// Get the message's Id property value.
String^ id = msg->Id;

// Receive the message from the nontransactional queue.
msg = queue->ReceiveById(id, TimeSpan::FromSeconds(10.0));

// Connect to a transactional queue on the local computer.
MessageQueue^ transQueue = 
    gcnew MessageQueue(".\\exampleTransQueue");

// Create a new message in response to the original message.
Message^ responseMsg = gcnew Message("Example Response Message Body");

// Set the response message's CorrelationId property value to the Id
// property value of the original message.
responseMsg->CorrelationId = id;

// Send the response message to the transactional queue.
transQueue->Send(responseMsg, "Example Response Message Label",
    MessageQueueTransactionType::Single);

// Set the transactional queue's MessageReadPropertyFilter property to
// ensure that the response message includes the desired properties.
transQueue->MessageReadPropertyFilter->CorrelationId = true;

// Create a message queuing transaction.
MessageQueueTransaction^ transaction = gcnew MessageQueueTransaction();

try
{
    // Begin a transaction.
    transaction->Begin();

    // Receive the response message from the transactional queue.
    responseMsg = transQueue->ReceiveByCorrelationId(id,
        TimeSpan::FromSeconds(10.0), transaction);

    // Commit the transaction.
    transaction->Commit();
}
catch (Exception^ ex)
{
    // Cancel the transaction.
    transaction->Abort();

    // Propagate the exception.
    throw ex;
}
finally
{
    // Dispose of the transaction object.
    delete transaction;
    transQueue->Close();
    queue->Close();
}

// Display the response message's property values.
Console::WriteLine("Message.Label: {0}", responseMsg->Label);
Console::WriteLine("Message.CorrelationId: {0}",
    responseMsg->CorrelationId);

// Connect to a nontransactional queue on the local computer.
MessageQueue queue = new MessageQueue(".\\exampleQueue");

// Create a new message.
Message msg = new Message("Example Message Body");

// Send the message to the nontransactional queue.
queue.Send(msg, "Example Message Label");

// Get the message's Id property value.
string id = msg.Id;

// Receive the message from the nontransactional queue.
msg = queue.ReceiveById(id, TimeSpan.FromSeconds(10.0));

// Connect to a transactional queue on the local computer.
MessageQueue transQueue = new MessageQueue(".\\exampleTransQueue");

// Create a new message in response to the original message.
Message responseMsg = new Message("Example Response Message Body");

// Set the response message's CorrelationId property value to the Id
// property value of the original message.
responseMsg.CorrelationId = id;

// Send the response message to the transactional queue.
transQueue.Send(responseMsg, "Example Response Message Label",
    MessageQueueTransactionType.Single);

// Set the transactional queue's MessageReadPropertyFilter property to
// ensure that the response message includes the desired properties.
transQueue.MessageReadPropertyFilter.CorrelationId = true;

// Create a message queuing transaction.
MessageQueueTransaction transaction = new MessageQueueTransaction();

try
{
    // Begin a transaction.
    transaction.Begin();

    // Receive the response message from the transactional queue.
    responseMsg = transQueue.ReceiveByCorrelationId(id,
        TimeSpan.FromSeconds(10.0), transaction);

    // Commit the transaction.
    transaction.Commit();
}
catch(System.Exception e)
{
    // Cancel the transaction.
    transaction.Abort();

    // Propagate the exception.
    throw e;
}
finally
{
    // Dispose of the transaction object.
    transaction.Dispose();
}

// Display the response message's property values.
Console.WriteLine("Message.Label: {0}", responseMsg.Label);
Console.WriteLine("Message.CorrelationId: {0}",
    responseMsg.CorrelationId);

Remarks

This method looks in the transactional queue referenced by the MessageQueue for a message whose CorrelationId matches the specified correlationId parameter. This method returns immediately if the message with the correlation identifier specified by the correlationId parameter is in the queue, using the internal transaction context defined by the transaction parameter. Otherwise, the method waits the given period of time for a new message to arrive. If a new message does not arrive before the time-out expires, an exception is thrown.

The timeout parameter does not specify the total running time for this method. Rather, it specifies the time to wait for a new message to arrive in the queue. Each time a new message arrives, this method examines the CorrelationId of the new message to see if it matches the correlationId parameter. If not, this method starts the time-out period over and waits for another new message to arrive. Therefore, if new messages continue to arrive within the time-out period, it is possible for this method to continue running indefinitely, either until the time-out period expires without any new messages arriving, or until a message arrives whose CorrelationId matches the correlationId parameter.

Because this method is called on a transactional queue, the message that is received would be returned to the queue if the transaction is aborted. The message is not permanently removed from the queue until the transaction is committed.

The CorrelationId property is used to tie a message sent to the queue to associated response, report, or acknowledgment messages.

Two other methods allow you to receive messages from a queue. The Receive method returns the first message in the queue, and the ReceiveById(String) method is used to retrieve a message by specifying its unique identifier.

To read a message with a specified correlation identifier without removing it from the queue, use the PeekByCorrelationId(String) method. The PeekByCorrelationId(String) method always returns the first message in the queue, so subsequent calls to the method return the same message unless a higher priority message arrives in the queue. There is no transaction context associated with a message returned by a call to PeekByCorrelationId(String). Because PeekByCorrelationId(String) does not remove any messages in the queue, there would be nothing to roll back if the transaction were aborted.

The following table shows whether this method is available in various Workgroup modes.

Workgroup mode Available
Local computer Yes
Local computer and direct format name Yes
Remote computer No
Remote computer and direct format name Yes

See also

Applies to

ReceiveByCorrelationId(String, TimeSpan)

Receives the message that matches the given correlation identifier (from a non-transactional queue) and waits until either a message with the specified correlation identifier is available in the queue, or the time-out expires.

public:
 System::Messaging::Message ^ ReceiveByCorrelationId(System::String ^ correlationId, TimeSpan timeout);
public System.Messaging.Message ReceiveByCorrelationId (string correlationId, TimeSpan timeout);
member this.ReceiveByCorrelationId : string * TimeSpan -> System.Messaging.Message
Public Function ReceiveByCorrelationId (correlationId As String, timeout As TimeSpan) As Message

Parameters

correlationId
String

The CorrelationId of the message to receive.

timeout
TimeSpan

A TimeSpan that indicates the time to wait until a new message is available for inspection.

Returns

The Message whose CorrelationId matches the correlationId parameter passed in.

Exceptions

The correlationId parameter is null.

The value specified for the timeout parameter is not valid, possibly timeout is less than Zero or greater than InfiniteTimeout.

The message with the specified correlationId does not exist in the queue and did not arrive before the time-out expired.

-or-

An error occurred when accessing a Message Queuing method.

Examples

The following code example demonstrates the use of ReceiveByCorrelationId(String, TimeSpan).


// Connect to a queue on the local computer.
MessageQueue^ queue = gcnew MessageQueue(".\\exampleQueue");

// Create a new message.
Message^ msg = gcnew Message("Example Message Body");

// Designate a queue to receive the acknowledgement message for this
// message.
msg->AdministrationQueue = 
    gcnew MessageQueue(".\\exampleAdminQueue");

// Set the message to generate an acknowledgement message upon its
// arrival.
msg->AcknowledgeType = AcknowledgeTypes::PositiveArrival;

// Send the message.
queue->Send(msg, "Example Message Label");

// Get the message's Id property value.
String^ id = msg->Id;

// Receive the message from the queue.
msg = queue->ReceiveById(id, TimeSpan::FromSeconds(10.0));

// Connect to the admin queue.
MessageQueue^ adminQueue = 
    gcnew MessageQueue(".\\exampleAdminQueue");

// Set the admin queue's MessageReadPropertyFilter property to ensure
// that the acknowledgement message includes the desired properties.
adminQueue->MessageReadPropertyFilter->Acknowledgment = true;
adminQueue->MessageReadPropertyFilter->CorrelationId = true;

// Receive the acknowledgement message from the admin queue.
Message^ ackMsg = adminQueue->ReceiveByCorrelationId(id,
    TimeSpan::FromSeconds(10.0));

// Display the acknowledgement message's property values.
Console::WriteLine("Message.Label: {0}", ackMsg->Label);
Console::WriteLine("Message.Acknowledgment: {0}",
    ackMsg->Acknowledgment);
Console::WriteLine("Message.CorrelationId: {0}", ackMsg->CorrelationId);

adminQueue->Close();
queue->Close();

// Connect to a queue on the local computer.
MessageQueue queue = new MessageQueue(".\\exampleQueue");

// Create a new message.
Message msg = new Message("Example Message Body");

// Designate a queue to receive the acknowledgement message for this
// message.
msg.AdministrationQueue = new MessageQueue(".\\exampleAdminQueue");

// Set the message to generate an acknowledgement message upon its
// arrival.
msg.AcknowledgeType = AcknowledgeTypes.PositiveArrival;

// Send the message.
queue.Send(msg, "Example Message Label");

// Get the message's Id property value.
string id = msg.Id;

// Receive the message from the queue.
msg = queue.ReceiveById(id, TimeSpan.FromSeconds(10.0));

// Connect to the admin queue.
MessageQueue adminQueue = new MessageQueue(".\\exampleAdminQueue");

// Set the admin queue's MessageReadPropertyFilter property to ensure
// that the acknowledgement message includes the desired properties.
adminQueue.MessageReadPropertyFilter.Acknowledgment = true;
adminQueue.MessageReadPropertyFilter.CorrelationId = true;

// Receive the acknowledgement message from the admin queue.
Message ackMsg = adminQueue.ReceiveByCorrelationId(id,
    TimeSpan.FromSeconds(10.0));

// Display the acknowledgement message's property values.
Console.WriteLine("Message.Label: {0}", ackMsg.Label);
Console.WriteLine("Message.Acknowledgment: {0}", ackMsg.Acknowledgment);
Console.WriteLine("Message.CorrelationId: {0}", ackMsg.CorrelationId);

Remarks

This method looks in the non-transactional queue referenced by the MessageQueue for a message whose CorrelationId matches the specified correlationId parameter. This method returns immediately if the message with the correlation identifier specified by the correlationId parameter is in the queue. Otherwise, the method waits the given period of time for a new message to arrive. If a new message does not arrive before the time-out expires, an exception is thrown.

The timeout parameter does not specify the total running time for this method. Rather, it specifies the time to wait for a new message to arrive in the queue. Each time a new message arrives, this method examines the CorrelationId of the new message to see if it matches the correlationId parameter. If not, this method starts the time-out period over and waits for another new message to arrive. Therefore, if new messages continue to arrive within the time-out period, it is possible for this method to continue running indefinitely, either until the time-out period expires without any new messages arriving, or until a message arrives whose CorrelationId matches the correlationId parameter.

The CorrelationId property is used to tie a message sent to the queue to associated response, report, or acknowledgment messages.

Two other methods allow you to receive messages from a queue. The Receive method returns the first message in the queue, and the ReceiveById(String) method is used to retrieve a message by specifying its unique identifier.

To read a message with a specified correlation identifier without removing it from the queue, use the PeekByCorrelationId(String) method. The PeekByCorrelationId(String) method always returns the first message in the queue, so subsequent calls to the method return the same message unless a higher priority message arrives in the queue.

The following table shows whether this method is available in various Workgroup modes.

Workgroup mode Available
Local computer Yes
Local computer and direct format name Yes
Remote computer No
Remote computer and direct format name Yes

See also

Applies to

ReceiveByCorrelationId(String, MessageQueueTransactionType)

Receives the message that matches the given correlation identifier and immediately raises an exception if no message with the specified correlation identifier currently exists in the queue.

public:
 System::Messaging::Message ^ ReceiveByCorrelationId(System::String ^ correlationId, System::Messaging::MessageQueueTransactionType transactionType);
public System.Messaging.Message ReceiveByCorrelationId (string correlationId, System.Messaging.MessageQueueTransactionType transactionType);
member this.ReceiveByCorrelationId : string * System.Messaging.MessageQueueTransactionType -> System.Messaging.Message
Public Function ReceiveByCorrelationId (correlationId As String, transactionType As MessageQueueTransactionType) As Message

Parameters

correlationId
String

The CorrelationId of the message to receive.

transactionType
MessageQueueTransactionType

One of the MessageQueueTransactionType values, describing the type of transaction context to associate with the message.

Returns

The Message whose CorrelationId matches the correlationId parameter passed in.

Exceptions

The correlationId parameter is null.

The message with the specified correlationId could not be found.

The transactionType parameter is not one of the MessageQueueTransactionType members.

An error occurred when accessing a Message Queuing method.

Examples

The following code example demonstrates the use of ReceiveByCorrelationId(String, MessageQueueTransactionType).


// Connect to a nontransactional queue on the local computer.
MessageQueue^ queue = gcnew MessageQueue(".\\exampleQueue");

// Create a new message.
Message^ msg = gcnew Message("Example Message Body");

// Send the message to the nontransactional queue.
queue->Send(msg, "Example Message Label");

// Get the message's Id property value.
String^ id = msg->Id;

// Receive the message from the nontransactional queue.
msg = queue->ReceiveById(id, TimeSpan::FromSeconds(10.0));

// Connect to a transactional queue on the local computer.
MessageQueue^ transQueue = 
    gcnew MessageQueue(".\\exampleTransQueue");

// Create a new message in response to the original message.
Message^ responseMsg = gcnew Message("Example Response Message Body");

// Set the response message's CorrelationId property value to the Id
// property value of the original message.
responseMsg->CorrelationId = id;

// Send the response message to the transactional queue.
transQueue->Send(responseMsg, "Example Response Message Label",
    MessageQueueTransactionType::Single);

// Simulate doing other work so the message has time to arrive.
System::Threading::Thread::Sleep(TimeSpan::FromSeconds(10.0));

// Set the transactional queue's MessageReadPropertyFilter property to
// ensure that the response message includes the desired properties.
transQueue->MessageReadPropertyFilter->CorrelationId = true;

// Receive the response message from the transactional queue.
responseMsg = transQueue->ReceiveByCorrelationId(id,
    MessageQueueTransactionType::Single);

// Display the response message's property values.
Console::WriteLine("Message.Label: {0}", responseMsg->Label);
Console::WriteLine("Message.CorrelationId: {0}",
    responseMsg->CorrelationId);

transQueue->Close();
queue->Close();

// Connect to a nontransactional queue on the local computer.
MessageQueue queue = new MessageQueue(".\\exampleQueue");

// Create a new message.
Message msg = new Message("Example Message Body");

// Send the message to the nontransactional queue.
queue.Send(msg, "Example Message Label");

// Get the message's Id property value.
string id = msg.Id;

// Receive the message from the nontransactional queue.
msg = queue.ReceiveById(id, TimeSpan.FromSeconds(10.0));

// Connect to a transactional queue on the local computer.
MessageQueue transQueue = new MessageQueue(".\\exampleTransQueue");

// Create a new message in response to the original message.
Message responseMsg = new Message("Example Response Message Body");

// Set the response message's CorrelationId property value to the Id
// property value of the original message.
responseMsg.CorrelationId = id;

// Send the response message to the transactional queue.
transQueue.Send(responseMsg, "Example Response Message Label",
    MessageQueueTransactionType.Single);

// Simulate doing other work so the message has time to arrive.
System.Threading.Thread.Sleep(TimeSpan.FromSeconds(10.0));

// Set the transactional queue's MessageReadPropertyFilter property to
// ensure that the response message includes the desired properties.
transQueue.MessageReadPropertyFilter.CorrelationId = true;

// Receive the response message from the transactional queue.
responseMsg = transQueue.ReceiveByCorrelationId(id,
    MessageQueueTransactionType.Single);

// Display the response message's property values.
Console.WriteLine("Message.Label: {0}", responseMsg.Label);
Console.WriteLine("Message.CorrelationId: {0}",
    responseMsg.CorrelationId);

Remarks

This method looks in the queue referenced by the MessageQueue for a message whose CorrelationId matches the specified correlationId parameter. If no message is found that matches the correlationID parameter, an exception is thrown. Otherwise, the message is removed from the queue and returned to the application using a transaction context defined by the transactionType parameter.

Specify Automatic for the transactionType parameter if there is already an external transaction context attached to the thread that you want to use to receive the message. Specify Single if you want to receive the message as a single internal transaction. You can specify None if you want to receive a message from a transactional queue outside of a transaction context.

If this method is called to receive a message from a transactional queue, the message that is received would be returned to the queue if the transaction is aborted. The message is not permanently removed from the queue until the transaction is committed.

The CorrelationId property is used to tie a message sent to the queue to associated response, report, or acknowledgment messages.

Two other methods allow you to receive messages from a queue. The Receive method returns the first message in the queue, and the ReceiveById(String) method is used to retrieve a message by specifying its unique identifier.

To read a message with a specified correlation identifier without removing it from the queue, use the PeekByCorrelationId(String) method. The PeekByCorrelationId(String) method always returns the first message in the queue, so subsequent calls to the method return the same message unless a higher priority message arrives in the queue. There is no transaction context associated with a message returned by a call to PeekByCorrelationId(String). Because PeekByCorrelationId(String) does not remove any messages in the queue, there would be nothing to roll back if the transaction were aborted.

The following table shows whether this method is available in various Workgroup modes.

Workgroup mode Available
Local computer Yes
Local computer and direct format name Yes
Remote computer No
Remote computer and direct format name Yes

See also

Applies to

ReceiveByCorrelationId(String, MessageQueueTransaction)

Receives the message that matches the given correlation identifier (from a transactional queue) and immediately raises an exception if no message with the specified correlation identifier currently exists in the queue.

public:
 System::Messaging::Message ^ ReceiveByCorrelationId(System::String ^ correlationId, System::Messaging::MessageQueueTransaction ^ transaction);
public System.Messaging.Message ReceiveByCorrelationId (string correlationId, System.Messaging.MessageQueueTransaction transaction);
member this.ReceiveByCorrelationId : string * System.Messaging.MessageQueueTransaction -> System.Messaging.Message
Public Function ReceiveByCorrelationId (correlationId As String, transaction As MessageQueueTransaction) As Message

Parameters

correlationId
String

The CorrelationId of the message to receive.

Returns

The Message whose CorrelationId matches the correlationId parameter passed in.

Exceptions

The correlationId parameter is null.

-or-

The transaction parameter is null.

The message with the specified correlationId could not be found.

The queue is non-transactional.

-or-

An error occurred when accessing a Message Queuing method.

Examples

The following code example demonstrates the use of ReceiveByCorrelationId(String, MessageQueueTransaction).


// Connect to a nontransactional queue on the local computer.
MessageQueue^ queue = gcnew MessageQueue(".\\exampleQueue");

// Create a new message.
Message^ msg = gcnew Message("Example Message Body");

// Send the message to the nontransactional queue.
queue->Send(msg, "Example Message Label");

// Get the message's Id property value.
String^ id = msg->Id;

// Receive the message from the nontransactional queue.
msg = queue->ReceiveById(id, TimeSpan::FromSeconds(10.0));

// Connect to a transactional queue on the local computer.
MessageQueue^ transQueue = 
    gcnew MessageQueue(".\\exampleTransQueue");

// Create a new message in response to the original message.
Message^ responseMsg = gcnew Message("Example Response Message Body");

// Set the response message's CorrelationId property value to the Id
// property value of the original message.
responseMsg->CorrelationId = id;

// Send the response message to the transactional queue.
transQueue->Send(responseMsg, "Example Response Message Label",
    MessageQueueTransactionType::Single);

// Simulate doing other work so the message has time to arrive.
System::Threading::Thread::Sleep(TimeSpan::FromSeconds(10.0));

// Set the transactional queue's MessageReadPropertyFilter property to
// ensure that the response message includes the desired properties.
transQueue->MessageReadPropertyFilter->CorrelationId = true;

// Create a message queuing transaction.
MessageQueueTransaction^ transaction = gcnew MessageQueueTransaction();

try
{
    // Begin a transaction.
    transaction->Begin();

    // Receive the response message from the transactional queue.
    responseMsg = transQueue->ReceiveByCorrelationId(id, transaction);

    // Commit the transaction.
    transaction->Commit();
}
catch (Exception^ ex)
{
    // Cancel the transaction.
    transaction->Abort();

    // Propagate the exception.
    throw ex;
}
finally
{
    // Dispose of the transaction object.
    delete transaction;
    transQueue->Close();
    queue->Close(); 
}

// Display the response message's property values.
Console::WriteLine("Message.Label: {0}", responseMsg->Label);
Console::WriteLine("Message.CorrelationId: {0}",
    responseMsg->CorrelationId);

// Connect to a nontransactional queue on the local computer.
MessageQueue queue = new MessageQueue(".\\exampleQueue");

// Create a new message.
Message msg = new Message("Example Message Body");

// Send the message to the nontransactional queue.
queue.Send(msg, "Example Message Label");

// Get the message's Id property value.
string id = msg.Id;

// Receive the message from the nontransactional queue.
msg = queue.ReceiveById(id, TimeSpan.FromSeconds(10.0));

// Connect to a transactional queue on the local computer.
MessageQueue transQueue = new MessageQueue(".\\exampleTransQueue");

// Create a new message in response to the original message.
Message responseMsg = new Message("Example Response Message Body");

// Set the response message's CorrelationId property value to the Id
// property value of the original message.
responseMsg.CorrelationId = id;

// Send the response message to the transactional queue.
transQueue.Send(responseMsg, "Example Response Message Label",
    MessageQueueTransactionType.Single);

// Simulate doing other work so the message has time to arrive.
System.Threading.Thread.Sleep(TimeSpan.FromSeconds(10.0));

// Set the transactional queue's MessageReadPropertyFilter property to
// ensure that the response message includes the desired properties.
transQueue.MessageReadPropertyFilter.CorrelationId = true;

// Create a message queuing transaction.
MessageQueueTransaction transaction = new MessageQueueTransaction();

try
{
    // Begin a transaction.
    transaction.Begin();

    // Receive the response message from the transactional queue.
    responseMsg = transQueue.ReceiveByCorrelationId(id, transaction);

    // Commit the transaction.
    transaction.Commit();
}
catch(System.Exception e)
{
    // Cancel the transaction.
    transaction.Abort();

    // Propagate the exception.
    throw e;
}
finally
{
    // Dispose of the transaction object.
    transaction.Dispose();
}

// Display the response message's property values.
Console.WriteLine("Message.Label: {0}", responseMsg.Label);
Console.WriteLine("Message.CorrelationId: {0}",
    responseMsg.CorrelationId);

Remarks

This method looks in the transactional queue referenced by the MessageQueue for a message whose CorrelationId matches the specified correlationId parameter. If no message is found that matches the correlationID parameter, an exception is thrown. Otherwise, the message is removed from the queue and returned to the application using the internal transaction context defined by the transaction parameter.

Because this method is called on a transactional queue, the message that is received would be returned to the queue if the transaction is aborted. The message is not permanently removed from the queue until the transaction is committed.

The CorrelationId property is used to tie a message sent to the queue to associated response, report, or acknowledgment messages.

Two other methods allow you to receive messages from a queue. The Receive method returns the first message in the queue, and the ReceiveById(String) method is used to retrieve a message by specifying its unique identifier.

To read a message with a specified correlation identifier without removing it from the queue, use the PeekByCorrelationId(String) method. The PeekByCorrelationId(String) method always returns the first message in the queue, so subsequent calls to the method return the same message unless a higher priority message arrives in the queue. There is no transaction context associated with a message returned by a call to PeekByCorrelationId(String). Because PeekByCorrelationId(String) does not remove any messages in the queue, there would be nothing to roll back if the transaction were aborted.

The following table shows whether this method is available in various Workgroup modes.

Workgroup mode Available
Local computer Yes
Local computer and direct format name Yes
Remote computer No
Remote computer and direct format name Yes

See also

Applies to

ReceiveByCorrelationId(String)

Receives the message that matches the given correlation identifier (from a non-transactional queue) and immediately raises an exception if no message with the specified correlation identifier currently exists in the queue.

public:
 System::Messaging::Message ^ ReceiveByCorrelationId(System::String ^ correlationId);
public System.Messaging.Message ReceiveByCorrelationId (string correlationId);
member this.ReceiveByCorrelationId : string -> System.Messaging.Message
Public Function ReceiveByCorrelationId (correlationId As String) As Message

Parameters

correlationId
String

The CorrelationId of the message to receive.

Returns

The Message whose CorrelationId matches the correlationId parameter passed in.

Exceptions

The correlationId parameter is null.

The message with the specified correlationId could not be found.

An error occurred when accessing a Message Queuing method.

Examples

The following code example sends and receives a message that contains an order to and from a queue. It specifically requests a positive acknowledgment when the original message reaches or is retrieved from the queue.

#using <system.dll>
#using <system.messaging.dll>

using namespace System;
using namespace System::Messaging;
ref class MyNewQueue
{
public:
   static void CreateQueue( String^ queuePath )
   {
      try
      {
         if (  !MessageQueue::Exists( queuePath ) )
         {
            MessageQueue::Create( queuePath );
         }
         else
         {
            Console::WriteLine(  "{0} already exists.", queuePath );
         }
      }
      catch ( MessageQueueException^ e ) 
      {
         Console::WriteLine( e->Message );
      }

   }

   void SendMessage()
   {
      // Connect to a queue on the local computer.
      MessageQueue^ myQueue = gcnew MessageQueue( ".\\myQueue" );

      // Create a new message.
      Message^ myMessage = gcnew Message( "Original Message" );
      myMessage->AdministrationQueue = gcnew MessageQueue( ".\\myAdministrationQueue" );
      myMessage->AcknowledgeType = (AcknowledgeTypes)(AcknowledgeTypes::PositiveReceive | AcknowledgeTypes::PositiveArrival);

      // Send the Order to the queue.
      myQueue->Send( myMessage );
      return;
   }

   String^ ReceiveMessage()
   {
      // Connect to the a queue on the local computer.
      MessageQueue^ myQueue = gcnew MessageQueue( ".\\myQueue" );
      myQueue->MessageReadPropertyFilter->CorrelationId = true;
      array<Type^>^p = gcnew array<Type^>(1);
      p[ 0 ] = String::typeid;
      myQueue->Formatter = gcnew XmlMessageFormatter( p );
      String^ returnString = nullptr;
      try
      {
         // Receive and format the message. 
         Message^ myMessage = myQueue->Receive();

         // Display message information.
         Console::WriteLine( "____________________________________________" );
         Console::WriteLine( "Original message information--" );
         Console::WriteLine( "Body: {0}", myMessage->Body );
         Console::WriteLine( "Id: {0}", myMessage->Id );
         Console::WriteLine( "____________________________________________" );
         returnString = myMessage->Id;
      }
      catch ( MessageQueueException^ ) 
      {
         // Handle Message Queuing exceptions.
      }
      // Handle invalid serialization format.
      catch ( InvalidOperationException^ e ) 
      {
         Console::WriteLine( e->Message );
      }

      // Catch other exceptions as necessary.
      return returnString;
   }

   void ReceiveAcknowledgment( String^ messageId, String^ queuePath )
   {
      bool found = false;
      MessageQueue^ queue = gcnew MessageQueue( queuePath );
      queue->MessageReadPropertyFilter->CorrelationId = true;
      queue->MessageReadPropertyFilter->Acknowledgment = true;
      try
      {
         while ( queue->PeekByCorrelationId( messageId ) != nullptr )
         {
            Message^ myAcknowledgmentMessage = queue->ReceiveByCorrelationId( messageId );

            // Output acknowledgment message information. The correlation Id is identical
            // to the id of the original message.
            Console::WriteLine( "Acknowledgment Message Information--" );
            Console::WriteLine( "Correlation Id: {0}", myAcknowledgmentMessage->CorrelationId );
            Console::WriteLine( "Id: {0}", myAcknowledgmentMessage->Id );
            Console::WriteLine( "Acknowledgment Type: {0}", myAcknowledgmentMessage->Acknowledgment );
            Console::WriteLine( "____________________________________________" );
            found = true;
         }
      }
      catch ( InvalidOperationException^ e ) 
      {
         // This exception would be thrown if there is no (further) acknowledgment message
         // with the specified correlation Id. Only output a message if there are no messages;
         // not if the loop has found at least one.
         if ( found == false )
         {
            Console::WriteLine( e->Message );
         }

         // Handle other causes of invalid operation exception.
      }

   }

};

int main()
{
   // Create a new instance of the class.
   MyNewQueue^ myNewQueue = gcnew MyNewQueue;

   // Create new queues.
   MyNewQueue::CreateQueue( ".\\myQueue" );
   MyNewQueue::CreateQueue( ".\\myAdministrationQueue" );

   // Send messages to a queue.
   myNewQueue->SendMessage();

   // Receive messages from a queue.
   String^ messageId = myNewQueue->ReceiveMessage();

   // Receive acknowledgment message.
   if ( messageId != nullptr )
   {
      myNewQueue->ReceiveAcknowledgment( messageId, ".\\myAdministrationQueue" );
   }

   return 0;
}
using System;
using System.Messaging;

namespace MyProject
{

    /// <summary>
    /// Provides a container class for the example.
    /// </summary>
    public class MyNewQueue
    {

        //**************************************************
        // Provides an entry point into the application.
        //		
        // This example sends and receives a message from
        // a queue.
        //**************************************************

        public static void Main()
        {
            // Create a new instance of the class.
            MyNewQueue myNewQueue = new MyNewQueue();

            // Create new queues.
            CreateQueue(".\\myQueue");
            CreateQueue(".\\myAdministrationQueue");

            // Send messages to a queue.
            myNewQueue.SendMessage();

            // Receive messages from a queue.
            string messageId = myNewQueue.ReceiveMessage();

            // Receive acknowledgment message.
            if(messageId != null)
            {
                myNewQueue.ReceiveAcknowledgment(messageId, ".\\myAdministrationQueue");
            }

            return;
        }

        //**************************************************
        // Creates a new queue.
        //**************************************************

        public static void CreateQueue(string queuePath)
        {
            try	
            {
                if(!MessageQueue.Exists(queuePath))
                {
                    MessageQueue.Create(queuePath);
                }
                else
                {
                    Console.WriteLine(queuePath + " already exists.");
                }
            }
            catch (MessageQueueException e)
            {
                Console.WriteLine(e.Message);
            }
        }

        //**************************************************
        // Sends a string message to a queue.
        //**************************************************
        
        public void SendMessage()
        {

            // Connect to a queue on the local computer.
            MessageQueue myQueue = new MessageQueue(".\\myQueue");

            // Create a new message.
            Message myMessage = new Message("Original Message");

            myMessage.AdministrationQueue = new MessageQueue(".\\myAdministrationQueue");
            myMessage.AcknowledgeType = AcknowledgeTypes.PositiveReceive | AcknowledgeTypes.PositiveArrival;

            // Send the Order to the queue.
            myQueue.Send(myMessage);

            return;
        }

        //**************************************************
        // Receives a message containing an Order.
        //**************************************************
        
        public  string ReceiveMessage()
        {
            // Connect to the a queue on the local computer.
            MessageQueue myQueue = new MessageQueue(".\\myQueue");

            myQueue.MessageReadPropertyFilter.CorrelationId = true;

            // Set the formatter to indicate body contains an Order.
            myQueue.Formatter = new XmlMessageFormatter(new Type[]
                {typeof(string)});

            string returnString = null;
            
            try
            {
                // Receive and format the message.
                Message myMessage =	myQueue.Receive();

                // Display message information.
                Console.WriteLine("____________________________________________");
                Console.WriteLine("Original message information--");
                Console.WriteLine("Body: " +myMessage.Body.ToString());
                Console.WriteLine("Id: " + myMessage.Id.ToString());
                Console.WriteLine("____________________________________________");

                returnString =  myMessage.Id;
            }
            
            catch (MessageQueueException)
            {
                // Handle Message Queuing exceptions.
            }

            // Handle invalid serialization format.
            catch (InvalidOperationException e)
            {
                Console.WriteLine(e.Message);
            }
            
            // Catch other exceptions as necessary.

            return returnString;
        }

        //**************************************************
        // Receives a message containing an Order.
        //**************************************************
        
        public void ReceiveAcknowledgment(string messageId, string queuePath)
        {
            bool found = false;
            MessageQueue queue = new MessageQueue(queuePath);
            queue.MessageReadPropertyFilter.CorrelationId = true;
            queue.MessageReadPropertyFilter.Acknowledgment = true;

            try
            {
                while(queue.PeekByCorrelationId(messageId) != null)
                {
                    Message myAcknowledgmentMessage = queue.ReceiveByCorrelationId(messageId);
            
                    // Output acknowledgment message information. The correlation Id is identical
                    // to the id of the original message.
                    Console.WriteLine("Acknowledgment Message Information--");
                    Console.WriteLine("Correlation Id: " + myAcknowledgmentMessage.CorrelationId.ToString());
                    Console.WriteLine("Id: " + myAcknowledgmentMessage.Id.ToString());
                    Console.WriteLine("Acknowledgment Type: " + myAcknowledgmentMessage.Acknowledgment.ToString());
                    Console.WriteLine("____________________________________________");

                    found = true;
                }
            }
            catch (InvalidOperationException e)
            {
                // This exception would be thrown if there is no (further) acknowledgment message
                // with the specified correlation Id. Only output a message if there are no messages;
                // not if the loop has found at least one.
                if(found == false)
                {	
                    Console.WriteLine(e.Message);
                }

                // Handle other causes of invalid operation exception.
            }
        }
    }
}
Imports System.Messaging


' Provides a container class for the example.

Public Class MyNewQueue
   
   

   ' Provides an entry point into the application.       
   ' This example sends and receives a message from
   ' a queue.
      
   Public Shared Sub Main()
         ' Create a new instance of the class.
         Dim myNewQueue As New MyNewQueue()
         
         ' Create new queues.
         CreateQueue(".\myQueue")
         CreateQueue(".\myAdministrationQueue")
         
         ' Send messages to a queue.
         myNewQueue.SendMessage()
         
         ' Receive messages from a queue.
         Dim messageId As String = myNewQueue.ReceiveMessage()
         
         ' Receive acknowledgment message.
         If Not (messageId Is Nothing) Then
            myNewQueue.ReceiveAcknowledgment(messageId, ".\myAdministrationQueue")
         End If
         
         Return
   End Sub
      
      
      ' Creates a new queue.

   Public Shared Sub CreateQueue(queuePath As String)
         Try
            If Not MessageQueue.Exists(queuePath) Then
               MessageQueue.Create(queuePath)
            Else
               Console.WriteLine((queuePath + " already exists."))
            End If
         Catch e As MessageQueueException
            Console.WriteLine(e.Message)
         End Try
   End Sub
       
      
      
 
      ' Sends a string message to a queue.
 
   Public Sub SendMessage()
         
         ' Connect to a queue on the local computer.
         Dim myQueue As New MessageQueue(".\myQueue")
         
         ' Create a new message.
         Dim myMessage As New Message("Original Message")
         
         myMessage.AdministrationQueue = New MessageQueue(".\myAdministrationQueue")
         myMessage.AcknowledgeType = AcknowledgeTypes.PositiveReceive Or AcknowledgeTypes.PositiveArrival
         
         ' Send the Order to the queue.
         myQueue.Send(myMessage)
         
         Return
   End Sub
      
      
      
 
      ' Receives a message containing an Order.
 
   Public Function ReceiveMessage() As String
         ' Connect to the a queue on the local computer.
         Dim myQueue As New MessageQueue(".\myQueue")
         
         myQueue.MessageReadPropertyFilter.CorrelationId = True
         
         
         ' Set the formatter to indicate body contains an Order.
         myQueue.Formatter = New XmlMessageFormatter(New Type() {GetType(String)})
         
         Dim returnString As String = Nothing
         
         Try
            ' Receive and format the message. 
            Dim myMessage As Message = myQueue.Receive()
            
            
            ' Display message information.
            Console.WriteLine("____________________________________________")
            Console.WriteLine("Original message information--")
            Console.WriteLine(("Body: " + myMessage.Body.ToString()))
            Console.WriteLine(("Id: " + myMessage.Id.ToString()))
            Console.WriteLine("____________________________________________")
            
            returnString = myMessage.Id
         
         
                  
         ' Handle invalid serialization format.
         Catch e As InvalidOperationException
            Console.WriteLine(e.Message)
         End Try
         
         ' Catch other exceptions as necessary.
         Return returnString
   End Function 'ReceiveMessage
      
      
 
      ' Receives a message containing an Order.
 
   Public Sub ReceiveAcknowledgment(messageId As String, queuePath As String)
         Dim found As Boolean = False
         Dim queue As New MessageQueue(queuePath)
         queue.MessageReadPropertyFilter.CorrelationId = True
         queue.MessageReadPropertyFilter.Acknowledgment = True
         
         Try
            While Not (queue.PeekByCorrelationId(messageId) Is Nothing)
               Dim myAcknowledgmentMessage As Message = queue.ReceiveByCorrelationId(messageId)
               
               ' Output acknowledgment message information. The correlation Id is identical
               ' to the id of the original message.
               Console.WriteLine("Acknowledgment Message Information--")
               Console.WriteLine(("Correlation Id: " + myAcknowledgmentMessage.CorrelationId.ToString()))
               Console.WriteLine(("Id: " + myAcknowledgmentMessage.Id.ToString()))
               Console.WriteLine(("Acknowledgment Type: " + myAcknowledgmentMessage.Acknowledgment.ToString()))
               Console.WriteLine("____________________________________________")
               
               found = True
            End While
         Catch e As InvalidOperationException
            ' This exception would be thrown if there is no (further) acknowledgment message
            ' with the specified correlation Id. Only output a message if there are no messages;
            ' not if the loop has found at least one.
            If found = False Then
               Console.WriteLine(e.Message)
            End If
         End Try 
   End Sub
 End Class

Remarks

This method looks in the non-transactional queue referenced by the MessageQueue for a message whose CorrelationId matches the specified correlationId parameter. If no message is found that matches the correlationID parameter, an exception is thrown. Otherwise, the message is removed from the queue and returned to the application.

The CorrelationId property is used to tie a message sent to the queue to associated response, report, or acknowledgment messages.

Two other methods allow you to receive messages from a queue. The Receive method returns the first message in the queue, and the ReceiveById(String) method retrieves a message by specifying its unique identifier.

To read a message with a specified correlation identifier without removing it from the queue, use the PeekByCorrelationId(String) method. The PeekByCorrelationId(String) method always returns the first message in the queue, so subsequent calls to the method return the same message unless a higher priority message arrives in the queue.

The following table shows whether this method is available in various Workgroup modes.

Workgroup mode Available
Local computer Yes
Local computer and direct format name Yes
Remote computer No
Remote computer and direct format name Yes

See also

Applies to