MQReceiveMessage (Compact 2013)
3/26/2014
This function allows you to read messages in the queue. When reading messages, you can either peek at (not removing them) or retrieve the messages (removing them) in the queue.
Messages can be read either synchronously, asynchronously, or through a transaction.
Syntax
HRESULT APIENTRY MQReceiveMessage(
QUEUEHANDLE hSource,
DWORD dwTimeout,
DWORD dwAction,
MQMSGPROPS pMessageProps,
LPOVERLAPPED lpOverlapped,
PMQRECEIVECALLBACK fnReceiveCallback,
HANDLE hCursor,
Transaction* pTransaction
);
Parameters
hSource
[in] Handle to the queue that contains the message.For transactions, specify a queue on a local computer.
dwTimeout
[in] Time, in milliseconds, to wait for the message.Can be set to INFINITE.
dwAction
[in] How the message is read in the queue.Specify one of the following values.
Value
Description
MQ_ACTION_RECEIVE
Reads the message at the current cursor location and removes it from the queue.
MQ_ACTION_PEEK_CURRENT
Reads the message at the current cursor location but does not remove it from the queue. The cursor remains pointing at the current message.
If a cursor was not created by MQCreateCursor (hCursor is NULL), the queue's cursor can only point to the first message in the queue.
MQ_ACTION_PEEK_NEXT
Reads the next message in the queue, skipping the message at the current cursor location, but does not remove it from the queue.
Before you can use MQ_ACTION_PEEK_NEXT, call MQCreateCursor (hCursor is not NULL).
pMessageProps
[in, out] On input, a pointer to an MQMSGPROPS structure that specifies which message properties will be received.Can be set to NULL.
On output, it contains the received message property values.
lpOverlapped
[in, out] Pointer to an overlapped structure.Set to NULL for synchronous receive and transactions.
fnReceiveCallback
[in] Pointer to the callback function.Set to NULL for synchronous receive and transactions.
hCursor
[in] Handle to a cursor for looking at messages in the queue.Can be set to NULL.
See the following Remarks section.
- pTransaction
[in] Not supported; set to NULL.
Return Value
- MQ_OK
Indicates success.
- MQ_ERROR_ACCESS_DENIED
The action specified in dwAction does not agree with the access rights the queue was opened with.
MQ_ERROR_BUFFER_OVERFLOW
The supplied buffer for the message body is too small.The part of the message body that fits into the buffer is copied, but the message is not removed from the queue.
MQ_ERROR_COMPUTER_DOES_NOT_SUPPORT_ENCRYPTION
If specified, the following properties return this error:- PROPID_M_HASH_ALG
- PROPID_M_ENCRYPTION_ALG
- PROPID_M_PROV_TYPE
- PROPID_M_SECURITY_CONTEXT
Other encryption properties return NULL data.
- MQ_ERROR_SENDERID_BUFFER_TOO_SMALL
The supplied sender identification buffer is too small to hold the sender identification.
- MQ_ERROR_SYMM_KEY_BUFFER_TOO_SMALL
The supplied symmetric key buffer is too small to hold the symmetric key.
- MQ_ERROR_SENDER_CERT_BUFFER_TOO_SMALL
The supplied sender certificate buffer is too small to hold the security certificate.
- MQ_ERROR_SIGNATURE_BUFFER_TOO_SMALL
The supplied signature buffer is too small to hold the message's digital signature.
- MQ_ERROR_PROV_NAME_BUFFER_TOO_SMALL
The supplied provider name buffer is too small to hold the cryptographic service provider's name.
- MQ_ERROR_LABEL_BUFFER_TOO_SMALL
The supplied message label buffer is too small to hold the message's label.
- MQ_ERROR_FORMATNAME_BUFFER_TOO_SMALL
The supplied format name buffer is too small to hold the format name of the queue.
- MQ_ERROR_DTC_CONNECT
MSMQ could not connect with the Microsoft Distributed Transaction Coordinator (DTC).
MQ_ERROR_INSUFFICIENT_PROPERTIES
One of the following message properties was specified (in pMessageProps) without its associated length property:
- MQ_ERROR_INVALID_HANDLE
The queue handle specified in hSource is not valid.
- MQ_ERROR_IO_TIMEOUT
No message was received within the time-out period specified by dwTimeout.
MQ_ERROR_MESSAGE_ALREADY_RECEIVED
A message pointed at by the cursor has been removed from the queue.It can be removed by another process or by another call to MQReceiveMessage using a different cursor, or if the message time-to-be-received timer has expired.
MQ_ERROR_OPERATION_CANCELLED
The operation was canceled before it could be completed.For example, the queue handle was closed by another thread while waiting for a message.
- MQ_ERROR_PROPERTY
One or more message properties specified in pMessageProps resulted in an error.
MQ_ERROR_QUEUE_DELETED
The queue was deleted before the message could be read.The specified queue handle is no longer valid and the queue handle must be closed.
- MQ_ERROR_ILLEGAL_CURSOR_ACTION
MQ_ACTION_PEEK_NEXT cannot be used with the current cursor position.
- MQ_ERROR_SERVICE_NOT_AVAILABLE
Cannot connect to the Queue Manager.
- MQ_ERROR_STALE_HANDLE
The specified queue handle was obtained in a previous session of the Queue Manager service. To obtain a fresh handle, close the queue and open it again.
- MQ_ERROR_TRANSACTION_USAGE
Transaction error. An attempt was made to open a remote queue for read access from within a transaction, or an attempt was made to read a message from a nontransactional queue from within a transaction.
- MQ_INFORMATION_PROPERTY
One or more properties specified in pMessageProps resulted in a warning code even though the function is completed.
Remarks
All message properties can be read. However, only properties specified in the pMessageProps parameter are returned to the calling application; other properties are discarded when the message is read. For example, you can retrieve the size of the message without retrieving the message body.
The hCursor parameter contains the handle to a cursor created by MQCreateCursor. Using a cursor is optional and is only necessary when you want to read messages that are not at the front of the queue.
When using a cursor, before you make calls with dwAction set to MQ_ACTION_PEEK_NEXT, peek at the first message in the queue by setting dwAction to MQ_ACTION_PEEK_CURRENT.
To retrieve the message body, specify PROPID_M_BODY in pMessageProps. Set the VT field of the corresponding element in the aPropVar array to VT_UI1 | VT_VECTOR, allowing MSMQ to use the buffer specified in the CAUI1 structure to store the message.
If the supplied buffer is too small to contain the entire message body, MQReceiveMessage fails and MQ_ERROR_BUFFER_OVERFLOW is returned. The buffer is filled to capacity, and the full message remains in the queue. When this happens, the other properties specified by pMessageProps are still read.
To retrieve the size of the message, specify PROPID_M_BODY_SIZE in pMessageProps. MSMQ sets PROPID_M_BODY_SIZE to the size of the message body, even if MQReceiveMessage fails because the message body exceeded the buffer allocated by PROPID_M_BODY.
When retrieving the message body size, the CAUI1 structure associated with the PROPID_M_BODY property does not indicate the size. The cElems field of the CAUI1 structure indicates the maximum message body, which could be copied into the pElems buffer. The cElems field is never modified by MSMQ.
Not all properties require the application to specify the property type in the VT field of the aPropVar array. For these properties, the corresponding VT field in the aPropVar array can be set to VT_NULL.
When reading messages in a queue, the function's time-out timer (dwTimeout) can be set to 0, a specific amount of time, or INFINITE. A message can be retrieved if it is available at that period of time.
Synchronously Reading Messages
To synchronously read messages, set fnReceiveCallback and lpOverlapped to NULL. When this is done, the calling thread is blocked until a suitable message is available or a time-out occurs.
Asynchronously Reading Messages
When asynchronously reading messages, MQReceiveMessage returns a SUCCESS value if a suitable message is found.
Otherwise, the function returns immediately with the return value MQ_INFORMATION_OPERATION_PENDING. This return value indicates that the operation is pending and will be completed as soon as a suitable message can be found.
Asynchronous receive is based on standard Microsoft® Win32® mechanisms.
To read messages asynchronously, applications can use one of the following:
- A callback function
- A Windows Event mechanism
When using a callback function, you can register only 64 callbacks at the same time.
Keep the output parameters for an asynchronous call to MQReceiveMessage intact until the operation is complete (that is, until you cannot free or reuse them).
Use automatic variables with caution.
Messages in Administration Queues
When reading acknowledgment messages in an administration queue, you can see if the original message failed to reach its destination or was not retrieved from the queue by looking at the class property (PROPID_M_CLASS) of the acknowledgment message.
The class property contains a positive or negative acknowledgment, depending on the acknowledgment level specified by the original message.
If the class property is positive, the original message body is not included in the acknowledgment message.
If the class property is negative, the message body is included as the message body of the acknowledgment message.
Responding to Messages
The receiving application can determine if the sending application expects a response by retrieving the PROPID_M_RESP_QUEUE and PROPID_M_RESP_QUEUE_LEN properties when reading a message. If a response is requested, PROPID_M_RESP_QUEUE contains the format name of a response queue.
When opening a response queue to send several response messages, the receiving application can cache the queue handle returned by MQOpenQueue, eliminating the need to call MQOpenQueue several times for the same response queue.
Note
OS versions prior to 2.12 require the MSMQ add-on pack.
Requirements
Header |
mq.h |
Library |
msmqrt.lib |
See Also
Reference
MSMQ Functions
aPropVar
MQCreateCursor
MQOpenQueue
PROPID_M_ADMIN_QUEUE
PROPID_M_BODY
PROPID_M_BODY_SIZE
PROPID_M_CLASS
PROPID_M_DEST_QUEUE
PROPID_M_LABEL
PROPID_M_RESP_QUEUE
PROPID_M_RESP_QUEUE_LEN
MQMSGPROPS