A queue's service procedure is invoked to process messages on the queue. It removes successive messages from the queue, processes them, and calls the put procedure of the next module in the stream to give the processed message to the next queue.
The service procedure is optional. A module or driver can use a service procedure for the following reasons:
Streams flow control is implemented by service procedures. If the next component on the stream has been flow controlled, the put procedure can queue the message. (See "Flow Control in Service Procedures" in Chapter 7, STREAMS Framework -Kernel Level for more on Flow Control.)
Resource allocation recovery. If a put or service procedure cannot allocate a resource, such as memory, the message is usually queued to process later.
A device driver can queue a message and get out of interrupt context.
To combine multiple messages into larger messages.
The service procedure is invoked by the STREAMS scheduler. A STREAMS service procedure is scheduled to run if:
The queue is not disabled (noenable(9F)) and
The message being queued (putq(9F) or putbq(9F)) is a high-priority message,
The queue has been back enabled because flow control has been relieved,
The queue has been explicitly enabled (qenable(9F)).
A service procedure usually processes all messages on its queue (getq(9F)) or takes appropriate action to ensure it is reenabled (qenable(9F)) at a later time. Figure 7-11 shows the flow of a service procedure.
High-priority messages must never be placed back on a service queue (putbq(9F)); this can cause an infinite loop.
Example 7-4 shows a module service procedure.
/*example of a module service procedure */ int xxrsrv(queue_t *q) { mblk_t *mp; /* * While there are still messages on our service queue */ while ((mp = getq(q) != NULL) { /* * We check for high priority messages, but * none is ever seen since the put procedure * never queues them. * If the next module is not flow controlled, then */ if (mp->b_datap->db_type >= QPCTL || (canputnext (q)) { /* * process message */ . . . putnext (q, mp); } else { /* * put message back on service queue */ putbq(q,mp); break; } } return (0); }