Difference between revisions of "Doc:latest/evalguide/csa212"

(Code)
(Code)
Line 117: Line 117:
 
         SaAisErrorT  rc = SA_AIS_OK;
 
         SaAisErrorT  rc = SA_AIS_OK;
 
         static ClPtrT  resTest = NULL;
 
         static ClPtrT  resTest = NULL;
         static ClSizeT resSize;
+
         static ClSizeT resSize = 0;
  
 
         if (running == 0 || ha_state != SA_AMF_HA_ACTIVE)
 
         if (running == 0 || ha_state != SA_AMF_HA_ACTIVE)
Line 124: Line 124:
 
         }
 
         }
 
         clprintf(CL_LOG_SEV_INFO,"We've got an event to receive");
 
         clprintf(CL_LOG_SEV_INFO,"We've got an event to receive");
 +
       
 +
        if (resTest != 0)
 +
        {
 +
            // Maybe try to save the previously allocated buffer if it's big
 +
            // enough to hold the new event message.
 +
            clHeapFree((char *)resTest);
 +
            resTest = 0;
 +
            resSize = 0;
 +
        }
  
 
         resTest = clHeapAllocate(eventDataSize + 1);
 
         resTest = clHeapAllocate(eventDataSize + 1);
Line 147: Line 156:
 
|}  
 
|}  
  
The event delivery callback function is named <code>csa112Comp_appEventCallback</code>.  First it checks that the running variable is not zero and that the High Availability State is <code>CL_AMS_HA_STATE_ACTIVE</code>, otherwise it returns, dropping the event in the bit bucket.  Next it checks whether our incoming data buffer needs to be deallocated.  If there is a buffer, it deallocates it and then allocates enough data to receive the incoming event data.  Then, we extract the data from the event into the newly allocated buffer using <code>clEventDataGet</code>.  Finally, we print the event data we received using <code>clprintf</code> which is another member of Clovis' OS Abstraction Layer.  As its name and usage suggest, it is the OSAL replacement for printf.
+
The event delivery callback function is named <code>csa212Comp_appEventCallback</code>.  First it checks that the running variable is not zero and that the High Availability State is <code>CL_AMS_HA_STATE_ACTIVE</code>, otherwise it returns, dropping the event in the bit bucket.  Next it checks whether our incoming data buffer needs to be deallocated.  If there is a buffer, it deallocates it and then allocates enough data to receive the incoming event data.  Then, we extract the data from the event into the newly allocated buffer using <code>saEvtEventDataGet</code>.  Finally, we print the event data we received using <code>clprintf</code> which is another member of Clovis' OS Abstraction Layer.  As its name and usage suggest, it is the OSAL replacement for printf.
  
 
===csa212 SA Forum Compliant Event Subscription===
 
===csa212 SA Forum Compliant Event Subscription===

Revision as of 09:51, 1 October 2010

Contents

csa212 Event Subscription

Objective

The objective of csa212 is to learn how to use Clovis' event service to subscribe to events and to extract the relevant information from the events received by subscription.

What you will learn

You will learn

  • how to initialize the event library
  • how to subscribe to events
  • how to receive events
  • how to extract the event data

Code

One difference to note between this application and previous ones is that this application will not have a main loop in clCompAppInitialize. Instead we will do our work in callback code. This means that when we return from clCompAppInitialize we won't exit the application.

clCompAppMain.c
    SaNameT    evtChannelName = {
                    sizeof EVENT_CHANNEL_NAME - 1,
                    EVENT_CHANNEL_NAME
           };

    SaEvtChannelHandleT    evtChannelHandle = 0;
    SaEvtHandleT      evtHandle = CL_HANDLE_INVALID_VALUE;

    static void
    csa212Comp_appEventCallback( SaEvtSubscriptionIdT subscriptionId,
                                          SaEvtEventHandleT eventHandle,
                                          SaSizeT eventDataSize);

  

Here we define variables to hold the payload of our event. Note the initialization of the evtChannelName. The length is set to the length of the EVENT_CHANNEL_NAME string WITHOUT including the null terminator.

clCompAppMain.c
    int
    main(int argc, char *argv[])
    {
        ....

        const SaEvtCallbacksT   evtCallbacks = {
                           NULL,
                           csa212Comp_appEventCallback
                        };

        ...

        // publish our event callbacks
        rc = saEvtInitialize(&evtHandle, &evtCallbacks, &evtVersion);

        ...
  

We initialize the OpenClovis Event Manager with saEventInitialize. We pass the address of the variable where we want the event handle stored. We pass the address of our event callback functions structure. Note that the only event callback function that we specify is csa212Comp_appEventCallback. We do not specify the other callback which is the Asynchronous channel open callback. We specify NULL for that field of evtCallbacks because we don't open our event channel asynchronously.:

clCompAppMain.c
    int
    main(int argc, char *argv[])
    {

        ....

        // Open an event chanel so that we can subscribe to events on that channel
        rc = saEvtChannelOpen(evtHandle,
                &evtChannelName,
                (SA_EVT_CHANNEL_SUBSCRIBER |
                 SA_EVENT_CHANNEL_CREATE),
                (SaTimeT)SA_TIME_END,
                &evtChannelHandle);
        if (rc != SA_AIS_OK)
        {   
            clprintf(CL_LOG_SEV_ERROR, "%s\t:Failure opening event channel[0x%x] at %ld\n", appname,

            logrc(CL_LOG_ERROR, "%s\t:Failure opening event channel[0x%x]\n",
                    appname, rc
            goto errorexit;
        }

        rc = saEvtEventSubscribe(evtChannelHandle, NULL, 1);
        if (rc != SA_AIS_OK)
        {
            clprintf(CL_LOG_SEV_ERROR, "%s\t: Failed to subscribe to event channel [0x%x]\n",
                    appname, rc);
            logrc(CL_LOG_ERROR,
                    "%s\t:Failed to subscribe to event channel [0x%x]\n",
                    appname, rc);
            goto errorexit;
        }

  

Within the above code we open the channel synchronously. We pass the handle we got back from saEventInitialize, the channel name we defined previously, flags that indicate this process is subscribing to the channel and it's a global channel, and that the channel should be created if it's not already there, a timeout value of "forever", and the address of the location where the channel handle should be stored. Then, we subscribe to a specific event stream on the event channel. The EVENT_TYPE constant is defined in common/common.h as 5432. This value is used by the event publisher when it sends events. The constant 1 being passed simply identifies this specific subscription on this channel. This value will be passed to our event delivery callback function.

clCompAppMain.c
    static void
    csa212Comp_appEventCallback( SaEvtSubscriptionIdT subscriptionId,
                                              SaEvtEventHandleT eventHandle,
                                              SaSizeT eventDataSize)
    {
        SaAisErrorT  rc = SA_AIS_OK;
        static ClPtrT  resTest = NULL;
        static ClSizeT resSize = 0;

        if (running == 0 || ha_state != SA_AMF_HA_ACTIVE)
        {
           return; 
        }
        clprintf(CL_LOG_SEV_INFO,"We've got an event to receive");
        
        if (resTest != 0)
        {
            // Maybe try to save the previously allocated buffer if it's big
            // enough to hold the new event message.
            clHeapFree((char *)resTest);
            resTest = 0;
            resSize = 0;
        }

        resTest = clHeapAllocate(eventDataSize + 1);
        if (resTest == NULL)
        {
            logmsg(CL_LOG_ERROR, "%s\tFailed to allocate space for event\n, appname");
            return; 
        }
        *(((char *)resTest) + eventDataSize) = 0;
        resSize = eventDataSize;
        rc = saEvtEventDataGet(eventHandle, resTest, &resSize);
        if (rc != SA_AIS_OK)
        {
           logrc(CL_LOG_ERROR, "%s\t:Failed to get event data [0x%x]\n",
                    appname, rc);
        }

        clprintf(CL_LOG_SEV_INFO,"received event: %s\n", (char *)resTest);
        return;

    }
  

The event delivery callback function is named csa212Comp_appEventCallback. First it checks that the running variable is not zero and that the High Availability State is CL_AMS_HA_STATE_ACTIVE, otherwise it returns, dropping the event in the bit bucket. Next it checks whether our incoming data buffer needs to be deallocated. If there is a buffer, it deallocates it and then allocates enough data to receive the incoming event data. Then, we extract the data from the event into the newly allocated buffer using saEvtEventDataGet. Finally, we print the event data we received using clprintf which is another member of Clovis' OS Abstraction Layer. As its name and usage suggest, it is the OSAL replacement for printf.

csa212 SA Forum Compliant Event Subscription

csa212 demonstrates the usage of SA Forum's Event Service. This sample application does not deviate functionally from csa112. The differences in code are due to using SA Forum data types (structures) and APIs , as presented in the following two tables. (Note we have not repeated data types and APIs covered previously.)

SA Forum Data Types with the SAFplus Platform equivalent
SA Forum Data Types OpenClovis Data Types
SaEvtHandleT ClEventInitHandleT
SaEvtChannelHandleT ClEventChannelHandleT
SaEvtCallbacksT ClEventCallbacksT
SA_EVT_CHANNEL_SUBSCRIBER CL_EVENT_CHANNEL_SUBSCRIBER
SA_EVT_CHANNEL_CREATE CL_EVENT_CHANNEL_CREATE
SA_TIME_END CL_RMD_TIMEOUT_FOREVER



SA Forum APIs with the SAFplus Platform equivalent
SA Forum APIs OpenClovis APIs
SaEvtInitialize ClEventInitialize
saEvtChannelOpen clEventChannelOpen
saEvtEventSubscribe clEventExtSubscribe
saEvtEventDataGet clEventDataGet
saEvtChannelClose clEventChannelClose
saEvtFinalize clEventFinalize

How to Run csa212 and What to Observe

  1. Start example csa212 in the same manner that we have started previous examples, with the SAFplus Platform Console.(Unlock csa212SGI0 instead of csa112SGI0 to run csa212).
     # cd /root/asp/bin
     # ./asp_console
    
    
    cli[Test]-> setc 1
    cli[Test:SCNodeI0]-> setc cpm
    cli[Test:SCNodeI0:CPM]-> amsLockAssignment sg csa212SGI0
    

    Looking at the log file for this example you should see the following.

    /root/asp/var/log/csa212CompI3Log.latest
      Fri Oct  1 13:14:16.935 2010 (PayloadNodeI1.10366 : csa212CompEO.---.---.00001 :   INFO) Component [csa212CompI3] : PID [10366]. Initializing
    
      Fri Oct  1 13:14:16.935 2010 (PayloadNodeI1.10366 : csa212CompEO.---.---.00002 :   INFO)    IOC Address             : 0x4
    
      Fri Oct  1 13:14:16.935 2010 (PayloadNodeI1.10366 : csa212CompEO.---.---.00003 :   INFO)    IOC Port                : 0x80
    
      Fri Oct  1 13:15:31.389 2010 (PayloadNodeI1.10366 : csa212CompEO.---.---.00004 :   INFO) Component [csa212CompI3] : PID [10366]. CSI Set Received
    
    
    
  2. Now unlock the application with:
    cli[Test:SCNodeI0:CPM]-> amsUnlock sg csa212SGI0
    

    At this point you should see the following in the log.

    /root/asp/var/log/csa212CompI3Log.latest
     Fri Oct  1 13:15:31.389 2010 (PayloadNodeI1.10366 : csa212CompEO.---.---.00012 :   INFO) csa212: ACTIVE state requested; activating service
    
      
    

    Thats all there is to this example. What you are looking at in the log is the output of our event listener. It doesn't appear very interesting because we have not yet written an event publisher that will give the program something to output. We'll do that in the next example (csa213).

  3. At this point we can shut down our example in the usual fashion.
    cli[Test:SCNodeI0:CPM]-> amsLockAssignment sg csa212SGI0
    cli[Test:SCNodeI0:CPM]-> amsLockInstantiation sg csa212SGI0
    cli[Test:SCNodeI0:CPM]-> end
    cli[Test:SCNodeI0]-> end
    cli[Test]-> bye
    

OpenClovis Note.pngWhen running model csa212 you will not see the output described for the the amsLockAssignment and amsUnlock commands.

Summary and References

We've seen how to create a basic event subscriber application using Clovis' event manager library. For further reading check the Clovis SAFplus Platform API reference guide, specifically the section on the event manager. Also, the header file: clEventExtApi.h should be helpful.