collectagent.cpp 6.16 KB
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//============================================================================
// Name        : CollectAgent.cpp
// Author      : Axel Auweter
// Version     :
// Copyright   : Leibniz Supercomputing Centre
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// Description : Main code of the CollectAgent
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//============================================================================

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#include <cstdlib>
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#include <signal.h>
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#include <unistd.h>
#include <string>
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#include <boost/date_time/posix_time/posix_time.hpp>
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#include <dcdb/sensordatastore.h>

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#include "simplemqttserver.h"
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#include "messaging.h"
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#include "abrt.h"
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#define __STDC_FORMAT_MACROS
#include <inttypes.h>

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using namespace std;
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int keepRunning;
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uint64_t msgCtr;
uint64_t pmsgCtr;
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SensorDataStore *mySensorDataStore;
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std::string listenHost, cassandraHost;
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/* Normal termination (SIGINT, CTRL+C) */
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void sigHandler(int sig)
{
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  keepRunning = 0;
}

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/* Crash */
void abrtHandler(int sig)
{
  abrt(EXIT_FAILURE, SIGNAL);
}

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void mqttCallback(SimpleMQTTMessage *msg)
{
  /*
   * Increment the msgCtr/vmsgCtr for statistics.
   */
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  msgCtr++;
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  if (msg->isPublish())
    pmsgCtr++;

  /*
   * Decode the message and put into the database.
   */
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  if (msg->isPublish()) {
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      uint64_t val;
      uint64_t ts;

      //In the 64 bit message case, the collect agent provides a timestamp
      if(msg->getPayloadLength()==sizeof(uint64_t)) {

          //printf("Providing timestamp...\n");
          val = *((uint64_t*)msg->getPayload());
          ts = Messaging::calculateTimestamp();
          //printf("Val = %" PRIu64 ", timestamp = %" PRIu64 "\n", val, ts);
      }

      //...otherwise it just retrieves it from the MQTT message payload.
      else if((msg->getPayloadLength()%sizeof(mqttPayload)==0) && (msg->getPayloadLength()>0)){

          //printf("Retrieving timestamp...\n");
          mqttPayload *payload = (mqttPayload*)msg->getPayload();

          val = payload->value; // payload[n].value
          ts = payload->timestamp;
          //printf("Val = %" PRIu64 ", timestamp = %" PRIu64 "\n", val, ts);
      }

      //...otherwise this message is malformed -> ignore...
      else {
          delete msg;
          return;
      }
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      /*
       * Check if we can decode the message topic
       * into a valid SensorId. If successful, store
       * the record in the database.
       */
      SensorId sid;
      if (mySensorDataStore->topicToSid(&sid,msg->getTopic())) {
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#if 0
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          cout << "Topic decode successful:"
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              << "\nRaw: " << hex << setw(16) << setfill('0') << sid.raw[0] << " " << hex << setw(16) << setfill('0') << sid.raw[1]
              << "\ndatacenter_id: " << hex << ((sid.dl & 0xFF00000000000000) >> 56)
              << "\ncluster_id:    " << hex << ((sid.dl & 0x00FF000000000000) >> 48)
              << "\nrack_id:       " << hex << ((sid.dl & 0x0000FFFF00000000) >> 32)
              << "\nchassis_id:    " << hex << ((sid.dl & 0x00000000FF000000) >> 24)
              << "\nbic_id:        " << hex << ((sid.dl & 0x0000000000FF0000) >> 16)
              << "\nbmc_id:        " << hex << ((sid.dl & 0x000000000000FF00) >> 8)
              << "\nknc_id:        " << hex << ((sid.dl & 0x00000000000000FF))
              << "\ndevice_id:     " << hex << sid.dsid.device_id
              << "\nreserved:      " << hex << sid.dsid.rsvd
              << "\nsensor_number: " << hex << sid.dsid.sensor_number
              << "\n";
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#endif
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          mySensorDataStore->insert(&sid, ts, val);
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      }
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#if 1
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      else {
          cout << "Wrong topic format: " << msg->getTopic() << "\n";
      }
#endif
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  }
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  delete msg;
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}

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/*
 * Print usage information
 */
void usage() {
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  printf("Usage: collectagent [-D] [-l <host>] [-h <host>]\n");
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  printf("Collectagent will accept remote connections by listening to the\n");
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  printf("specified listen address (-l <host>) at port 1883 (default MQTT port).\n");
  printf("It will also connect to cassandra to the specifiec addres (-h <host>).\n");
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  printf("The default <host> is localhost/127.0.0.1.\n");
  printf("If the -D option is specified, CollectAgent will run as daemon.\n\n");
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}

int main(int argc, char* const argv[]) {
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  try{
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      /*
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       * Catch SIGINT signals to allow for proper server shutdowns.
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       */
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      signal(SIGINT, sigHandler);
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      /*
       * Catch critical signals to allow for backtraces
       */
      signal(SIGABRT, abrtHandler);
      signal(SIGSEGV, abrtHandler);
      signal(SIGTERM, abrtHandler);

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      /* Parse command line */
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      int ret;
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      listenHost="localhost";
      cassandraHost="127.0.0.1";
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      while ((ret=getopt(argc, argv, "h:l:D?"))!=-1) {
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          switch(ret) {
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              case 'h':
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                  cassandraHost = optarg;
                  break;
              case 'l':
                  listenHost = optarg;
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                  break;
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              case 'D':
                  daemon(1,1);
                  break;
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              case '?':
              default:
                  usage();
                  exit(EXIT_FAILURE);
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          }
      }

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      /*
       * Allocate and initialize sensor data store.
       */
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      std::string sdHost(cassandraHost);
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      mySensorDataStore = new SensorDataStore(sdHost, 9042);
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      /*
       * Start the MQTT Message Server.
       */
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      SimpleMQTTServer ms(listenHost,"1883");
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      ms.setMessageCallback(mqttCallback);
      ms.start();

      cout << "Server running...\n";

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      /*
       * Run (hopefully) forever...
       */
      keepRunning = 1;
      timeval start, end;
      double elapsed;

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      while(keepRunning) {
          gettimeofday(&start, NULL);
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          sleep(60);
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          /* not really thread safe but will do the job */
          gettimeofday(&end, NULL);
          elapsed = (end.tv_sec - start.tv_sec) * 1000.0;
          elapsed += (end.tv_usec - start.tv_usec) / 1000.0;
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          float publish = msgCtr?(pmsgCtr*100.0)/msgCtr:0;
          cout << "Message rate: " << (msgCtr/elapsed)*1000.0 << " messages/second (" << publish << "% PUBLISH)\n";
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          msgCtr = 0;
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          pmsgCtr = 0;
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      }

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      cout << "Stopping...\n";
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      ms.stop();
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      delete mySensorDataStore;
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  }
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  catch (const exception& e) {
      cout << "Exception: " << e.what() << "\n";
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      abrt(EXIT_FAILURE, INTERR);
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  }

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  return EXIT_SUCCESS;
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}
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