Ejemplo n.º 1
0
static PyObject *
pytrap_finalize(PyObject *self, PyObject *args)
{
    TRAP_DEFAULT_FINALIZATION();
    // TODO FREE_MODULE_INFO_STRUCT(MODULE_BASIC_INFO, MODULE_PARAMS);
    ur_free_template(in_tmplt);
    ur_finalize();

    Py_RETURN_NONE;
}
Ejemplo n.º 2
0
int main(int argc, char **argv)
{
   int ret;
   signed char opt;
   int mult = 1;

   /* **** TRAP initialization **** */

   /*
    * Macro allocates and initializes module_info structure according to MODULE_BASIC_INFO and MODULE_PARAMS
    * definitions on the lines 69 and 77 of this file. It also creates a string with short_opt letters for getopt
    * function called "module_getopt_string" and long_options field for getopt_long function in variable "long_options"
    */
   INIT_MODULE_INFO_STRUCT(MODULE_BASIC_INFO, MODULE_PARAMS)

   /*
    * Let TRAP library parse program arguments, extract its parameters and initialize module interfaces
    */
   TRAP_DEFAULT_INITIALIZATION(argc, argv, *module_info);

   /*
    * Register signal handler.
    */
   TRAP_REGISTER_DEFAULT_SIGNAL_HANDLER();

   /*
    * Parse program arguments defined by MODULE_PARAMS macro with getopt() function (getopt_long() if available)
    * This macro is defined in config.h file generated by configure script
    */
   while ((opt = TRAP_GETOPT(argc, argv, module_getopt_string, long_options)) != -1) {
      switch (opt) {
      case 'm':
         mult = atoi(optarg);
         break;
      default:
         fprintf(stderr, "Invalid arguments.\n");
         FREE_MODULE_INFO_STRUCT(MODULE_BASIC_INFO, MODULE_PARAMS);
         TRAP_DEFAULT_FINALIZATION();
         return -1;
      }
   }

   /* **** Create UniRec templates **** */
   ur_template_t *in_tmplt = ur_create_input_template(0, "FOO,BAR", NULL);
   if (in_tmplt == NULL){
      fprintf(stderr, "Error: Input template could not be created.\n");
      return -1;
   }
   ur_template_t *out_tmplt = ur_create_output_template(0, "FOO,BAR,BAZ", NULL);
   if (out_tmplt == NULL){
      ur_free_template(in_tmplt);
      fprintf(stderr, "Error: Output template could not be created.\n");
      return -1;
   }

   // Allocate memory for output record
   void *out_rec = ur_create_record(out_tmplt, 0);
   if (out_rec == NULL){
      ur_free_template(in_tmplt);
      ur_free_template(out_tmplt);
      fprintf(stderr, "Error: Memory allocation problem (output record).\n");
      return -1;
   }


   /* **** Main processing loop **** */

   // Read data from input, process them and write to output
   while (!stop) {
      const void *in_rec;
      uint16_t in_rec_size;

      // Receive data from input interface 0.
      // Block if data are not available immediately (unless a timeout is set using trap_ifcctl)
      ret = TRAP_RECEIVE(0, in_rec, in_rec_size, in_tmplt);

      // Handle possible errors
      TRAP_DEFAULT_RECV_ERROR_HANDLING(ret, continue, break);

      // Check size of received data
      if (in_rec_size < ur_rec_fixlen_size(in_tmplt)) {
         if (in_rec_size <= 1) {
            break; // End of data (used for testing purposes)
         } else {
            fprintf(stderr, "Error: data with wrong size received (expected size: >= %hu, received size: %hu)\n",
                    ur_rec_fixlen_size(in_tmplt), in_rec_size);
            break;
         }
      }

      // PROCESS THE DATA

      // Read FOO and BAR from input record and compute their sum
      uint32_t baz = ur_get(in_tmplt, in_rec, F_FOO) +
                     ur_get(in_tmplt, in_rec, F_BAR);

      // Fill output record
      ur_copy_fields(out_tmplt, out_rec, in_tmplt, in_rec);
      ur_set(out_tmplt, out_rec, F_BAZ, mult * baz);

      // Send record to interface 0.
      // Block if ifc is not ready (unless a timeout is set using trap_ifcctl)
      ret = trap_send(0, out_rec, ur_rec_fixlen_size(out_tmplt));

      // Handle possible errors
      TRAP_DEFAULT_SEND_ERROR_HANDLING(ret, continue, break);
   }


   /* **** Cleanup **** */

   // Do all necessary cleanup in libtrap before exiting
   TRAP_DEFAULT_FINALIZATION();

   // Release allocated memory for module_info structure
   FREE_MODULE_INFO_STRUCT(MODULE_BASIC_INFO, MODULE_PARAMS)

   // Free unirec templates and output record
   ur_free_record(out_rec);
   ur_free_template(in_tmplt);
   ur_free_template(out_tmplt);
   ur_finalize();

   return 0;
}
Ejemplo n.º 3
0
int main(int argc, char **argv)
{
   int ret;
   signed char opt;
   ur_template_t *in_tmplt = NULL;
   char *sock_path = NULL;
   
   pthread_t accept_thread;
   pthread_attr_t thrAttr; 
   pthread_attr_init(&thrAttr);
   pthread_attr_setdetachstate(&thrAttr, PTHREAD_CREATE_DETACHED);

   /* **** TRAP initialization **** */

   /**
    * Macro allocates and initializes module_info structure according to MODULE_BASIC_INFO and MODULE_PARAMS
    * definitions on the lines 69 and 77 of this file. It also creates a string with short_opt letters for getopt
    * function called "module_getopt_string" and long_options field for getopt_long function in variable "long_options"
    */
   INIT_MODULE_INFO_STRUCT(MODULE_BASIC_INFO, MODULE_PARAMS)

   /**
    * Let TRAP library parse program arguments, extract its parameters and initialize module interfaces
    */
   TRAP_DEFAULT_INITIALIZATION(argc, argv, *module_info);

   /**
    * Register signal handler.
    */
   TRAP_REGISTER_DEFAULT_SIGNAL_HANDLER();

   /**
    * Parse program arguments defined by MODULE_PARAMS macro with getopt() function (getopt_long() if available)
    * This macro is defined in config.h file generated by configure script
    */
   while ((opt = TRAP_GETOPT(argc, argv, module_getopt_string, long_options)) != -1) {
      switch (opt) {
      default:
         fprintf(stderr, "Error: Invalid arguments.\n");
         goto cleanup;
      }
   }

   /* **** Create UniRec templates **** */
   in_tmplt = ur_create_input_template(0, "PROTOCOL", NULL);
   if (!in_tmplt){
      fprintf(stderr, "Error: Input template could not be created.\n");
      goto cleanup;
   }


   ret = pthread_create(&accept_thread, &thrAttr, accept_clients, NULL);
   if (ret) {
      fprintf(stderr, "Error: Thread creation failed.\n");
      goto cleanup;     
   }

   /* **** Main processing loop **** */

   // Read data from input, process them and write to output
   while (!stop) {
      const void *in_rec;
      uint16_t in_rec_size;

      // Receive data from input interface 0.
      // Block if data are not available immediately (unless a timeout is set using trap_ifcctl)
      ret = TRAP_RECEIVE(0, in_rec, in_rec_size, in_tmplt);

      // Handle possible errors
      TRAP_DEFAULT_RECV_ERROR_HANDLING(ret, continue, break);

      // Check size of received data
      if (in_rec_size < ur_rec_fixlen_size(in_tmplt)) {
         if (in_rec_size <= 1) {
            break; // End of data (used for testing purposes)
         } else {
            fprintf(stderr, "Error: data with wrong size received (expected size: >= %hu, received size: %hu)\n",
                    ur_rec_fixlen_size(in_tmplt), in_rec_size);
            break;
         }
      }

      // PROCESS THE DATA
      uint8_t prot = ur_get(in_tmplt, in_rec, F_PROTOCOL);
      switch (prot) {
         case icmp:
            stats.icmp_count++;
            break;
         case tcp:
            stats.tcp_count++;
            break;
         case udp:
            stats.udp_count++;
            break;
         case sctp:
            stats.sctp_count++;
            break;
         default:
            stats.others_count++;
            break;
      }
   }

   /* **** Cleanup **** */
cleanup:
   if (in_tmplt) {
      ur_free_template(in_tmplt);
   }

   pthread_attr_destroy(&thrAttr);
   TRAP_DEFAULT_FINALIZATION();
   FREE_MODULE_INFO_STRUCT(MODULE_BASIC_INFO, MODULE_PARAMS)
   ur_finalize();

   return 0;
}
Ejemplo n.º 4
0
int main(int argc, char **argv)
{
	int ret;
   INIT_MODULE_INFO_STRUCT(MODULE_BASIC_INFO, MODULE_PARAMS)

   // Declare progress structure, pointer to this struct, initialize progress limit
   NMCM_PROGRESS_DEF;

   get_o_param(argc, argv, module_getopt_string, long_options);     /* output have to be known before TRAP init */

   // ***** TRAP initialization *****
   TRAP_DEFAULT_INITIALIZATION(argc, argv, *module_info);

   // Register signal handler.
   TRAP_REGISTER_DEFAULT_SIGNAL_HANDLER(); // Handles SIGTERM and SIGINT
   signal(SIGUSR1, signal_handler);
   signal(SIGALRM, send_handler);

   // ***** Create UniRec template *****
   char *unirec_specifier = "PACKETS,BYTES";
   signed char opt;

   while ((opt = TRAP_GETOPT(argc, argv, module_getopt_string, long_options)) != -1) {
      switch (opt) {
      case 'p':
         NMCM_PROGRESS_INIT(atoi(optarg), return 1);
         break;
      case 'P':
         nmcm_progress_ptr->print_char = optarg[0];
         break;
      case 'o':
         /* proccessed earlier */
         break;
      default:
         fprintf(stderr, "Invalid arguments.\n");
         FREE_MODULE_INFO_STRUCT(MODULE_BASIC_INFO, MODULE_PARAMS);
         TRAP_DEFAULT_FINALIZATION();
         return 3;
      }
   }

   ur_template_t *tmplt = ur_create_input_template(0, unirec_specifier, NULL);
   if (tmplt == NULL) {
      fprintf(stderr, "Error: Invalid UniRec specifier.\n");
      TRAP_DEFAULT_FINALIZATION();
      FREE_MODULE_INFO_STRUCT(MODULE_BASIC_INFO, MODULE_PARAMS);
      return 4;
   }

   if (send_interval) {           /* in case of -o option */
      /* create new output tempate */
      out_tmplt = ur_create_output_template(0,"FLOWS,PACKETS,BYTES", NULL);
      if (!out_tmplt) {
         fprintf(stderr, "Error: Invalid UniRec specifier (this is implementation error, contact author of the module).\n");
         trap_finalize();
         FREE_MODULE_INFO_STRUCT(MODULE_BASIC_INFO, MODULE_PARAMS);
         ur_free_template(tmplt);
         return 4;
      }
      /* allocate space for output record with no dynamic part */
      out_rec = ur_create_record(out_tmplt, 0);
      if (!out_rec) {
         ur_free_template(out_tmplt);
         TRAP_DEFAULT_FINALIZATION();
         FREE_MODULE_INFO_STRUCT(MODULE_BASIC_INFO, MODULE_PARAMS);
         ur_free_template(tmplt);
         ur_free_template(out_tmplt);
         return 4;
      }
      /* Set NO_WAIT to output interface */
      ret = trap_ifcctl(TRAPIFC_OUTPUT, 0, TRAPCTL_SETTIMEOUT, TRAP_NO_WAIT);
      if (ret != TRAP_E_OK) {
         ur_free_template(tmplt);
         ur_free_template(out_tmplt);
         ur_free_record(out_rec);
         fprintf(stderr, "Error: trap_ifcctl.\n");
         trap_finalize();
         FREE_MODULE_INFO_STRUCT(MODULE_BASIC_INFO, MODULE_PARAMS)
         return 4;
      }
      alarm(send_interval);     /* arrange SIGARLM in send_interval seconds */
   }