AReplayPlayer::AReplayPlayer(const FObjectInitializer& ObjectInitializer) : Super(ObjectInitializer) {
	PrimaryActorTick.bCanEverTick = true;
	PrimaryActorTick.TickGroup = TG_PrePhysics; // This is the default
	msgpack_zone_init(&mempool, 2048);

	static ConstructorHelpers::FClassFinder<AMockingVehicle> CarFinder(TEXT("/Game/Vehicle/MockingCar"));
	static ConstructorHelpers::FClassFinder<AMockingVehicle> SedanFinder(TEXT("/Game/Vehicle/MockingSedan"));
	static ConstructorHelpers::FClassFinder<AMockingVehicle> EmergencyFinder(TEXT("/Game/Vehicle/MockingEmergencyVehicle"));
	static ConstructorHelpers::FClassFinder<AMockingVehicle> BusFinder(TEXT("/Game/Vehicle/MockingBus"));
	//static ConstructorHelpers::FClassFinder<AMockingVehicle> InertiaCameraFinder(TEXT("/Game/Blueprints/InertiaCameraBP"));
	static ConstructorHelpers::FObjectFinder<UMaterial> Yellow(TEXT("Material'/Game/Sedan/Materials/M_Vehicle_Sedan_yelllo.M_Vehicle_Sedan_yelllo'"));
	static ConstructorHelpers::FObjectFinder<UMaterial> Blue(TEXT("Material'/Game/Sedan/Materials/M_Vehicle_Sedan.M_Vehicle_Sedan'"));
	static ConstructorHelpers::FObjectFinder<UMaterial> Green(TEXT("Material'/Game/Sedan/Materials/M_Vehicle_Sedan_green.M_Vehicle_Sedan_green'"));


	VehicleTypeClass.Add((uint8)EVehicleType::VT_Car, CarFinder.Class);
	VehicleTypeClass.Add((uint8)EVehicleType::VT_Sedan, SedanFinder.Class);
	VehicleTypeClass.Add((uint8)EVehicleType::VT_Bus, BusFinder.Class);
	VehicleTypeClass.Add((uint8)EVehicleType::VT_Emergency, EmergencyFinder.Class);

	TArray<UMaterial*> Materials;
	Materials.Add(Yellow.Object);
	Materials.Add(Blue.Object);
	Materials.Add(Green.Object);

	VehicleTypeMaterials.Add((uint8)EVehicleType::VT_Car, Materials);
	VehicleTypeMaterials.Add((uint8)EVehicleType::VT_Sedan, Materials);

	static ConstructorHelpers::FClassFinder<AActor> ArrowFinder(TEXT("/Game/Blueprints/Arrow"));

	AArrow = ArrowFinder.Class;

	ShowArrows = true;
	ShowArrowBehaviors.Empty(0);
}
Example #2
0
int main(void)
{
    msgpack_sbuffer sbuf;
    msgpack_packer pk;
    msgpack_zone mempool;
    msgpack_object deserialized;

    /* msgpack::sbuffer is a simple buffer implementation. */
    msgpack_sbuffer_init(&sbuf);

    /* serialize values into the buffer using msgpack_sbuffer_write callback function. */
    msgpack_packer_init(&pk, &sbuf, msgpack_sbuffer_write);

    msgpack_pack_array(&pk, 3);
    msgpack_pack_int(&pk, 1);
    msgpack_pack_true(&pk);
    msgpack_pack_str(&pk, 7);
    msgpack_pack_str_body(&pk, "example", 7);

    /* deserialize the buffer into msgpack_object instance. */
    /* deserialized object is valid during the msgpack_zone instance alive. */
    msgpack_zone_init(&mempool, 2048);

    msgpack_unpack(sbuf.data, sbuf.size, NULL, &mempool, &deserialized);

    /* print the deserialized object. */
    msgpack_object_print(stdout, deserialized);
    puts("");

    msgpack_zone_destroy(&mempool);
    msgpack_sbuffer_destroy(&sbuf);

    return 0;
}
Example #3
0
void
load_data(char *filename, load_data_function unpack_function)
{
	char *save_file_name;
	char *save_data;
	FILE *save_file;
	int len;
	struct stat file_stat;
	msgpack_zone *mempool;
	msgpack_object deserialized;

	if ((save_file_name = get_save_file_path(filename)) == NULL) {
		red_log(REDD_WARNING, "get_save_file_path returned NULL");
		return;
	}
	if (stat(save_file_name, &file_stat) != 0) {
		free(save_file_name);
		return;
	}
	if (!S_ISREG(file_stat.st_mode)) {
		free(save_file_name);
		return;
	}
	len = file_stat.st_size;
	if ((save_file = fopen(save_file_name, "r")) != NULL) {
		size_t bytes_read;
		save_data = (char *)malloc(len);
		bytes_read = fread((void *)save_data, 1, len, save_file);
		fclose(save_file);
		if (bytes_read != len) {
			red_log(REDD_WARNING, "Failed to read data from %s", save_file_name);
			free(save_file_name);
			free(save_data);
			return;
		}
	} else {
		red_log(REDD_WARNING, "Failed to open %s", save_file_name);
		free(save_file_name);
		return;
	}
	mempool = (msgpack_zone *)malloc(sizeof(msgpack_zone));
	msgpack_zone_init(mempool, 4096);
	msgpack_unpack(save_data, len, NULL, mempool, &deserialized);

	unpack_function(deserialized);

	free(save_file_name);
	save_file_name = NULL;
	free(save_data);
	save_data = NULL;
	msgpack_zone_destroy(mempool);
	free(mempool);
	mempool = NULL;
}
Example #4
0
/// output MessagePack sbuffer to stream in text format
static void log_text_sbuffer(FILE *stream, msgpack_sbuffer *msg) {
	// deserialize sbuffer to object
	msgpack_zone mempool;
	msgpack_zone_init(&mempool, 1024);
	msgpack_object deserialized;
	msgpack_unpack(msg->data, msg->size, NULL, &mempool, &deserialized);
	// now output the message object
	log_text(stream, &deserialized);
	// and free up memory
	msgpack_zone_destroy(&mempool);
}
void unit_message_is_response(UNUSED(void **state))
{
  msgpack_sbuffer sbuf;
  msgpack_packer pk;
  msgpack_zone mempool;
  msgpack_object deserialized;

  msgpack_sbuffer_init(&sbuf);
  msgpack_zone_init(&mempool, 2048);

  /* positiv test */
  msgpack_packer_init(&pk, &sbuf, msgpack_sbuffer_write);
  msgpack_pack_array(&pk, 4);
  msgpack_pack_uint8(&pk, 1);
  msgpack_pack_uint8(&pk, 0);
  msgpack_pack_uint8(&pk, 0);
  msgpack_pack_uint8(&pk, 0);
  msgpack_unpack(sbuf.data, sbuf.size, NULL, &mempool, &deserialized);

  assert_true(message_is_response(&deserialized));

  msgpack_sbuffer_clear(&sbuf);

  /* wrong type test */
  msgpack_packer_init(&pk, &sbuf, msgpack_sbuffer_write);
  msgpack_pack_array(&pk, 4);
  msgpack_pack_uint8(&pk, 0);
  msgpack_pack_uint8(&pk, 1);
  msgpack_pack_uint8(&pk, 1);
  msgpack_pack_uint8(&pk, 1);
  msgpack_unpack(sbuf.data, sbuf.size, NULL, &mempool, &deserialized);

  assert_false(message_is_response(&deserialized));

  msgpack_sbuffer_clear(&sbuf);

  /* no array test */
  msgpack_packer_init(&pk, &sbuf, msgpack_sbuffer_write);
  msgpack_pack_uint8(&pk, 1);
  msgpack_unpack(sbuf.data, sbuf.size, NULL, &mempool, &deserialized);

  assert_false(message_is_response(&deserialized));

  msgpack_sbuffer_clear(&sbuf);

  /* NULL test */
  assert_false(message_is_response(NULL));

  msgpack_sbuffer_clear(&sbuf);

  msgpack_zone_destroy(&mempool);
  msgpack_sbuffer_destroy(&sbuf);
}
Example #6
0
static void
on_response(msgxchng_response_t *res, int status)
{
	if (status == RED_ERR)
		exit(1);

	msgpack_zone mempool;
	msgpack_zone_init(&mempool, 4096);

	msgpack_object deserialized;
	msgpack_unpack(res->data, res->data_len, NULL, &mempool, &deserialized);

	int success = 0;

	if (deserialized.type == MSGPACK_OBJECT_MAP) {
		msgpack_object_kv* p = deserialized.via.map.ptr;
		msgpack_object_kv* const pend = deserialized.via.map.ptr + deserialized.via.map.size;

		for (; p < pend; ++p) {
			if (p->key.type == MSGPACK_OBJECT_RAW && p->val.type == MSGPACK_OBJECT_RAW) {
				if (!strncmp(p->key.via.raw.ptr, "return", p->key.via.raw.size)) {
					if (!strncmp(p->val.via.raw.ptr, "success", p->val.via.raw.size))
						success = 1;
					else 
						success = 0;
				} else if (!strncmp(p->key.via.raw.ptr, "error", p->key.via.raw.size)) {
					if (!config.no_output) fprintf(stderr, "red: %s\n", p->val.via.raw.ptr);
				}
			}
		}
	}

	clean_msgxchng_response(res);
	free(res);

	if (!success)
		exit(1);
}
void unit_message_deserialize_response(UNUSED(void **state))
{
  struct api_error error = ERROR_INIT;
  msgpack_sbuffer sbuf;
  msgpack_packer pk;
  msgpack_zone mempool;
  msgpack_object deserialized;
  struct message_response response;

  msgpack_sbuffer_init(&sbuf);
  msgpack_zone_init(&mempool, 2048);

  /* positiv test */
  msgpack_packer_init(&pk, &sbuf, msgpack_sbuffer_write);
  msgpack_pack_array(&pk, 4);
  msgpack_pack_uint8(&pk, 1);
  msgpack_pack_uint32(&pk, 1234);
  msgpack_pack_nil(&pk);
  msgpack_pack_array(&pk, 1);
  msgpack_pack_uint8(&pk, 0);
  msgpack_unpack(sbuf.data, sbuf.size, NULL, &mempool, &deserialized);

  assert_int_equal(0, message_deserialize_response(&response, &deserialized,
      &error));

  msgpack_sbuffer_clear(&sbuf);

  free_params(response.params);

  /* wrong type type */
  msgpack_packer_init(&pk, &sbuf, msgpack_sbuffer_write);
  msgpack_pack_array(&pk, 4);
  msgpack_pack_nil(&pk);
  msgpack_pack_uint32(&pk, 1234);
  msgpack_pack_nil(&pk);
  msgpack_pack_array(&pk, 1);
  msgpack_pack_uint8(&pk, 0);
  msgpack_unpack(sbuf.data, sbuf.size, NULL, &mempool, &deserialized);

  assert_int_not_equal(0, message_deserialize_response(&response, &deserialized,
      &error));

  msgpack_sbuffer_clear(&sbuf);

  /* wrong type */
  msgpack_packer_init(&pk, &sbuf, msgpack_sbuffer_write);
  msgpack_pack_array(&pk, 4);
  msgpack_pack_uint8(&pk, 0);
  msgpack_pack_uint32(&pk, 1234);
  msgpack_pack_nil(&pk);
  msgpack_pack_array(&pk, 1);
  msgpack_pack_uint8(&pk, 0);
  msgpack_unpack(sbuf.data, sbuf.size, NULL, &mempool, &deserialized);

  assert_int_not_equal(0, message_deserialize_response(&response, &deserialized,
      &error));

  msgpack_sbuffer_clear(&sbuf);

  /* wrong msgid */
  msgpack_packer_init(&pk, &sbuf, msgpack_sbuffer_write);
  msgpack_pack_array(&pk, 4);
  msgpack_pack_uint8(&pk, 1);
  msgpack_pack_int(&pk, -1234);
  msgpack_pack_nil(&pk);
  msgpack_pack_array(&pk, 1);
  msgpack_pack_uint8(&pk, 0);
  msgpack_unpack(sbuf.data, sbuf.size, NULL, &mempool, &deserialized);

  assert_int_not_equal(0, message_deserialize_response(&response, &deserialized,
      &error));

  msgpack_sbuffer_clear(&sbuf);

  /* wrong msgid value*/
  msgpack_packer_init(&pk, &sbuf, msgpack_sbuffer_write);
  msgpack_pack_array(&pk, 4);
  msgpack_pack_uint8(&pk, 1);
  msgpack_pack_uint32(&pk, UINT32_MAX);
  msgpack_pack_nil(&pk);
  msgpack_pack_array(&pk, 1);
  msgpack_pack_uint8(&pk, 0);
  msgpack_unpack(sbuf.data, sbuf.size, NULL, &mempool, &deserialized);

  assert_int_not_equal(0, message_deserialize_response(&response, &deserialized,
      &error));

  msgpack_sbuffer_clear(&sbuf);

  /* wrong nil */
  msgpack_packer_init(&pk, &sbuf, msgpack_sbuffer_write);
  msgpack_pack_array(&pk, 4);
  msgpack_pack_uint8(&pk, 1);
  msgpack_pack_uint32(&pk, 1234);
  msgpack_pack_uint8(&pk, 1);
  msgpack_pack_array(&pk, 1);
  msgpack_pack_uint8(&pk, 0);
  msgpack_unpack(sbuf.data, sbuf.size, NULL, &mempool, &deserialized);

  assert_int_not_equal(0, message_deserialize_response(&response, &deserialized,
      &error));

  msgpack_sbuffer_clear(&sbuf);

  /* wrong params */
  msgpack_packer_init(&pk, &sbuf, msgpack_sbuffer_write);
  msgpack_pack_array(&pk, 4);
  msgpack_pack_uint8(&pk, 1);
  msgpack_pack_uint32(&pk, 1234);
  msgpack_pack_nil(&pk);
  msgpack_pack_nil(&pk);
  msgpack_unpack(sbuf.data, sbuf.size, NULL, &mempool, &deserialized);

  assert_int_not_equal(0, message_deserialize_response(&response, &deserialized,
      &error));

  msgpack_sbuffer_clear(&sbuf);

  /* null input params */
  assert_int_not_equal(0, message_deserialize_response(&response, &deserialized,
      NULL));
  assert_int_not_equal(0, message_deserialize_response(&response, NULL,
      &error));
  assert_int_not_equal(0, message_deserialize_response(NULL, &deserialized,
      &error));

  msgpack_zone_destroy(&mempool);
  msgpack_sbuffer_destroy(&sbuf);
}
Example #8
0
void msgpack_rpc_helpers_init(void)
{
  msgpack_zone_init(&zone, 0xfff);
  msgpack_sbuffer_init(&sbuffer);
}
Example #9
0
void trigger(void *cvoid, 
             zctx_t * context, 
             void * control) {
  triggerconfig_t * c = (triggerconfig_t*) cvoid;
  //set up msgpack stuff
  zclock_log("watch_port started!");
  msgpack_zone mempool;
  msgpack_zone_init(&mempool, 2048);

  // TODO
  char * user_id = "17"; 
  // TODO get broker in somehow
  char * broker = "tcp://au.ninjablocks.com:5773";

  mdcli_t * client = mdcli_new(broker, 1); //VERBOSE

  triggermemory_t trigger_memory;
  msgpack_object * addins_obj = parse_msgpack(&mempool, c->addins);

  if(!parse_addins(addins_obj, &trigger_memory)) {
    //bad message
    zclock_log("bad trigger definition");
    msgpack_object_print(stdout, *addins_obj);
    send_sync("bad trigger", control);
    return;
  }
  zclock_log("Creating trigger: target %s, rule_id %s, name %s", 
             c->target_worker, c->rule_id, c->trigger_name);
  dump_trigger(&trigger_memory);
  triggerfunction trigger_func;
  if(!(trigger_func = find_trigger(c->channel, c->trigger_name))) {

    zclock_log("no trigger found for channel %s, trigger %s",
               c->channel, c->trigger_name);
    send_sync("no such trigger", control);
    return;
  }

  void * line = zsocket_new(context, ZMQ_SUB);


  // what line are we on?
  // this comes in the addins. 
  char * linesocket = to_linesocket(trigger_memory.line_id);
  zclock_log("trigger is connecting to listen on %s", linesocket);
  zsocket_connect(line, linesocket);

  zsockopt_set_unsubscribe(line, "");
  zsockopt_set_subscribe(line, "VALUE");
  recv_sync("ping", control);
  send_sync("pong", control);
  
  zmq_pollitem_t items [] = {
    { line, 0, ZMQ_POLLIN, 0 },
    { control, 0, ZMQ_POLLIN, 0 }
  };
  while(1) {
    // listen on control and line
    zmq_poll (items, 2, -1);
    if (items[1].revents & ZMQ_POLLIN) {
      zclock_log("rule %s received message on control pipe", c->rule_id);
      // control message
      // really only expecting DESTROY
      zmsg_t * msg = zmsg_recv(control);
      char * str = zmsg_popstr(msg);
      zmsg_destroy(&msg);
      
      if (strcmp("Destroy", str) == 0) {
        zclock_log("rule %s will quit on request", c->rule_id);
        free(str);
        send_sync("ok", control);
        zclock_log("rule %s quitting on request", c->rule_id);
        break;
      } else  {
        zclock_log("unexpected command %s for rule %s", str, c->rule_id);
        free(str);
        send_sync("ok", control);
      }
    }

    if (items[0].revents & ZMQ_POLLIN) {
      // serial update
      zmsg_t * msg = zmsg_recv(line);
      zframe_t * cmd = zmsg_pop(msg);
      if(zframe_streq(cmd, "CHANNEL_CHANGE")) {
        // TODO
        // must have been dormant to have gotten this
        char * new_channel = zmsg_popstr(msg);

        if(strcmp(c->channel, new_channel) == 0) {
        // oh, happy day! We're relevant again.
        // reactivate and start looking at reset levels.
          zclock_log("line %d: changed channel from %s to %s: trigger coming back to life", trigger_memory.line_id, c->channel, new_channel);
          zsockopt_set_subscribe(line, "VALUE");
          zsockopt_set_unsubscribe(line, "CHANNEL_CHANGE");
        }
        free(new_channel);
      } else if (zframe_streq(cmd, "VALUE")) {
        zframe_t * vframe = zmsg_pop(msg);
        int value;
        memcpy(&value, zframe_data(vframe), sizeof(int));
        char * update_channel = zmsg_popstr(msg);

        if(strcmp(c->channel, update_channel) != 0) {
          // channel changed,  go dormant
          // this is legit according to my tests at
          // https://gist.github.com/2042350

          zclock_log("line %d: changed channel from %s to %s: trigger going dormant", trigger_memory.line_id, c->channel, update_channel);
          zsockopt_set_subscribe(line, "CHANNEL_CHANGE");
          zsockopt_set_unsubscribe(line, "VALUE");
        } 
        
        else if(trigger_func(&trigger_memory, value)) {
          send_trigger(client, c->target_worker, c->rule_id, value, user_id);
        }           

        free(update_channel);
      } else {
        // shouldn't ever happen.
        zclock_log("shouldn't have received command %s\n", zframe_strdup(cmd));
      }
      zmsg_destroy(&msg);
      zframe_destroy(&cmd);
    }
    
  }

  msgpack_zone_destroy(&mempool);
}