Exemplo n.º 1
0
int in_mem_collect(struct flb_config *config, void *in_context)
{
    struct sysinfo info;
    (void) config;
    struct flb_in_mem_config *ctx = in_context;
    uint32_t totalram, freeram;

    sysinfo(&info);
    totalram = info.totalram / 1024;
    freeram  = info.freeram  / 1024;
    msgpack_pack_map(&ctx->pckr, 3);
    msgpack_pack_raw(&ctx->pckr, 4);
    msgpack_pack_raw_body(&ctx->pckr, "time", 4);
    msgpack_pack_uint64(&ctx->pckr, time(NULL));
    msgpack_pack_raw(&ctx->pckr, 5);
    msgpack_pack_raw_body(&ctx->pckr, "total", 5);
    msgpack_pack_uint32(&ctx->pckr, totalram);
    msgpack_pack_raw(&ctx->pckr, 4);
    msgpack_pack_raw_body(&ctx->pckr, "free", 4);
    msgpack_pack_uint32(&ctx->pckr, freeram);
    flb_debug("[in_mem] memory total %d kb, free %d kb (buffer=%i)",
              info.totalram,
              info.freeram,
              ctx->idx);
    ++ctx->idx;
    return 0;
}
void test()
{
    size_t size = 10000000;
    msgpack_sbuffer buf;
    msgpack_packer * pk;
    size_t upk_pos = 0;
    msgpack_unpacked msg;
    
    msgpack_sbuffer_init(&buf);

    pk = msgpack_packer_new(&buf, msgpack_sbuffer_write);

    msgpack_pack_array(pk, size);
    {
        int idx = 0;
        for (; idx < size; ++idx)
            msgpack_pack_uint32(pk, 1);
    }
    msgpack_packer_free(pk);

    msgpack_unpacked_init(&msg);

    while (msgpack_unpack_next(&msg, buf.data, buf.size, &upk_pos)) {
    }

    msgpack_sbuffer_destroy(&buf);
}
Exemplo n.º 3
0
int nmb_pack_values_to_msgpack(struct nmb_values *values, struct msgpack *packer)
{
	MSN msn = values->msn;

	msn = ((msn << 8) | values->type);
	msgpack_pack_uint64(packer, msn);
	msgpack_pack_uint64(packer, values->xidpair.child_xid);
	msgpack_pack_uint64(packer, values->xidpair.parent_xid);
	msgpack_pack_uint32(packer, values->key.size);
	msgpack_pack_nstr(packer, values->key.data, values->key.size);

	if (values->type != MSG_DELETE) {
		msgpack_pack_uint32(packer, values->val.size);
		msgpack_pack_nstr(packer, values->val.data, values->val.size);
	}

	return NESS_OK;
}
Exemplo n.º 4
0
void api_request_status(rpc_io *rpcio, msgpack_object *request_obj,
                        msgpack_packer *response_msg) {
  int rc;
  char *program_name = NULL;
  size_t program_len = 0;
  rc = obj_get(request_obj, "program", MSGPACK_OBJECT_RAW, &program_name, &program_len);
  /* A missing 'program' field is OK. It means we want all programs */

  msgpack_pack_map(response_msg, 1);
  msgpack_pack_string(response_msg, "programs", -1);

  /* programs is a map of:
   *   programname => {
   *     command: "string",
   *     args: "string",
   *     uid: uid,
   *     gid: gid,
   *     nice: nice,
   *     ionice: ionice,
   *     is_running: boolean
   *     instances: {
   *       pid: ...
   *       state: ...
   *       admin_state: ...
   *       start: ...
   *       duration: ...
   *     }
   *   }
   */
  msgpack_pack_map(response_msg, rpcio->procnanny->programs_len);

  pn_prog_each(rpcio->procnanny, i, program, {
    if (program_name != NULL && strncmp(program->name, program_name, program_len)) {
      continue;
    }

    msgpack_pack_string(response_msg, program->name, program->name_len);
    msgpack_pack_map(response_msg, 8);  /* 8 fields */

    msgpack_pack_string(response_msg, "command", -1);
    msgpack_pack_string(response_msg, program->command, program->command_len);

    msgpack_pack_string(response_msg, "args", -1);
    msgpack_pack_array(response_msg, program->args_len);
    int argind = 0;
    for (argind = 0; argind < program->args_len; argind++) {
      msgpack_pack_string(response_msg, program->args[argind], -1);
    }

    msgpack_pack_string(response_msg, "uid", -1);
    msgpack_pack_uint32(response_msg, program->uid);

    msgpack_pack_string(response_msg, "gid", -1);
    msgpack_pack_uint32(response_msg, program->gid);

    msgpack_pack_string(response_msg, "nice", -1);
    msgpack_pack_int32(response_msg, program->nice);

    msgpack_pack_string(response_msg, "ionice", -1);
    msgpack_pack_int32(response_msg, program->ionice);

    msgpack_pack_string(response_msg, "active", -1);
    msgpack_pack_true(response_msg);

    msgpack_pack_string(response_msg, "instances", -1);
    msgpack_pack_map(response_msg, program->nprocs);

    pn_prog_proc_each(program, instance, process, {
      msgpack_pack_uint32(response_msg, instance);
      msgpack_pack_map(response_msg, 5);

      msgpack_pack_string(response_msg, "pid", -1);
      msgpack_pack_uint32(response_msg, process->pid);

      msgpack_pack_string(response_msg, "state", -1);
      switch (process->state) {
        case PROCESS_STATE_STARTING:
          msgpack_pack_string(response_msg, "starting", -1); break;
        case PROCESS_STATE_RUNNING:
          msgpack_pack_string(response_msg, "running", -1); break;
        case PROCESS_STATE_STOPPING:
          msgpack_pack_string(response_msg, "stopping", -1); break;
        case PROCESS_STATE_EXITED:
          msgpack_pack_string(response_msg, "exited", -1); break;
        case PROCESS_STATE_BACKOFF:
          msgpack_pack_string(response_msg, "backoff", -1); break;
        case PROCESS_STATE_NEW:
          msgpack_pack_string(response_msg, "new", -1); break;
        default:
          msgpack_pack_string(response_msg, "unknown", -1); break;
      }

      msgpack_pack_string(response_msg, "exitcode", -1);
      msgpack_pack_uint8(response_msg, process->exit_status);

      msgpack_pack_string(response_msg, "exitsignal", -1);
      msgpack_pack_uint8(response_msg, process->exit_signal);

      msgpack_pack_string(response_msg, "admin_state", -1);
      switch (process->admin_state) {
        case ADMIN_STATE_DOWN:
          msgpack_pack_string(response_msg, "down", -1); break;
        case ADMIN_STATE_UP:
          msgpack_pack_string(response_msg, "up", -1); break;
        default:
          msgpack_pack_string(response_msg, "unknown", -1); break;
      }
    })
  });
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);
}
Exemplo n.º 6
0
int msgpack_pack_uint32_wrap(msgpack_packer* pk, uint32_t d)
{
  return msgpack_pack_uint32(pk, d);
}
Exemplo n.º 7
0
void
msgpack_pack_paxid(msgpack_packer *pk, paxid_t paxid)
{
  msgpack_pack_uint32(pk, paxid);
}
Exemplo n.º 8
0
static inline void
rbtrace__send_event(int nargs, const char *name, ...)
{
  if (!rbtracer.attached_pid ||
      !rbtracer.sbuf ||
      !rbtracer.msgpacker ||
      rbtracer.mqo_fd == -1)
    return;

  int n;

  msgpack_sbuffer_clear(rbtracer.sbuf);
  msgpack_packer *pk = rbtracer.msgpacker;

  msgpack_pack_array(pk, nargs+1);

  msgpack_pack_raw(pk, strlen(name));
  msgpack_pack_raw_body(pk, name, strlen(name));

  if (nargs > 0) {
    int type;

    int sint;
    uint32_t uint;
    uint64_t uint64;
    unsigned long ulong;
    char *str;

    va_list ap;
    va_start(ap, name);

    for (n=0; n<nargs; n++) {
      type = va_arg(ap, int);
      switch (type) {
        case 'b': // boolean
          if (va_arg(ap, int))
            msgpack_pack_true(pk);
          else
            msgpack_pack_false(pk);
          break;

        case 'd': // signed int
          sint = va_arg(ap, int);
          msgpack_pack_int(pk, sint);
          break;

        case 'u': // unsigned int
          uint = va_arg(ap, uint32_t);
          msgpack_pack_uint32(pk, uint);
          break;

        case 'l': // unsigned long (VALUE/ID)
          ulong = va_arg(ap, unsigned long);
          msgpack_pack_unsigned_long(pk, ulong);
          break;

        case 't': // uint64 (timestamps)
          uint64 = va_arg(ap, uint64_t);
          msgpack_pack_uint64(pk, uint64);
          break;

        case 'n': // current timestamp
          msgpack_pack_uint64(pk, timeofday_usec());
          break;

        case 's': // string
          str = va_arg(ap, char *);
          if (!str)
            str = (char *)"";

          msgpack_pack_raw(pk, strlen(str));
          msgpack_pack_raw_body(pk, str, strlen(str));
          break;

        default:
          fprintf(stderr, "unknown type (%d) passed to rbtrace__send_event for %s\n", (int)type, name);
      }
    }
void ANetworkController::SendData() {
	if (!TcpSocket) {
		return;
	}

	// Clear the data if there is anything on the stream
	TryReceiveData();

	AVehiclestats* Stats = NULL;
	for (TActorIterator<AVehiclestats> ObjIt(GetWorld()); ObjIt; ++ObjIt) {
		Stats = *ObjIt;
		break;
	}
	if (Stats == NULL) {
		return;
	}

	// Send crashlog

	msgpack_sbuffer sbuf;
	msgpack_sbuffer_init(&sbuf);

	msgpack_packer pk;
	msgpack_packer_init(&pk, &sbuf, msgpack_sbuffer_write);


	for (auto Iter = Stats->IncidentLog.CreateConstIterator(); Iter; ++Iter) {
		msgpack_pack_array(&pk, 2);
		msgpack_pack_uint16(&pk, EPacketType::PT_IncidentLog);
		Pack(&pk, *Iter);
	}

	Stats->IncidentLog.Empty();


	// Send the statestics

	msgpack_pack_array(&pk, 2);
	msgpack_pack_uint16(&pk, EPacketType::PT_GetStats);

	msgpack_pack_map(&pk, 6);

	msgpack_pack_str(&pk, 7);
	msgpack_pack_str_body(&pk, "spawned", 7);
	msgpack_pack_uint32(&pk, Stats->GetNumVehiclesSpawned());

	msgpack_pack_str(&pk, 6);
	msgpack_pack_str_body(&pk, "onroad", 6);
	msgpack_pack_uint32(&pk, Stats->GetNumVehiclesOnTheRoad());

	msgpack_pack_str(&pk, 7);
	msgpack_pack_str_body(&pk, "crashed", 7);
	msgpack_pack_uint32(&pk, Stats->GetNumVehiclesCrashed());

	msgpack_pack_str(&pk, 9);
	msgpack_pack_str_body(&pk, "incidents", 9);
	msgpack_pack_uint32(&pk, Stats->GetNumVehiclesIncidents());

	TArray<float> Throughputs;

	for (TActorIterator<AMeasurementGate> ObjIt(GetWorld()); ObjIt; ++ObjIt) {
		AMeasurementGate* Gate = *ObjIt;
		Throughputs.Add(Gate->GetThroughput(0));
		Throughputs.Add(Gate->GetThroughput(1));
	}

	msgpack_pack_str(&pk, 11);
	msgpack_pack_str_body(&pk, "throughputs", 11);
	msgpack_pack_array(&pk, Throughputs.Num());
	for (auto Iter = Throughputs.CreateConstIterator(); Iter; ++Iter) {
		msgpack_pack_float(&pk, *Iter);
	}

	msgpack_pack_str(&pk, 4);
	msgpack_pack_str_body(&pk, "time", 4);
	msgpack_pack_float(&pk, Stats->GetTime());

	int32 BytesLeft = sbuf.size;
	while (BytesLeft > 0) {
		int32 Index = sbuf.size - BytesLeft;
		int32 BytesSent;
		TcpSocket->Send((uint8*)sbuf.data + Index, BytesLeft, BytesSent);
		BytesLeft = BytesLeft - BytesSent;
		if (BytesSent == -1) {
			break;
		}
	}

	msgpack_sbuffer_destroy(&sbuf);
}