C++ (Cpp) aeron_system_counter_addrの例

コード例 #1

ファイル: aeron_driver_receiver.c プロジェクト: real-logic/Aeron

int aeron_driver_receiver_init(
    aeron_driver_receiver_t *receiver,
    aeron_driver_context_t *context,
    aeron_system_counters_t *system_counters,
    aeron_distinct_error_log_t *error_log)
{
    if (aeron_udp_transport_poller_init(&receiver->poller) < 0)
    {
        return -1;
    }

    for (size_t i = 0; i < AERON_DRIVER_RECEIVER_NUM_RECV_BUFFERS; i++)
    {
        size_t offset = 0;
        if (aeron_alloc_aligned(
            (void **)&receiver->recv_buffers.buffers[i],
            &offset,
            AERON_DRIVER_RECEIVER_MAX_UDP_PACKET_LENGTH,
            AERON_CACHE_LINE_LENGTH * 2) < 0)
        {
            int errcode = errno;

            aeron_set_err(errcode, "%s:%d: %s", __FILE__, __LINE__, strerror(errcode));
            return -1;
        }

        receiver->recv_buffers.iov[i].iov_base = receiver->recv_buffers.buffers[i] + offset;
        receiver->recv_buffers.iov[i].iov_len = AERON_DRIVER_RECEIVER_MAX_UDP_PACKET_LENGTH;
    }

    receiver->images.array = NULL;
    receiver->images.length = 0;
    receiver->images.capacity = 0;

    receiver->pending_setups.array = NULL;
    receiver->pending_setups.length = 0;
    receiver->pending_setups.capacity = 0;

    receiver->context = context;
    receiver->error_log = error_log;

    receiver->receiver_proxy.command_queue = &context->receiver_command_queue;
    receiver->receiver_proxy.fail_counter = aeron_system_counter_addr(
        system_counters, AERON_SYSTEM_COUNTER_RECEIVER_PROXY_FAILS);
    receiver->receiver_proxy.threading_mode = context->threading_mode;
    receiver->receiver_proxy.receiver = receiver;

    receiver->errors_counter = aeron_system_counter_addr(system_counters, AERON_SYSTEM_COUNTER_ERRORS);
    receiver->invalid_frames_counter = aeron_system_counter_addr(system_counters, AERON_SYSTEM_COUNTER_INVALID_PACKETS);
    receiver->total_bytes_received_counter =  aeron_system_counter_addr(
        system_counters, AERON_SYSTEM_COUNTER_BYTES_RECEIVED);

    return 0;
}

コード例 #2

ファイル: aeron_publication_image.c プロジェクト: Abc-Arbitrage/aeron

int aeron_publication_image_create(
    aeron_publication_image_t **image,
    aeron_receive_channel_endpoint_t *endpoint,
    aeron_driver_context_t *context,
    int64_t correlation_id,
    int32_t session_id,
    int32_t stream_id,
    int32_t initial_term_id,
    int32_t active_term_id,
    int32_t initial_term_offset,
    aeron_position_t *rcv_hwm_position,
    aeron_position_t *rcv_pos_position,
    aeron_congestion_control_strategy_t *congestion_control,
    struct sockaddr_storage *control_address,
    struct sockaddr_storage *source_address,
    int32_t term_buffer_length,
    int32_t sender_mtu_length,
    aeron_loss_reporter_t *loss_reporter,
    bool is_reliable,
    bool is_sparse,
    aeron_system_counters_t *system_counters)
{
    char path[AERON_MAX_PATH];
    int path_length = aeron_publication_image_location(
        path,
        sizeof(path),
        context->aeron_dir,
        endpoint->conductor_fields.udp_channel->canonical_form,
        session_id,
        stream_id,
        correlation_id);

    aeron_publication_image_t *_image = NULL;
    const uint64_t usable_fs_space = context->usable_fs_space_func(context->aeron_dir);
    const uint64_t log_length = aeron_logbuffer_compute_log_length((uint64_t)term_buffer_length,
        context->file_page_size);
    bool is_multicast = endpoint->conductor_fields.udp_channel->multicast;
    int64_t now_ns = context->nano_clock();

    *image = NULL;

    if (usable_fs_space < log_length)
    {
        aeron_set_err(
            ENOSPC,
            "Insufficient usable storage for new log of length=%" PRId64 " in %s", log_length, context->aeron_dir);
        return -1;
    }

    if (aeron_alloc((void **)&_image, sizeof(aeron_publication_image_t)) < 0)
    {
        aeron_set_err(ENOMEM, "%s", "Could not allocate publication image");
        return -1;
    }

    _image->log_file_name = NULL;
    if (aeron_alloc((void **)(&_image->log_file_name), (size_t)path_length + 1) < 0)
    {
        aeron_free(_image);
        aeron_set_err(ENOMEM, "%s", "Could not allocate publication image log_file_name");
        return -1;
    }

    if (aeron_loss_detector_init(
        &_image->loss_detector,
        is_multicast,
        is_multicast ?
            aeron_loss_detector_nak_multicast_delay_generator : aeron_loss_detector_nak_unicast_delay_generator,
        aeron_publication_image_on_gap_detected, _image) < 0)
    {
        aeron_free(_image);
        aeron_set_err(ENOMEM, "%s", "Could not init publication image loss detector");
        return -1;
    }

    if (context->map_raw_log_func(
        &_image->mapped_raw_log, path, is_sparse, (uint64_t)term_buffer_length, context->file_page_size) < 0)
    {
        aeron_free(_image->log_file_name);
        aeron_free(_image);
        aeron_set_err(aeron_errcode(), "error mapping network raw log %s: %s", path, aeron_errmsg());
        return -1;
    }
    _image->map_raw_log_close_func = context->map_raw_log_close_func;

    strncpy(_image->log_file_name, path, (size_t)path_length);
    _image->log_file_name[path_length] = '\0';
    _image->log_file_name_length = (size_t)path_length;
    _image->log_meta_data = (aeron_logbuffer_metadata_t *)(_image->mapped_raw_log.log_meta_data.addr);

    _image->log_meta_data->initial_term_id = initial_term_id;
    _image->log_meta_data->mtu_length = sender_mtu_length;
    _image->log_meta_data->term_length = term_buffer_length;
    _image->log_meta_data->page_size = (int32_t)context->file_page_size;
    _image->log_meta_data->correlation_id = correlation_id;
    _image->log_meta_data->is_connected = 0;
    _image->log_meta_data->end_of_stream_position = INT64_MAX;
    aeron_logbuffer_fill_default_header(
        _image->mapped_raw_log.log_meta_data.addr, session_id, stream_id, initial_term_id);

    _image->endpoint = endpoint;
    _image->congestion_control = congestion_control;
    _image->loss_reporter = loss_reporter;
    _image->loss_reporter_offset = -1;
    _image->nano_clock = context->nano_clock;
    _image->epoch_clock = context->epoch_clock;
    _image->conductor_fields.subscribable.array = NULL;
    _image->conductor_fields.subscribable.length = 0;
    _image->conductor_fields.subscribable.capacity = 0;
    _image->conductor_fields.subscribable.add_position_hook_func = aeron_driver_subscribable_null_hook;
    _image->conductor_fields.subscribable.remove_position_hook_func = aeron_driver_subscribable_null_hook;
    _image->conductor_fields.subscribable.clientd = NULL;
    _image->conductor_fields.managed_resource.registration_id = correlation_id;
    _image->conductor_fields.managed_resource.clientd = _image;
    _image->conductor_fields.managed_resource.incref = NULL;
    _image->conductor_fields.managed_resource.decref = NULL;
    _image->conductor_fields.is_reliable = is_reliable;
    _image->conductor_fields.status = AERON_PUBLICATION_IMAGE_STATUS_ACTIVE;
    _image->conductor_fields.liveness_timeout_ns = context->image_liveness_timeout_ns;
    _image->session_id = session_id;
    _image->stream_id = stream_id;
    _image->rcv_hwm_position.counter_id = rcv_hwm_position->counter_id;
    _image->rcv_hwm_position.value_addr = rcv_hwm_position->value_addr;
    _image->rcv_pos_position.counter_id = rcv_pos_position->counter_id;
    _image->rcv_pos_position.value_addr = rcv_pos_position->value_addr;
    _image->initial_term_id = initial_term_id;
    _image->term_length_mask = (int32_t)term_buffer_length - 1;
    _image->position_bits_to_shift = (size_t)aeron_number_of_trailing_zeroes((int32_t)term_buffer_length);
    _image->mtu_length = sender_mtu_length;
    _image->last_sm_change_number = -1;
    _image->last_loss_change_number = -1;
    _image->is_end_of_stream = false;

    memcpy(&_image->control_address, control_address, sizeof(_image->control_address));
    memcpy(&_image->source_address, source_address, sizeof(_image->source_address));

    _image->heartbeats_received_counter = aeron_system_counter_addr(
        system_counters, AERON_SYSTEM_COUNTER_HEARTBEATS_RECEIVED);
    _image->flow_control_under_runs_counter = aeron_system_counter_addr(
        system_counters, AERON_SYSTEM_COUNTER_FLOW_CONTROL_UNDER_RUNS);
    _image->flow_control_over_runs_counter = aeron_system_counter_addr(
        system_counters, AERON_SYSTEM_COUNTER_FLOW_CONTROL_OVER_RUNS);
    _image->status_messages_sent_counter = aeron_system_counter_addr(
        system_counters, AERON_SYSTEM_COUNTER_STATUS_MESSAGES_SENT);
    _image->nak_messages_sent_counter = aeron_system_counter_addr(
        system_counters, AERON_SYSTEM_COUNTER_NAK_MESSAGES_SENT);
    _image->loss_gap_fills_counter = aeron_system_counter_addr(
        system_counters, AERON_SYSTEM_COUNTER_LOSS_GAP_FILLS);

    const int64_t initial_position = aeron_logbuffer_compute_position(
        active_term_id, initial_term_offset, _image->position_bits_to_shift, initial_term_id);

    _image->begin_loss_change = -1;
    _image->end_loss_change = -1;
    _image->loss_term_id = active_term_id;
    _image->loss_term_offset = initial_term_offset;
    _image->loss_length = 0;

    _image->begin_sm_change = -1;
    _image->end_sm_change = -1;
    _image->next_sm_position = initial_position;
    _image->next_sm_receiver_window_length = _image->congestion_control->initial_window_length(
        _image->congestion_control->state);
    _image->last_sm_position = initial_position;
    _image->last_sm_position_window_limit = initial_position + _image->next_sm_receiver_window_length;
    _image->last_packet_timestamp_ns = now_ns;
    _image->last_status_message_timestamp = 0;
    _image->conductor_fields.clean_position = initial_position;
    _image->conductor_fields.time_of_last_status_change_ns = now_ns;

    aeron_counter_set_ordered(_image->rcv_hwm_position.value_addr, initial_position);
    aeron_counter_set_ordered(_image->rcv_pos_position.value_addr, initial_position);

    *image = _image;

    return 0;
}