takashi kadono
Color Oled(SSD1331) connect to STMicroelectronics Nucleo-F466
mbed-os/UNITTESTS/stubs/LoRaMac_stub.cpp
- Committer:
- kadonotakashi
- Date:
- 2018-10-11
- Revision:
- 3:f3764f852aa8
- Parent:
- 0:8fdf9a60065b
File content as of revision 3:f3764f852aa8:
/*
* Copyright (c) , Arm Limited and affiliates.
* SPDX-License-Identifier: Apache-2.0
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <stdlib.h>
#include "LoRaMac.h"
#include "LoRaMac_stub.h"
using namespace events;
using namespace mbed;
int LoRaMac_stub::bool_false_counter = 0;
int LoRaMac_stub::bool_true_counter = 0;
bool LoRaMac_stub::bool_value = false;
int LoRaMac_stub::int_value = 0;
rx_slot_t LoRaMac_stub::slot_value = RX_SLOT_WIN_1;
lorawan_status_t LoRaMac_stub::status_value = LORAWAN_STATUS_OK;
loramac_mcps_confirm_t *LoRaMac_stub::mcps_conf_ptr = NULL;
loramac_mcps_indication_t *LoRaMac_stub::mcps_ind_ptr = NULL;
loramac_mlme_confirm_t *LoRaMac_stub::mlme_conf_ptr = NULL;
loramac_mlme_indication_t *LoRaMac_stub::mlme_ind_ptr = NULL;
device_class_t LoRaMac_stub::dev_class_value = CLASS_A;
mbed::Callback<void(void)> LoRaMac_stub::_ack_expiry_handler_for_class_c = NULL;
mbed::Callback<void(void)> LoRaMac_stub::_scheduling_failure_handler = NULL;
LoRaMac::LoRaMac()
: _lora_time(),
_lora_phy(NULL),
_mac_commands(),
_channel_plan(),
_lora_crypto(),
_ev_queue(NULL),
_mcps_indication(),
_mcps_confirmation(),
_mlme_indication(),
_mlme_confirmation(),
_is_nwk_joined(false),
_continuous_rx2_window_open(false),
_device_class(CLASS_A)
{}
LoRaMac::~LoRaMac()
{
}
const loramac_mcps_confirm_t *LoRaMac::get_mcps_confirmation() const
{
return LoRaMac_stub::mcps_conf_ptr;
}
const loramac_mcps_indication_t *LoRaMac::get_mcps_indication() const
{
return LoRaMac_stub::mcps_ind_ptr;
}
const loramac_mlme_confirm_t *LoRaMac::get_mlme_confirmation() const
{
return LoRaMac_stub::mlme_conf_ptr;
}
const loramac_mlme_indication_t *LoRaMac::get_mlme_indication() const
{
return LoRaMac_stub::mlme_ind_ptr;
}
void LoRaMac::post_process_mlme_request()
{
}
void LoRaMac::post_process_mcps_req()
{
}
void LoRaMac::post_process_mcps_ind()
{
}
void LoRaMac::post_process_mlme_ind()
{
}
lorawan_time_t LoRaMac::get_current_time(void)
{
}
rx_slot_t LoRaMac::get_current_slot(void)
{
return LoRaMac_stub::slot_value;
}
void LoRaMac::handle_join_accept_frame(const uint8_t *payload, uint16_t size)
{
}
void LoRaMac::check_frame_size(uint16_t size)
{
}
bool LoRaMac::message_integrity_check(const uint8_t *const payload,
const uint16_t size,
uint8_t *const ptr_pos,
uint32_t address,
uint32_t *downlink_counter,
const uint8_t *nwk_skey)
{
if (LoRaMac_stub::bool_false_counter) {
LoRaMac_stub::bool_false_counter--;
return false;
}
if (LoRaMac_stub::bool_true_counter) {
LoRaMac_stub::bool_true_counter--;
return true;
}
return LoRaMac_stub::bool_value;
}
void LoRaMac::extract_data_and_mac_commands(const uint8_t *payload,
uint16_t size,
uint8_t fopts_len,
uint8_t *nwk_skey,
uint8_t *app_skey,
uint32_t address,
uint32_t downlink_counter,
int16_t rssi,
int8_t snr)
{
}
void LoRaMac::extract_mac_commands_only(const uint8_t *payload,
int8_t snr,
uint8_t fopts_len)
{
}
void LoRaMac::handle_data_frame(const uint8_t *const payload,
const uint16_t size,
uint8_t ptr_pos,
uint8_t msg_type,
int16_t rssi,
int8_t snr)
{
}
void LoRaMac::set_batterylevel_callback(mbed::Callback<uint8_t(void)> battery_level)
{
}
void LoRaMac::on_radio_tx_done(lorawan_time_t timestamp)
{
}
void LoRaMac::on_radio_rx_done(const uint8_t *const payload, uint16_t size,
int16_t rssi, int8_t snr)
{
}
void LoRaMac::on_radio_tx_timeout(void)
{
}
void LoRaMac::on_radio_rx_timeout(bool is_timeout)
{
}
bool LoRaMac::continue_joining_process()
{
if (LoRaMac_stub::bool_false_counter) {
LoRaMac_stub::bool_false_counter--;
return false;
}
if (LoRaMac_stub::bool_true_counter) {
LoRaMac_stub::bool_true_counter--;
return true;
}
return LoRaMac_stub::bool_value;
}
bool LoRaMac::continue_sending_process()
{
if (LoRaMac_stub::bool_false_counter) {
LoRaMac_stub::bool_false_counter--;
return false;
}
if (LoRaMac_stub::bool_true_counter) {
LoRaMac_stub::bool_true_counter--;
return true;
}
return LoRaMac_stub::bool_value;
}
lorawan_status_t LoRaMac::send_join_request()
{
return LoRaMac_stub::status_value;
}
lorawan_status_t LoRaMac::handle_retransmission()
{
return LoRaMac_stub::status_value;
}
void LoRaMac::on_backoff_timer_expiry(void)
{
}
void LoRaMac::open_rx1_window(void)
{
}
void LoRaMac::open_rx2_window()
{
}
void LoRaMac::on_ack_timeout_timer_event(void)
{
}
bool LoRaMac::validate_payload_length(uint16_t length,
int8_t datarate,
uint8_t fopts_len)
{
if (LoRaMac_stub::bool_false_counter) {
LoRaMac_stub::bool_false_counter--;
return false;
}
if (LoRaMac_stub::bool_true_counter) {
LoRaMac_stub::bool_true_counter--;
return true;
}
return LoRaMac_stub::bool_value;
}
void LoRaMac::set_mlme_schedule_ul_indication(void)
{
}
// This is not actual transmission. It just schedules a message in response
// to MCPS request
lorawan_status_t LoRaMac::send(loramac_mhdr_t *machdr, const uint8_t fport,
const void *fbuffer, uint16_t fbuffer_size)
{
return LoRaMac_stub::status_value;
}
int LoRaMac::get_backoff_timer_event_id(void)
{
return LoRaMac_stub::int_value;
}
lorawan_status_t LoRaMac::clear_tx_pipe(void)
{
return LoRaMac_stub::status_value;
}
lorawan_status_t LoRaMac::schedule_tx()
{
return LoRaMac_stub::status_value;
}
void LoRaMac::calculate_backOff(uint8_t channel)
{
}
void LoRaMac::reset_mac_parameters(void)
{
}
uint8_t LoRaMac::get_default_tx_datarate()
{
return 0;
}
void LoRaMac::enable_adaptive_datarate(bool adr_enabled)
{
}
lorawan_status_t LoRaMac::set_channel_data_rate(uint8_t data_rate)
{
return LoRaMac_stub::status_value;
}
bool LoRaMac::tx_ongoing()
{
if (LoRaMac_stub::bool_false_counter) {
LoRaMac_stub::bool_false_counter--;
return false;
}
if (LoRaMac_stub::bool_true_counter) {
LoRaMac_stub::bool_true_counter--;
return true;
}
return LoRaMac_stub::bool_value;
}
void LoRaMac::set_tx_ongoing(bool ongoing)
{
}
void LoRaMac::reset_ongoing_tx(bool reset_pending)
{
}
int16_t LoRaMac::prepare_ongoing_tx(const uint8_t port,
const uint8_t *const data,
uint16_t length,
uint8_t flags,
uint8_t num_retries)
{
return 0;
}
lorawan_status_t LoRaMac::send_ongoing_tx()
{
return LoRaMac_stub::status_value;
}
device_class_t LoRaMac::get_device_class() const
{
return LoRaMac_stub::dev_class_value;
}
void LoRaMac::set_device_class(const device_class_t &device_class,
mbed::Callback<void(void)>ack_expiry_handler)
{
LoRaMac_stub::_ack_expiry_handler_for_class_c = ack_expiry_handler;
}
void LoRaMac::setup_link_check_request()
{
}
lorawan_status_t LoRaMac::prepare_join(const lorawan_connect_t *params, bool is_otaa)
{
return LoRaMac_stub::status_value;
}
lorawan_status_t LoRaMac::join(bool is_otaa)
{
return LoRaMac_stub::status_value;
}
static void memcpy_convert_endianess(uint8_t *dst,
const uint8_t *src,
uint16_t size)
{
}
lorawan_status_t LoRaMac::prepare_frame(loramac_mhdr_t *machdr,
loramac_frame_ctrl_t *fctrl,
const uint8_t fport,
const void *fbuffer,
uint16_t fbuffer_size)
{
return LoRaMac_stub::status_value;
}
lorawan_status_t LoRaMac::send_frame_on_channel(uint8_t channel)
{
return LoRaMac_stub::status_value;
}
void LoRaMac::reset_mcps_confirmation()
{
}
void LoRaMac::reset_mlme_confirmation()
{
}
void LoRaMac::reset_mcps_indication()
{
}
void LoRaMac::set_tx_continuous_wave(uint8_t channel, int8_t datarate, int8_t tx_power,
float max_eirp, float antenna_gain, uint16_t timeout)
{
}
lorawan_status_t LoRaMac::initialize(EventQueue *queue,
mbed::Callback<void(void)>scheduling_failure_handler)
{
LoRaMac_stub::_scheduling_failure_handler = scheduling_failure_handler;
return LoRaMac_stub::status_value;
}
void LoRaMac::disconnect()
{
}
uint8_t LoRaMac::get_max_possible_tx_size(uint8_t fopts_len)
{
return 0;
}
bool LoRaMac::nwk_joined()
{
if (LoRaMac_stub::bool_false_counter) {
LoRaMac_stub::bool_false_counter--;
return false;
}
if (LoRaMac_stub::bool_true_counter) {
LoRaMac_stub::bool_true_counter--;
return true;
}
return LoRaMac_stub::bool_value;
}
void LoRaMac::set_nwk_joined(bool joined)
{
}
lorawan_status_t LoRaMac::add_channel_plan(const lorawan_channelplan_t &plan)
{
return LoRaMac_stub::status_value;
}
lorawan_status_t LoRaMac::remove_channel_plan()
{
return LoRaMac_stub::status_value;
}
lorawan_status_t LoRaMac::get_channel_plan(lorawan_channelplan_t &plan)
{
return LoRaMac_stub::status_value;
}
lorawan_status_t LoRaMac::remove_single_channel(uint8_t id)
{
return LoRaMac_stub::status_value;
}
lorawan_status_t LoRaMac::multicast_channel_link(multicast_params_t *channel_param)
{
return LoRaMac_stub::status_value;
}
lorawan_status_t LoRaMac::multicast_channel_unlink(multicast_params_t *channel_param)
{
return LoRaMac_stub::status_value;
}
void LoRaMac::bind_phy(LoRaPHY &phy)
{
}