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LoRaMac.h
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1 /**
2  * \file LoRaMac.h
3  *
4  * \brief LoRa MAC layer implementation
5  *
6  * \copyright Revised BSD License, see LICENSE.TXT file include in the project
7  *
8  * \code
9  * ______ _
10  * / _____) _ | |
11  * ( (____ _____ ____ _| |_ _____ ____| |__
12  * \____ \| ___ | (_ _) ___ |/ ___) _ \
13  * _____) ) ____| | | || |_| ____( (___| | | |
14  * (______/|_____)_|_|_| \__)_____)\____)_| |_|
15  * (C)2013 Semtech
16  *
17  * ___ _____ _ ___ _ _____ ___ ___ ___ ___
18  * / __|_ _/_\ / __| |/ / __/ _ \| _ \/ __| __|
19  * \__ \ | |/ _ \ (__| ' <| _| (_) | / (__| _|
20  * |___/ |_/_/ \_\___|_|\_\_| \___/|_|_\\___|___|
21  * embedded.connectivity.solutions===============
22  *
23  * \endcode
24  *
25  * \author Miguel Luis ( Semtech )
26  *
27  * \author Gregory Cristian ( Semtech )
28  *
29  * \author Daniel Jaeckle ( STACKFORCE )
30  *
31  * \defgroup LORAMAC LoRa MAC layer implementation
32  * This module specifies the API implementation of the LoRaMAC layer.
33  * This is a placeholder for a detailed description of the LoRaMac
34  * layer and the supported features.
35  *
36  * Copyright (c) 2017, Arm Limited and affiliates.
37  * SPDX-License-Identifier: BSD-3-Clause
38  *
39  */
40 #ifndef MBED_LORAWAN_MAC_H__
41 #define MBED_LORAWAN_MAC_H__
42 
43 #include "events/EventQueue.h"
44 
45 #include "lorastack/phy/LoRaPHY.h"
46 
47 #include "system/LoRaWANTimer.h"
49 
50 #include "LoRaMacChannelPlan.h"
51 #include "LoRaMacCommand.h"
52 #include "LoRaMacCrypto.h"
53 #if MBED_CONF_RTOS_PRESENT
54 #include "rtos/Mutex.h"
55 #endif
56 
57 #include "platform/ScopedLock.h"
58 
59 /** LoRaMac Class
60  * Implementation of LoRaWAN MAC layer
61  */
62 class LoRaMac {
63 
64 public:
65 
66  /**
67  * Constructor
68  */
69  LoRaMac();
70 
71  /**
72  * Destructor
73  */
74  ~LoRaMac();
75 
76  /**
77  * @brief LoRaMAC layer initialization
78  *
79  * @details Initializes the LoRaMAC layer,
80  *
81  *
82  * @param queue [in] A pointer to the application provided EventQueue.
83  *
84  * @param scheduling_failure_handler A callback to inform upper layer if a deferred
85  * transmission (after backoff or retry) fails to schedule.
86  *
87  * @return `lorawan_status_t` The status of the operation. The possible values are:
88  * \ref LORAWAN_STATUS_OK
89  * \ref LORAWAN_STATUS_PARAMETER_INVALID
90  */
92  mbed::Callback<void(void)>scheduling_failure_handler);
93 
94  /**
95  * @brief Disconnect LoRaMac layer
96  *
97  * @details Cancels all outstanding requests and sets LoRaMac's
98  * internal state to idle.
99  */
100  void disconnect(void);
101 
102  /**
103  * @brief nwk_joined Checks if device has joined to network
104  * @return True if joined to network, false otherwise
105  */
106  bool nwk_joined();
107 
108  /**
109  * @brief Adds a channel plan to the system.
110  *
111  * @details Adds a whole channel plan or a single new channel if the plan
112  * contains only one channel and 'plan.nb_channels' is set to 1.
113  * Please note that this functionality is not available in all regions.
114  * Information on the allowed ranges is available at the
115  * LoRaWAN Regional Parameters V1.0.2rB.
116  *
117  * @param plan [in] A reference to application provided channel plan.
118  *
119  * @return `lorawan_status_t` The status of the operation. The possible values are:
120  * \ref LORAWAN_STATUS_OK
121  * \ref LORAWAN_STATUS_BUSY
122  * \ref LORAWAN_STATUS_PARAMETER_INVALID
123  */
125 
126  /**
127  * @brief Removes a channel plan from the system.
128  *
129  * @details Removes the whole active channel plan except the 'Default Channels'.
130  * Please note that this functionality is not available in all regions.
131  * Information on the allowed ranges is available at the
132  * LoRaWAN Regional Parameters V1.0.2rB.
133  *
134  * @return `lorawan_status_t` The status of the operation. The possible values are:
135  * \ref LORAWAN_STATUS_OK
136  * \ref LORAWAN_STATUS_BUSY
137  * \ref LORAWAN_STATUS_PARAMETER_INVALID
138  */
140 
141  /**
142  * @brief Access active channel plan.
143  *
144  * @details Provides access to the current active channel plan.
145  *
146  * @param plan [out] A reference to application provided channel plan data
147  * structure which will be filled in with active channel
148  * plan.
149  *
150  * @return `lorawan_status_t` The status of the operation. The possible values are:
151  * \ref LORAWAN_STATUS_OK
152  * \ref LORAWAN_STATUS_BUSY
153  * \ref LORAWAN_STATUS_PARAMETER_INVALID
154  */
156 
157  /**
158  * @brief Remove a given channel from the active plan.
159  *
160  * @details Deactivates the given channel.
161  *
162  * @param id Id of the channel.
163  *
164  * @return `lorawan_status_t` The status of the operation. The possible values are:
165  * \ref LORAWAN_STATUS_OK
166  * \ref LORAWAN_STATUS_BUSY
167  * \ref LORAWAN_STATUS_PARAMETER_INVALID
168  */
170 
171  /**
172  * @brief LoRaMAC multicast channel link service.
173  *
174  * @details Links a multicast channel into the linked list.
175  *
176  * @param [in] channel_param The multicast channel parameters to link.
177  *
178  * @return `lorawan_status_t` The status of the operation. The possible values are:
179  * \ref LORAWAN_STATUS_OK
180  * \ref LORAWAN_STATUS_BUSY
181  * \ref LORAWAN_STATUS_PARAMETER_INVALID
182  */
184 
185  /**
186  * @brief LoRaMAC multicast channel unlink service.
187  *
188  * @details Unlinks a multicast channel from the linked list.
189  *
190  * @param [in] channel_param The multicast channel parameters to unlink.
191  *
192  * @return `lorawan_status_t` The status of the operation. The possible values are:
193  * \ref LORAWAN_STATUS_OK
194  * \ref LORAWAN_STATUS_BUSY
195  * \ref LORAWAN_STATUS_PARAMETER_INVALID
196  */
198 
199  /** Binds phy layer to MAC.
200  *
201  * @param phy LoRaPHY object
202  */
203  void bind_phy(LoRaPHY &phy);
204 
205  /**
206  * @brief Schedules the frame for sending.
207  *
208  * @details Prepares a full MAC frame and schedules it for physical
209  * transmission.
210  *
211  * @param [in] mac_hdr MAC frame header field
212  * @param [in] fport Payload port
213  * @param [in] fbuffer MAC frame data buffer to be sent
214  * @param [in] fbuffer_size MAC frame data buffer size
215  *
216  * @return status Status of the operation. LORAWAN_STATUS_OK in case
217  * of success and a negative error code in case of
218  * failure.
219  */
220  lorawan_status_t send(loramac_mhdr_t *mac_hdr, const uint8_t fport,
221  const void *fbuffer, uint16_t fbuffer_size);
222 
223  /**
224  * @brief get_default_tx_datarate Gets the default TX datarate
225  * @return default TX datarate.
226  */
227  uint8_t get_default_tx_datarate();
228 
229  /**
230  * @brief enable_adaptive_datarate Enables or disables adaptive datarate.
231  * @param adr_enabled Flag indicating is adr enabled or disabled.
232  */
233  void enable_adaptive_datarate(bool adr_enabled);
234 
235  /** Sets up the data rate.
236  *
237  * `set_datarate()` first verifies whether the data rate given is valid or not.
238  * If it is valid, the system sets the given data rate to the channel.
239  *
240  * @param data_rate The intended data rate, for example DR_0 or DR_1.
241  * Note that the macro DR_* can mean different
242  * things in different regions.
243  *
244  * @return LORAWAN_STATUS_OK if everything goes well, otherwise
245  * a negative error code.
246  */
247  lorawan_status_t set_channel_data_rate(uint8_t data_rate);
248 
249  /**
250  * @brief tx_ongoing Check whether a prepare is done or not.
251  * @return True if prepare_ongoing_tx is called, false otherwise.
252  */
253  bool tx_ongoing();
254 
255  /**
256  * @brief set_tx_ongoing Changes the ongoing status for prepared message.
257  * @param ongoing The value indicating the status.
258  */
259  void set_tx_ongoing(bool ongoing);
260 
261  /**
262  * @brief reset_ongoing_tx Resets _ongoing_tx_msg.
263  * @param reset_pending If true resets pending size also.
264  */
265  void reset_ongoing_tx(bool reset_pending = false);
266 
267  /**
268  * @brief prepare_ongoing_tx This will prepare (and override) ongoing_tx_msg.
269  * @param port The application port number.
270  *
271  * @param data A pointer to the data being sent. The ownership of the
272  * buffer is not transferred.
273  *
274  * @param length The size of data in bytes.
275  *
276  * @param flags A flag used to determine what type of
277  * message is being sent.
278  *
279  * @param num_retries Number of retries for a confirmed type message
280  *
281  * @return The number of bytes prepared for sending.
282  */
283  int16_t prepare_ongoing_tx(const uint8_t port, const uint8_t *data,
284  uint16_t length, uint8_t flags, uint8_t num_retries);
285 
286  /**
287  * @brief send_ongoing_tx Sends the ongoing_tx_msg
288  * @return LORAWAN_STATUS_OK or a negative error code on failure.
289  */
291 
292  /**
293  * @brief device_class Returns active device class
294  * @return Device class in use.
295  */
297 
298  /**
299  * @brief set_device_class Sets active device class.
300  * @param device_class Device class to use.
301  * @param rx2_would_be_closure_handler callback function to inform about
302  * would be closure of RX2 window
303  */
304  void set_device_class(const device_class_t &device_class,
305  mbed::Callback<void(void)>rx2_would_be_closure_handler);
306 
307  /**
308  * @brief setup_link_check_request Adds link check request command
309  * to be put on next outgoing message (when it fits)
310  */
312 
313  /**
314  * @brief prepare_join prepares arguments to be ready for join() call.
315  * @param params Join parameters to use, if NULL, the default will be used.
316  * @param is_otaa True if joining is to be done using OTAA, false for ABP.
317  *
318  * @return LORAWAN_STATUS_OK or a negative error code on failure.
319  */
320  lorawan_status_t prepare_join(const lorawan_connect_t *params, bool is_otaa);
321 
322  /**
323  * @brief join Joins the network.
324  * @param is_otaa True if joining is to be done using OTAA, false for ABP.
325  * @return LORAWAN_STATUS_OK or a negative error code on failure.
326  */
327  lorawan_status_t join(bool is_otaa);
328 
329  /**
330  * MAC operations upon successful transmission
331  */
332  void on_radio_tx_done(lorawan_time_t timestamp);
333 
334  /**
335  * MAC operations upon reception
336  */
337  void on_radio_rx_done(const uint8_t *const payload, uint16_t size,
338  int16_t rssi, int8_t snr);
339 
340  /**
341  * MAC operations upon transmission timeout
342  */
343  void on_radio_tx_timeout(void);
344 
345  /**
346  * MAC operations upon empty reception slots
347  *
348  * @param is_timeout false when radio encountered an error
349  * true when the an RX slot went empty
350  *
351  * @return current RX slot
352  */
353  void on_radio_rx_timeout(bool is_timeout);
354 
355  /**
356  * Handles retransmissions of Join requests if an Accept
357  * was not received.
358  *
359  * @returns true if a retry will be made
360  */
361  bool continue_joining_process(void);
362 
363  /**
364  * Checks if the CONFIRMED data can be sent again or not.
365  */
366  bool continue_sending_process(void);
367 
368  /**
369  * Read-only access to MAC primitive blocks
370  */
372  const loramac_mcps_indication_t *get_mcps_indication() const;
373  const loramac_mlme_confirm_t *get_mlme_confirmation() const;
374  const loramac_mlme_indication_t *get_mlme_indication() const;
375 
376  /**
377  * Post processing steps in response to actions carried out
378  * by controller layer and Mac
379  */
380  void post_process_mcps_req(void);
381  void post_process_mcps_ind(void);
382  void post_process_mlme_request(void);
383  void post_process_mlme_ind(void);
384 
385  /**
386  * Set battery level query callback
387  */
388  void set_batterylevel_callback(mbed::Callback<uint8_t(void)> battery_level);
389 
390  /**
391  * Returns the event ID of backoff timer.
392  */
393  int get_backoff_timer_event_id(void);
394 
395  /**
396  * Clears out the TX pipe by discarding any outgoing message if the backoff
397  * timer is still running.
398  */
400 
401  /**
402  * Gets the current time
403  */
405 
406  /**
407  * Gets the current receive slot
408  */
410 
411  /**
412  * Indicates what level of QOS is set by network server. QOS level is set
413  * in response to a LinkADRReq for UNCONFIRMED messages
414  */
415  uint8_t get_QOS_level(void);
416 
417  /**
418  *Indicates level of QOS used for the previous outgoing message
419  */
420  uint8_t get_prev_QOS_level(void);
421 
422  /**
423  * These locks trample through to the upper layers and make
424  * the stack thread safe.
425  */
426 #if MBED_CONF_RTOS_PRESENT
427  void lock(void)
428  {
429  _mutex.lock();
430  }
431  void unlock(void)
432  {
433  _mutex.unlock();
434  }
435 #else
436  void lock(void) { }
437  void unlock(void) { }
438 #endif
439 
440 private:
441  /**
442  * @brief Queries the LoRaMAC the maximum possible FRMPayload size to send.
443  * The LoRaMAC takes the scheduled MAC commands into account and returns
444  * corresponding value.
445  *
446  * @param fopts_len [in] Number of mac commands in the queue pending.
447  *
448  * @return Size of the biggest packet that can be sent.
449  * Please note that if the size of the MAC commands in the queue do
450  * not fit into the payload size on the related datarate, the LoRaMAC will
451  * omit the MAC commands.
452  */
453  uint8_t get_max_possible_tx_size(uint8_t fopts_len);
454 
455  /**
456  * @brief set_nwk_joined This is used for ABP mode for which real joining does not happen
457  * @param joined True if device has joined in network, false otherwise
458  */
459  void set_nwk_joined(bool joined);
460 
461  /**
462  * @brief Configures the events to trigger an MLME-Indication with
463  * a MLME type of MLME_SCHEDULE_UPLINK.
464  */
465  void set_mlme_schedule_ul_indication(void);
466 
467  /**
468  * @brief Resets MAC specific parameters to default
469  */
470  void reset_mac_parameters(void);
471 
472  /**
473  * Handles a Join Accept frame
474  */
475  void handle_join_accept_frame(const uint8_t *payload, uint16_t size);
476 
477  /**
478  * Handles data frames
479  */
480  void handle_data_frame(const uint8_t *payload, uint16_t size, uint8_t ptr_pos,
481  uint8_t msg_type, int16_t rssi, int8_t snr);
482 
483  /**
484  * Send a Join Request
485  */
486  lorawan_status_t send_join_request();
487 
488  /**
489  * Handles retransmissions
490  */
491  lorawan_status_t handle_retransmission();
492 
493  /**
494  * Checks if the frame is valid
495  */
496  void check_frame_size(uint16_t size);
497 
498  /**
499  * Performs MIC
500  */
501  bool message_integrity_check(const uint8_t *payload, uint16_t size,
502  uint8_t *ptr_pos, uint32_t address,
503  uint32_t *downlink_counter, const uint8_t *nwk_skey);
504 
505  /**
506  * Decrypts and extracts data and MAC commands from the received encrypted
507  * payload
508  */
509  void extract_data_and_mac_commands(const uint8_t *payload, uint16_t size,
510  uint8_t fopts_len, uint8_t *nwk_skey,
511  uint8_t *app_skey, uint32_t address,
512  uint32_t downlink_frame_counter,
513  int16_t rssi, int8_t snr);
514  /**
515  * Decrypts and extracts MAC commands from the received encrypted
516  * payload if there is no data
517  */
518  void extract_mac_commands_only(const uint8_t *payload, int8_t snr, uint8_t fopts_len);
519 
520  /**
521  * Callback function to be executed when the DC backoff timer expires
522  */
523  void on_backoff_timer_expiry(void);
524 
525  /**
526  * At the end of an RX1 window timer, an RX1 window is opened using this method.
527  */
528  void open_rx1_window(void);
529 
530  /**
531  * At the end of an RX2 window timer, an RX2 window is opened using this method.
532  */
533  void open_rx2_window(void);
534 
535  /**
536  * A method to retry a CONFIRMED message after a particular time period
537  * (ACK_TIMEOUT = TIME_IN_MS) if the ack was not received
538  */
539  void on_ack_timeout_timer_event(void);
540 
541  /*!
542  * \brief Check if the OnAckTimeoutTimer has do be disabled. If so, the
543  * function disables it.
544  *
545  * \param [in] node_ack_requested Set to true, if the node has requested an ACK
546  * \param [in] dev_class The device class
547  * \param [in] ack_received Set to true, if the node has received an ACK
548  * \param [in] ack_timeout_retries_counter Retries counter for confirmed uplinks
549  * \param [in] ack_timeout_retries Maximum retries for confirmed uplinks
550  */
551  void check_to_disable_ack_timeout(bool node_ack_requested,
552  device_class_t dev_class,
553  bool ack_received,
554  uint8_t ack_timeout_retries_counter,
555  uint8_t ack_timeout_retries);
556 
557  /**
558  * Validates if the payload fits into the frame, taking the datarate
559  * into account.
560  *
561  * Please Refer to chapter 4.3.2 of the LoRaWAN specification, v1.0.2
562  */
563  bool validate_payload_length(uint16_t length, int8_t datarate, uint8_t fopts_len);
564 
565  /**
566  * Prepares MAC frame on the behest of send() API.
567  */
568  lorawan_status_t prepare_frame(loramac_mhdr_t *mac_hdr,
569  loramac_frame_ctrl_t *fctrl, const uint8_t fport,
570  const void *fbuffer, uint16_t fbuffer_size);
571 
572  /**
573  * Schedules a transmission on the behest of send() API.
574  */
575  lorawan_status_t schedule_tx();
576 
577  /**
578  * Calculates the back-off time for the band of a channel.
579  * Takes in the last used channel id as a parameter.
580  */
581  void calculate_backOff(uint8_t channel_id);
582 
583  /**
584  * Hands over the MAC frame to PHY layer.
585  */
586  lorawan_status_t send_frame_on_channel(uint8_t channel);
587 
588  /**
589  * Resets MAC primitive blocks
590  */
591  void reset_mcps_confirmation(void);
592  void reset_mlme_confirmation(void);
593  void reset_mcps_indication(void);
594 
595  /**
596  * @brief set_tx_continuous_wave Puts the system in continuous transmission mode
597  * @param [in] channel A Channel to use
598  * @param [in] datarate A datarate to use
599  * @param [in] tx_power A RF output power to use
600  * @param [in] max_eirp A maximum possible EIRP to use
601  * @param [in] antenna_gain Antenna gain to use
602  * @param [in] timeout Time in seconds while the radio is kept in continuous wave mode
603  */
604  void set_tx_continuous_wave(uint8_t channel, int8_t datarate, int8_t tx_power,
605  float max_eirp, float antenna_gain, uint16_t timeout);
606 
607 private:
609 #if MBED_CONF_RTOS_PRESENT
610  rtos::Mutex _mutex;
611 #endif
612 
613  /**
614  * Timer subsystem handle
615  */
616  LoRaWANTimeHandler _lora_time;
617 
618  /**
619  * LoRa PHY layer object storage
620  */
621  LoRaPHY *_lora_phy;
622 
623  /**
624  * MAC command handle
625  */
626  LoRaMacCommand _mac_commands;
627 
628  /**
629  * Channel planning subsystem
630  */
631  LoRaMacChannelPlan _channel_plan;
632 
633  /**
634  * Crypto handling subsystem
635  */
636  LoRaMacCrypto _lora_crypto;
637 
638  /**
639  * Central MAC layer data storage
640  */
641  loramac_protocol_params _params;
642 
643  /**
644  * EventQueue object storage
645  */
646  events::EventQueue *_ev_queue;
647 
648  /**
649  * Class C doesn't timeout in RX2 window as it is a continuous window.
650  * We use this callback to inform the LoRaWANStack controller that we did
651  * not receive a downlink in a time equal to normal Class A type RX2
652  * window timeout. This marks a 'would-be' closure for RX2, actual RX2 is
653  * not closed. Mostly network servers will send right at the beginning of
654  * RX2 window if they have something to send. So if we didn't receive anything
655  * in the time period equal to would be RX2 delay (which is a function of
656  * uplink message length and data rate), we will invoke this callback to let
657  * the upper layer know.
658  */
659  mbed::Callback<void(void)> _rx2_would_be_closure_for_class_c;
660 
661  /**
662  * Transmission is async, i.e., a call to schedule_tx() may be deferred to
663  * a time after a certain back off. We use this callback to inform the
664  * controller layer that a specific TX transaction failed to schedule after
665  * backoff or retry.
666  */
667  mbed::Callback<void(void)> _scheduling_failure_handler;
668 
669  timer_event_t _rx2_closure_timer_for_class_c;
670 
671  /**
672  * Structure to hold MCPS indication data.
673  */
674  loramac_mcps_indication_t _mcps_indication;
675 
676  /**
677  * Structure to hold MCPS confirm data.
678  */
679  loramac_mcps_confirm_t _mcps_confirmation;
680 
681  /**
682  * Structure to hold MLME indication data.
683  */
684  loramac_mlme_indication_t _mlme_indication;
685 
686  /**
687  * Structure to hold MLME confirm data.
688  */
689  loramac_mlme_confirm_t _mlme_confirmation;
690 
691  loramac_tx_message_t _ongoing_tx_msg;
692 
693  bool _is_nwk_joined;
694 
695  bool _can_cancel_tx;
696 
697  bool _continuous_rx2_window_open;
698 
699  device_class_t _device_class;
700 
701  uint8_t _prev_qos_level;
702 
703  bool _demod_ongoing;
704 };
705 
706 #endif // MBED_LORAWAN_MAC_H__
device_class_t get_device_class() const
device_class Returns active device class
LoRa MAC layer implementation.
bool continue_sending_process(void)
Checks if the CONFIRMED data can be sent again or not.
void on_radio_rx_timeout(bool is_timeout)
MAC operations upon empty reception slots.
lorawan_status_t get_channel_plan(lorawan_channelplan_t &plan)
Access active channel plan.
void reset_ongoing_tx(bool reset_pending=false)
reset_ongoing_tx Resets _ongoing_tx_msg.
bool continue_joining_process(void)
Handles retransmissions of Join requests if an Accept was not received.
RAII-style mechanism for owning a lock of Lockable object for the duration of a scoped block...
Definition: ScopedLock.h:62
An abstract class providing radio object to children and provide base for implementing LoRa PHY layer...
lorawan_status_t add_channel_plan(const lorawan_channelplan_t &plan)
Adds a channel plan to the system.
LoRaMac Class Implementation of LoRaWAN MAC layer.
Definition: LoRaMac.h:62
EventQueue.
Definition: EventQueue.h:52
device_class_t
LoRaWAN device classes definition.
Definition: lorawan_types.h:59
bool nwk_joined()
nwk_joined Checks if device has joined to network
~LoRaMac()
Destructor.
Stack level TX message structure.
Timer object description.
int16_t prepare_ongoing_tx(const uint8_t port, const uint8_t *data, uint16_t length, uint8_t flags, uint8_t num_retries)
prepare_ongoing_tx This will prepare (and override) ongoing_tx_msg.
uint32_t lorawan_time_t
Timer time variable definition.
lorawan_status_t join(bool is_otaa)
join Joins the network.
lorawan_status_t multicast_channel_link(multicast_params_t *channel_param)
LoRaMAC multicast channel link service.
lorawan_status_t remove_channel_plan()
Removes a channel plan from the system.
uint8_t get_default_tx_datarate()
get_default_tx_datarate Gets the default TX datarate
uint8_t get_prev_QOS_level(void)
Indicates level of QOS used for the previous outgoing message.
LoRaPHY Class Parent class for LoRa regional PHY implementations.
Definition: LoRaPHY.h:46
/ _____) _ | | ( (____ _____ ____ _| |_ _____ ____| |__ ____ | ___ | (_ _) ___ |/ ___) _ \ _____) ) _...
Definition: LoRaWANTimer.h:29
int get_backoff_timer_event_id(void)
Returns the event ID of backoff timer.
lorawan_status_t set_channel_data_rate(uint8_t data_rate)
Sets up the data rate.
bool tx_ongoing()
tx_ongoing Check whether a prepare is done or not.
enum lorawan_status lorawan_status_t
lorawan_status_t contains status codes in response to stack operations
lorawan_connect_t structure
void on_radio_rx_done(const uint8_t *const payload, uint16_t size, int16_t rssi, int8_t snr)
MAC operations upon reception.
lorawan_status_t clear_tx_pipe(void)
Clears out the TX pipe by discarding any outgoing message if the backoff timer is still running...
const loramac_mcps_confirm_t * get_mcps_confirmation() const
Read-only access to MAC primitive blocks.
lorawan_status_t send_ongoing_tx(void)
send_ongoing_tx Sends the ongoing_tx_msg
void enable_adaptive_datarate(bool adr_enabled)
enable_adaptive_datarate Enables or disables adaptive datarate.
lorawan_status_t prepare_join(const lorawan_connect_t *params, bool is_otaa)
prepare_join prepares arguments to be ready for join() call.
void lock(void)
These locks trample through to the upper layers and make the stack thread safe.
Definition: LoRaMac.h:436
The Mutex class is used to synchronize the execution of threads.
Definition: Mutex.h:66
void setup_link_check_request()
setup_link_check_request Adds link check request command to be put on next outgoing message (when it ...
DO NOT MODIFY, WILL BREAK THE API!
lorawan_status_t send(loramac_mhdr_t *mac_hdr, const uint8_t fport, const void *fbuffer, uint16_t fbuffer_size)
Schedules the frame for sending.
void on_radio_tx_done(lorawan_time_t timestamp)
MAC operations upon successful transmission.
void set_tx_ongoing(bool ongoing)
set_tx_ongoing Changes the ongoing status for prepared message.
LoRaMacCommand Class Helper class for LoRaMac layer to handle any MAC commands.
lorawan_status_t multicast_channel_unlink(multicast_params_t *channel_param)
LoRaMAC multicast channel unlink service.
void bind_phy(LoRaPHY &phy)
Binds phy layer to MAC.
uint8_t get_QOS_level(void)
Indicates what level of QOS is set by network server.
lorawan_time_t get_current_time(void)
Gets the current time.
lorawan_status_t initialize(events::EventQueue *queue, mbed::Callback< void(void)>scheduling_failure_handler)
LoRaMAC layer initialization.
LoRaMac()
Constructor.
Contains common data structures used by Mbed-OS LoRaWAN mplementation.
void on_radio_tx_timeout(void)
MAC operations upon transmission timeout.
lorawan_status_t remove_single_channel(uint8_t id)
Remove a given channel from the active plan.
rx_slot_t get_current_slot(void)
Gets the current receive slot.
void disconnect(void)
Disconnect LoRaMac layer.
void set_device_class(const device_class_t &device_class, mbed::Callback< void(void)>rx2_would_be_closure_handler)
set_device_class Sets active device class.
Callback class based on template specialization.
Definition: Callback.h:39
void set_batterylevel_callback(mbed::Callback< uint8_t(void)> battery_level)
Set battery level query callback.
void post_process_mcps_req(void)
Post processing steps in response to actions carried out by controller layer and Mac.
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