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amiro-os / core / src / aos_main.cpp @ 90e99d44

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1	e545e620	Thomas Schöpping	/*
2			AMiRo-OS is an operating system designed for the Autonomous Mini Robot (AMiRo) platform.
3	84f0ce9e	Thomas Schöpping	Copyright (C) 2016..2019 Thomas Schöpping et al.
4	e545e620	Thomas Schöpping
5			This program is free software: you can redistribute it and/or modify
6			it under the terms of the GNU General Public License as published by
7			the Free Software Foundation, either version 3 of the License, or
8			(at your option) any later version.
9
10			This program is distributed in the hope that it will be useful,
11			but WITHOUT ANY WARRANTY; without even the implied warranty of
12			MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13			GNU General Public License for more details.
14
15			You should have received a copy of the GNU General Public License
16			along with this program. If not, see <http://www.gnu.org/licenses/>.
17			*/
18
19	53710ca3	Marc Rothmann	/**
20			* @file aos_main.cpp
21			* @brief Main function.
22			* @details Main function with SSSP and initialization,
23			* extendable via hooks.
24			*
25			* @addtogroup aos_system
26			* @{
27			*/
28
29	e545e620	Thomas Schöpping	#include <amiroos.h>
30	cb835a3e	Thomas Schöpping	#include <module.h>
31	e545e620	Thomas Schöpping
32	b6b45e4c	Thomas Schöpping	/*
33			* hook to add further includes
34			*/
35	512abac1	Thomas Schöpping	#if defined(AMIROOS_CFG_MAIN_EXTRA_INCLUDE_HEADER)
36			#include AMIROOS_CFG_MAIN_EXTRA_INCLUDE_HEADER
37	b6b45e4c	Thomas Schöpping	#endif
38
39	e545e620	Thomas Schöpping	/**
40			* @brief Event mask to identify I/O events.
41			*/
42	6b53f6bf	Thomas Schöpping	#define IOEVENT_MASK EVENT_MASK(0)
43	e545e620	Thomas Schöpping
44			/**
45			* @brief Event mask to identify OS events.
46			*/
47	6b53f6bf	Thomas Schöpping	#define OSEVENT_MASK EVENT_MASK(1)
48	e545e620	Thomas Schöpping
49			/**
50	933df08e	Thomas Schöpping	* @brief Event mask to idetify CAN events.
51			*/
52			#define CANEVENT_MASK EVENT_MASK(2)
53
54			/**
55			* @brief Event mask to idetify timeout events.
56			*/
57			#define TIMEOUTEVENT_MASK EVENT_MASK(3)
58
59			/**
60			* @brief Event mask to idetify signal delay events.
61			*/
62			#define DELAYEVENT_MASK EVENT_MASK(4)
63
64	9ebb11a9	Thomas Schöpping	#if (AMIROOS_CFG_SSSP_ENABLE == true) \|\| defined(__DOXYGEN__)
65
66	933df08e	Thomas Schöpping	/**
67			* @brief CAN message identifier for initialization of the SSSP stack initialization sequence.
68			*/
69			#define SSSP_STACKINIT_CANMSGID_INIT 0x003
70
71			/**
72			* @brief CAN message identifier for transmitting module IDs during the SSSP stack initialization sequence.
73			*/
74			#define SSSP_STACKINIT_CANMSGID_MODULEID 0x002
75
76			/**
77			* @brief CAN message identifier for abortion of the SSSP stack initialization sequence.
78			*/
79			#define SSSP_STACKINIT_CANMSGID_ABORT 0x001
80
81	1d3e002f	Thomas Schöpping	#else /* AMIROOS_CFG_SSSP_ENABLE == false */
82
83			/**
84			* @brief Default shutdown mode if SSSP is unavailable.
85			*/
86			#define AOS_SHUTDOWN_DEFAULT AOS_SHUTDOWN_DEEPSLEEP
87
88			#endif /* AMIROOS_CFG_SSSP_ENABLE */
89	9ebb11a9	Thomas Schöpping
90	933df08e	Thomas Schöpping	/**
91	9461fadc	Thomas Schöpping	* @brief CAN message identifier for calender synchronization message.
92			*/
93			#define CALENDERSYNC_CANMSGID 0x004
94
95			/**
96	e545e620	Thomas Schöpping	* @brief Listener object for I/O events.
97			*/
98			static event_listener_t _eventListenerIO;
99
100			/**
101			* @brief Listener object for OS events.
102			*/
103			static event_listener_t _eventListenerOS;
104
105			#if defined(MODULE_HAL_PROGIF) \|\| defined(__DOXYGEN__)
106			/**
107	ba516b61	Thomas Schöpping	* @brief I/O channel for the programmer interface.
108	e545e620	Thomas Schöpping	*/
109	ba516b61	Thomas Schöpping	static AosIOChannel _stdiochannel;
110
111	b8268050	Thomas Schöpping	#if (AMIROOS_CFG_SHELL_ENABLE == true) \|\| defined(__DOXYGEN__)
112	ba516b61	Thomas Schöpping	/**
113			* @brief I/O shell channel for the programmer interface.
114			*/
115			static AosShellChannel _stdshellchannel;
116	1d3e002f	Thomas Schöpping	#endif /* AMIROOS_CFG_SHELL_ENABLE == true */
117			#endif /* defined(MODULE_HAL_PROGIF) */
118	e545e620	Thomas Schöpping
119	b6b45e4c	Thomas Schöpping	/*
120			* hook to add further static variables
121			*/
122			#if defined(AMIROOS_CFG_MAIN_EXTRA_STATIC_VARIABLES)
123			AMIROOS_CFG_MAIN_EXTRA_STATIC_VARIABLES
124			#endif
125
126	e545e620	Thomas Schöpping	/**
127			* @brief Prints an error message about an unexpected event.
128			*
129			* @param[in] mask The event mask.
130			* @param[in] flags The event flags.
131			*/
132	933df08e	Thomas Schöpping	static inline void _unexpectedEventError(const eventmask_t mask, const eventflags_t flags)
133	e545e620	Thomas Schöpping	{
134	6b53f6bf	Thomas Schöpping	#if (AMIROOS_CFG_DBG == true)
135	1e5f7648	Thomas Schöpping	aosprintf("CTRL: unexpected/unknown event received. mask: 0x%08X; flags: 0x%08X\n", mask, flags);
136	6b53f6bf	Thomas Schöpping	#else
137	933df08e	Thomas Schöpping	(void)(mask);
138			(void)(flags);
139	6b53f6bf	Thomas Schöpping	#endif
140	3e1a9c79	Thomas Schöpping	return;
141	933df08e	Thomas Schöpping	}
142
143	9ebb11a9	Thomas Schöpping	#if (AMIROOS_CFG_SSSP_ENABLE == true) \|\| defined(__DOXYGEN__)
144	933df08e	Thomas Schöpping	/**
145			* @brief Callback function to be used during SSSP stack initialization sequence.
146			*
147			* @param[in] par A pointer to an @p event_source_t to be fired.
148			*/
149			static void _ssspTimerCallback(void* par)
150			{
151			aosDbgCheck(par != NULL);
152
153			chSysLockFromISR();
154			chEvtBroadcastI((event_source_t*)par);
155			chSysUnlockFromISR();
156
157	e545e620	Thomas Schöpping	return;
158			}
159	9ebb11a9	Thomas Schöpping	#endif /* AMIROOS_CFG_SSSP_ENABLE == true */
160	e545e620	Thomas Schöpping
161			/**
162	9461fadc	Thomas Schöpping	* @brief Helper function to serialize data.
163	933df08e	Thomas Schöpping	*
164			* @param[out] dst Pointer to the output buffer.
165	9461fadc	Thomas Schöpping	* @param[in] src Data to be serialized.
166			* @param[in] n Number of bytes to serialize.
167	933df08e	Thomas Schöpping	*/
168	9461fadc	Thomas Schöpping	inline void _serialize(uint8_t* dst, const uint64_t src, const uint8_t n)
169	933df08e	Thomas Schöpping	{
170			aosDbgCheck(dst != NULL);
171	9461fadc	Thomas Schöpping	aosDbgCheck(n > 0 && n <= 8);
172	933df08e	Thomas Schöpping
173	9461fadc	Thomas Schöpping	for (uint8_t byte = 0; byte < n; ++byte) {
174	933df08e	Thomas Schöpping	dst[byte] = (uint8_t)((src >> (byte * 8)) & 0xFF);
175			}
176
177			return;
178			}
179
180			/**
181	9461fadc	Thomas Schöpping	* @brief Helper function to deserialize data.
182	933df08e	Thomas Schöpping	*
183			* @param[in] src Pointer to the buffer of data to be deserialzed.
184	9461fadc	Thomas Schöpping	* @param[in] n Number of bytes to deserialize.
185	933df08e	Thomas Schöpping	*
186			* @return The deserialized 32 bit data.
187			*/
188	9461fadc	Thomas Schöpping	inline uint64_t _deserialize(uint8_t* src, const uint8_t n)
189	933df08e	Thomas Schöpping	{
190			aosDbgCheck(src != NULL);
191	9461fadc	Thomas Schöpping	aosDbgCheck(n > 0 && n <= 8);
192	933df08e	Thomas Schöpping
193	9461fadc	Thomas Schöpping	uint64_t result = 0;
194			for (uint8_t byte = 0; byte < n; ++byte) {
195			result \|= ((uint64_t)src[byte]) << (byte * 8);
196			}
197
198			return result;
199			}
200
201			/**
202			* @brief Converter function to encode a TM value to a single unsigned 64 bit integer.
203			*
204			* @details Contents of the TM struct are mapped as follows:
205			* bits \|63 62\|61 53\|52 50\|49 26\|25 22\|21 17\|16 12\|11 6\|5 0\|
206			* #bits \| 2 \| 9 \| 3 \| 24 \| 4 \| 5 \| 5 \| 6 \| 6 \|
207			* value \| isdst \| yday \| wday \| year \| mon \| mday \| hour \| min \| sec \|
208			* range \| special \| [0, 365] \| [0, 6] \| [1900, ...] \| [0, 11] \| [1, 31] \| [0, 23] \| [0, 59] \| [0, 61] \|
209			* The Daylight Saving Time Flag (isdsst) is encoded as follows:
210			* DST not in effect -> 0
211			* DST in effect -> 1
212			* no information available -> 2
213			*
214			* @param[in] src Pointer to the TM struct to encode.
215			*
216			* @return An unsigned 64 bit integer, which holds the encoded time value.
217			*/
218			inline uint64_t _TM2U64(struct tm* src)
219			{
220			aosDbgCheck(src != NULL);
221
222			return (((uint64_t)(src->tm_sec & 0x0000003F) << (0)) \|
223			((uint64_t)(src->tm_min & 0x0000003F) << (6)) \|
224			((uint64_t)(src->tm_hour & 0x0000001F) << (12)) \|
225			((uint64_t)(src->tm_mday & 0x0000001F) << (17)) \|
226			((uint64_t)(src->tm_mon & 0x0000000F) << (22)) \|
227			((uint64_t)(src->tm_year & 0x00FFFFFF) << (26)) \|
228			((uint64_t)(src->tm_wday & 0x00000007) << (50)) \|
229			((uint64_t)(src->tm_yday & 0x000001FF) << (53)) \|
230			((uint64_t)((src->tm_isdst == 0) ? 0 : (src->tm_isdst > 0) ? 1 : 2) << (62)));
231			}
232
233			/**
234			* @brief Converter functiomn to retrieve the encoded TM value from an unsigned 64 bit integer.
235			*
236			* @details For information on the encoding, please refer to @p _TM2U64 function.
237			*
238			* @param[out] dst The TM struct to fill with the decoded values.
239			* @param[in] src Unsigned 64 bit integer holding the encoded TM value.
240			*/
241			inline void _U642TM(struct tm* dst, const uint64_t src)
242			{
243			aosDbgCheck(dst != NULL);
244
245			dst->tm_sec = (src >> 0) & 0x0000003F;
246			dst->tm_min = (src >> 6) & 0x0000003F;
247			dst->tm_hour = (src >> 12) & 0x0000001F;
248			dst->tm_mday = (src >> 17) & 0x0000001F;
249			dst->tm_mon = (src >> 22) & 0x0000000F;
250			dst->tm_year = (src >> 26) & 0x00FFFFFF;
251			dst->tm_wday = (src >> 50) & 0x00000007;
252			dst->tm_yday = (src >> 53) & 0x000001FF;
253			dst->tm_isdst = (((src >> 62) & 0x03) == 0) ? 0 : (((src >> 62) & 0x03) > 0) ? 1 : -1;
254
255			return;
256	933df08e	Thomas Schöpping	}
257
258	9ebb11a9	Thomas Schöpping	#if (AMIROOS_CFG_SSSP_ENABLE == true) \|\| defined(__DOXYGEN__)
259	933df08e	Thomas Schöpping	/**
260			* @brief Implementation of the SSSP module stack initialization sequence (startup phase 3).
261			*
262			* @return Shutdown value.
263			* @retval AOS_SHUTDOWN_NONE No shutdown signal received
264			* @retval AOS_SHUTDOWN_PASSIVE Shutdown signal received.
265			*/
266			aos_shutdown_t _ssspModuleStackInitialization(void)
267			{
268			// local types
269			/**
270			* @brief States for the internal state machine to implement SSSP startup stage 3.
271			*/
272			typedef enum {
273			STAGE_3_1, /*< Initiation of SSSP startup stage 3. /
274			STAGE_3_2, /*< Starting the sequence and broadcasting the first ID. /
275			STAGE_3_3_WAITFORFIRSTID, /*< Waiting for first ID after initiation. /
276			STAGE_3_3_WAITFORIDORSIG, /*< Waiting for next ID or activation of neighbor signal. /
277			STAGE_3_3_WAITFORID, /*< Waiting for next ID (after the module has set its own ID). /
278			STAGE_3_4_FINISH, /*< Successful finish of stage 3. /
279			STAGE_3_4_ABORT_ACTIVE, /*< Aborting stage 3 (active). /
280			STAGE_3_4_ABORT, /*< Aborting stage 3 (passive). /
281			} sssp_modulestackinitstage_t;
282
283			typedef struct {
284			bool loop : 1;
285			bool wfe : 1;
286			bool wfe_next : 1;
287			} flags_t;
288
289			// local variables
290			aos_shutdown_t shutdown = AOS_SHUTDOWN_NONE;
291			sssp_modulestackinitstage_t stage = STAGE_3_1;
292			eventmask_t eventmask = 0;
293	1d3e002f	Thomas Schöpping	eventflags_t ioflags = 0;
294	933df08e	Thomas Schöpping	event_source_t eventSourceTimeout;
295			event_source_t eventSourceDelay;
296			event_listener_t eventListenerTimeout;
297			event_listener_t eventListenerDelay;
298			event_listener_t eventListenerCan;
299			virtual_timer_t timerTimeout;
300			virtual_timer_t timerDelay;
301			CANTxFrame canTxFrame;
302			CANRxFrame canRxFrame;
303			#if (AMIROOS_CFG_SSSP_STACK_START != true) \|\| (AMIROOS_CFG_DBG == true)
304			aos_ssspmoduleid_t lastid = 0;
305			#endif
306			flags_t flags;
307	1d3e002f	Thomas Schöpping	aos_timestamp_t uptime;
308	933df08e	Thomas Schöpping
309			// initialize local varibles
310			chEvtObjectInit(&eventSourceTimeout);
311			chEvtObjectInit(&eventSourceDelay);
312			chVTObjectInit(&timerTimeout);
313			chVTObjectInit(&timerDelay);
314			canTxFrame.RTR = CAN_RTR_DATA;
315			canTxFrame.IDE = CAN_IDE_STD;
316			flags.loop = true;
317			flags.wfe = false; // do not wait for events in the initial iteration of the FSM loop
318			flags.wfe_next = true;
319
320			// initialize system variables
321			aos.sssp.stage = AOS_SSSP_STARTUP_3_1;
322			aos.sssp.moduleId = 0;
323
324			// listen to events (timout, delay, CAN receive)
325			chEvtRegisterMask(&eventSourceTimeout, &eventListenerTimeout, TIMEOUTEVENT_MASK);
326			chEvtRegisterMask(&eventSourceDelay, &eventListenerDelay, DELAYEVENT_MASK);
327			chEvtRegisterMask(&MODULE_HAL_CAN.rxfull_event, &eventListenerCan, CANEVENT_MASK);
328
329			/*
330			* FSM in a loop.
331			*
332			* This is a fully event-based FSM for the module stack initialization
333			* sequence, defined by SSSP as startup stage 3. There are five different
334			* events that can occur at this point:
335			* I/O events: The input level of an input pin has changed. Such events must
336			* be handled differently depending on the current state. Most
337			* of the time, however, such events can be ignored.
338			* OS events: Such events are only available after this stage completed and
339			* thus should never occur. However, there is an optional hook
340			* to handle such events, nevertheless.
341			* CAN events: At least one CAN message was received. Note that this event
342			* will only fire again if all input buffers have been cleared.
343			* timeouts: If some module does not support the sequence of there is any
344			* issue, such a case is detected via timeouts and must be
345			* handled accordingly (see abort state). In some cases, it is
346			* possible that a timeout event occurres 'simultaneously' with
347			* some other event. This can be caused by several timing issues
348			* and is a valid situation. As a result, any other events
349			* should be handled before the timeout event. If the other
350			* events are expected and valid, this implementation requires
351			* the timeout event flag to be cleared explicitely. Otherwise
352			* it is evaluated at the end of each iteration of the loop.
353			* delays: Depending on the current state, delays are required by SSSP
354			* for timing of the sequential activation of signals.
355			*/
356			aosDbgPrintf("SSSP stack initialization sequence:\n");
357			while (flags.loop) {
358			#if (AMIROOS_CFG_DBG == true)
359			switch (stage) {
360			case STAGE_3_1:
361			aosDbgPrintf(">>> 3-1\n");
362			break;
363			case STAGE_3_2:
364			aosDbgPrintf(">>> 3-2\n");
365			break;
366			case STAGE_3_3_WAITFORFIRSTID:
367			aosDbgPrintf(">>> 3-3 (1st ID)\n");
368			break;
369			case STAGE_3_3_WAITFORIDORSIG:
370			aosDbgPrintf(">>> 3-3 (ID/sig)\n");
371			break;
372			case STAGE_3_3_WAITFORID:
373			aosDbgPrintf(">>> 3-3 (ID)\n");
374			break;
375			case STAGE_3_4_FINISH:
376			aosDbgPrintf(">>> 3-4 (finish)\n");
377			break;
378			case STAGE_3_4_ABORT_ACTIVE:
379	9461fadc	Thomas Schöpping	aosDbgPrintf(">>> 3-4 (active abort)\n");
380	933df08e	Thomas Schöpping	break;
381			case STAGE_3_4_ABORT:
382			aosDbgPrintf(">>> 3-4 (abort)\n");
383			break;
384			}
385			#endif
386
387			// reset wfe flag for the next iteration
388			flags.wfe_next = true;
389
390	1d3e002f	Thomas Schöpping	// waiting for events (may be skipped)
391	933df08e	Thomas Schöpping	if (flags.wfe) {
392			// wait for any event to occur
393			aosDbgPrintf("WFE...");
394	1e5f7648	Thomas Schöpping	eventmask = chEvtWaitAnyTimeout(ALL_EVENTS, chTimeUS2I(AOS_SYSTEM_SSSP_TIMEOUT));
395	933df08e	Thomas Schöpping	aosDbgPrintf("\t0x%08X", eventmask);
396			} else {
397			aosDbgPrintf("WFE skipped");
398	1d3e002f	Thomas Schöpping	eventmask = 0;
399	933df08e	Thomas Schöpping	}
400			aosSysGetUptime(&uptime);
401	1d3e002f	Thomas Schöpping	aosDbgPrintf("\t%04ums\n", (uint32_t)(uptime / MICROSECONDS_PER_MILLISECOND));
402	933df08e	Thomas Schöpping
403			/*
404			* execute some general tasks and high priority events
405			*/
406			// no event occurred at all
407			if ((flags.wfe) && (eventmask == 0)) {
408			aosDbgPrintf("ERR: no evt\n");
409			// enforce timeout event
410			chEvtBroadcast(&eventSourceTimeout);
411			continue;
412			}
413			// if an IO event occurred
414	9461fadc	Thomas Schöpping	if (eventmask & _eventListenerIO.events) {
415	933df08e	Thomas Schöpping	ioflags = chEvtGetAndClearFlags(&_eventListenerIO);
416			aosDbgPrintf("INFO: IO evt (0x%08X)\n", ioflags);
417			// a power-down event occurred
418			if (ioflags & MODULE_SSSP_EVENTFLAGS_PD) {
419			aosDbgPrintf("PD evt\n");
420			// deactivate S and UP
421	1d3e002f	Thomas Schöpping	aosDbgPrintf("disabling S\n");
422	933df08e	Thomas Schöpping	apalControlGpioSet(&moduleSsspGpioSync, APAL_GPIO_OFF);
423	9ebb11a9	Thomas Schöpping	#if (AMIROOS_CFG_SSSP_STACK_END != true)
424	1d3e002f	Thomas Schöpping	aosDbgPrintf("disabling UP\n");
425	933df08e	Thomas Schöpping	apalControlGpioSet(&moduleSsspGpioUp, APAL_GPIO_OFF);
426	9ebb11a9	Thomas Schöpping	#endif
427	933df08e	Thomas Schöpping	// set shutdown flag and exit the loop
428			shutdown = AOS_SHUTDOWN_PASSIVE;
429			break;
430			}
431			// the S signal was deactivated
432			if (ioflags & MODULE_SSSP_EVENTFLAGS_SYNC) {
433			apalControlGpioState_t sstate;
434			apalControlGpioGet(&moduleSsspGpioSync, &sstate);
435	1d3e002f	Thomas Schöpping	if (sstate == APAL_GPIO_ON) {
436			aosDbgPrintf("S evt (enabled)\n");
437			} else {
438			aosDbgPrintf("S evt (disabled)\n");
439	933df08e	Thomas Schöpping	// either finish or abort
440			if ((stage == STAGE_3_3_WAITFORID) && (aos.sssp.moduleId != 0)) {
441			stage = STAGE_3_4_FINISH;
442			} else if (stage != STAGE_3_4_ABORT) {
443			stage = STAGE_3_4_ABORT_ACTIVE;
444			}
445			}
446			}
447			}
448			// an OS event occurred
449	9461fadc	Thomas Schöpping	if (eventmask & _eventListenerOS.events) {
450	933df08e	Thomas Schöpping	aosDbgPrintf("WARN: OS evt\n");
451			// get the flags
452			eventflags_t oseventflags = chEvtGetAndClearFlags(&_eventListenerOS);
453			// there should be no OS events at this point
454			#ifdef MODULE_SSSP_STARTUP_3_OSEVENT_HOOK
455			MODULE_SSSP_STARTUP_3_OSEVENT_HOOK(eventmask, eventflags);
456			#else
457			_unexpectedEventError(eventmask, oseventflags);
458			#endif
459			}
460			// if a CAN event occurred
461	9461fadc	Thomas Schöpping	if ((eventmask & eventListenerCan.events)) {
462	1d3e002f	Thomas Schöpping	aosDbgPrintf("CAN evt\n");
463	933df08e	Thomas Schöpping	// fetch message
464			if (flags.wfe) {
465			canReceiveTimeout(&MODULE_HAL_CAN, CAN_ANY_MAILBOX, &canRxFrame, TIME_IMMEDIATE);
466			aosDbgPrintf("CAN <- 0x%03X\n", canRxFrame.SID);
467			}
468			// identify and handle abort messgaes
469			if (canRxFrame.SID == SSSP_STACKINIT_CANMSGID_ABORT) {
470			stage = STAGE_3_4_ABORT;
471			}
472			// warn if a unexpected message was received
473			else if ((canRxFrame.SID != SSSP_STACKINIT_CANMSGID_INIT) &&
474			(canRxFrame.SID != SSSP_STACKINIT_CANMSGID_MODULEID)) {
475			aosDbgPrintf("WARN: unknown msg\n");
476			}
477			// any further pending messages are fetched at the end of the loop
478			}
479			// if a timeout event occurred
480	9461fadc	Thomas Schöpping	if (eventmask & eventListenerTimeout.events) {
481	1d3e002f	Thomas Schöpping	aosDbgPrintf("timeout evt\n");
482	933df08e	Thomas Schöpping	// is handled at the end of the loop (or must be cleared by FSM)
483			}
484			// if a delay event occurred
485	9461fadc	Thomas Schöpping	if (eventmask & eventListenerDelay.events) {
486	1d3e002f	Thomas Schöpping	aosDbgPrintf("delay evt\n");
487	933df08e	Thomas Schöpping	// is handled by FSM
488			}
489
490			/*
491			* this is the actual FSM
492			*/
493			switch (stage) {
494			case STAGE_3_1:
495			{
496			aos.sssp.stage = AOS_SSSP_STARTUP_3_1;
497
498			// there was no event at all (skipped wfe)
499			if (eventmask == 0 && flags.wfe == false) {
500			#if (AMIROOS_CFG_SSSP_MASTER == true)
501			// initialize the stage by transmitting an according CAN message
502			aosDbgPrintf("CAN -> init\n");
503			canTxFrame.DLC = 0;
504			canTxFrame.SID = SSSP_STACKINIT_CANMSGID_INIT;
505			if (canTransmitTimeout(&MODULE_HAL_CAN, CAN_ANY_MAILBOX, &canTxFrame, TIME_IMMEDIATE) != MSG_OK) {
506			chEvtBroadcast(&eventSourceTimeout);
507			break;
508			}
509			// activate S
510	1d3e002f	Thomas Schöpping	aosDbgPrintf("enabling S\n");
511	933df08e	Thomas Schöpping	apalControlGpioSet(&moduleSsspGpioSync, APAL_GPIO_ON);
512			#if (AMIROOS_CFG_SSSP_STACK_START == true)
513			// proceed immediately
514			stage = STAGE_3_2;
515			flags.wfe_next = false;
516			#else
517			// set the timeout timer
518	1e5f7648	Thomas Schöpping	chVTSet(&timerTimeout, chTimeUS2I(AOS_SYSTEM_SSSP_TIMEOUT), _ssspTimerCallback, &eventSourceTimeout);
519	933df08e	Thomas Schöpping	// proceed
520			stage = STAGE_3_3_WAITFORFIRSTID;
521			#endif
522			#else
523			// set the timeout timer
524	1e5f7648	Thomas Schöpping	chVTSet(&timerTimeout, chTimeUS2I(AOS_SYSTEM_SSSP_TIMEOUT), _ssspTimerCallback, &eventSourceTimeout);
525	933df08e	Thomas Schöpping	#endif
526			}
527
528			#if (AMIROOS_CFG_SSSP_MASTER != true)
529			// a CAN message was received
530	9461fadc	Thomas Schöpping	else if (eventmask & eventListenerCan.events) {
531	933df08e	Thomas Schöpping	// if an initiation message was received
532			if (canRxFrame.DLC == 0 &&
533			canRxFrame.RTR == CAN_RTR_DATA &&
534			canRxFrame.IDE == CAN_IDE_STD &&
535			canRxFrame.SID == SSSP_STACKINIT_CANMSGID_INIT) {
536			aosDbgPrintf("init msg\n");
537			// reset the timeout timer and clear pending flags
538			chVTReset(&timerTimeout);
539	9461fadc	Thomas Schöpping	chEvtWaitAnyTimeout(eventListenerTimeout.events, TIME_IMMEDIATE);
540			eventmask &= ~(eventListenerTimeout.events);
541	933df08e	Thomas Schöpping	// activate S
542	1d3e002f	Thomas Schöpping	aosDbgPrintf("enabling S\n");
543	933df08e	Thomas Schöpping	apalControlGpioSet(&moduleSsspGpioSync, APAL_GPIO_ON);
544			#if (AMIROOS_CFG_SSSP_STACK_START == true)
545			// proceed
546			stage = STAGE_3_2;
547			flags.wfe_next = false;
548			#else
549			// set the timeout timer
550	1e5f7648	Thomas Schöpping	chVTSet(&timerTimeout, chTimeUS2I(AOS_SYSTEM_SSSP_TIMEOUT), _ssspTimerCallback, &eventSourceTimeout);
551	933df08e	Thomas Schöpping	// proceed
552			stage = STAGE_3_3_WAITFORFIRSTID;
553			#endif
554			}
555			}
556			#endif
557
558			break;
559			} /* end of STAGE_3_1 */
560
561			case STAGE_3_2:
562			{
563			#if (AMIROOS_CFG_SSSP_STACK_START == true)
564			aos.sssp.stage = AOS_SSSP_STARTUP_3_2;
565
566			// if this stage was just entered
567			if (flags.wfe == false) {
568			// set the module ID
569			aos.sssp.moduleId = 1;
570			// broadcast module ID
571			aosDbgPrintf("CAN -> ID (%u)\n", aos.sssp.moduleId);
572			canTxFrame.DLC = 4;
573			canTxFrame.SID = SSSP_STACKINIT_CANMSGID_MODULEID;
574	9461fadc	Thomas Schöpping	_serialize(canTxFrame.data8, aos.sssp.moduleId, 4);
575	933df08e	Thomas Schöpping	if (canTransmitTimeout(&MODULE_HAL_CAN, CAN_ANY_MAILBOX, &canTxFrame, TIME_IMMEDIATE) != MSG_OK) {
576			chEvtBroadcast(&eventSourceTimeout);
577			break;
578			}
579			#if (AMIROOS_CFG_SSSP_STACK_START != true) \|\| (AMIROOS_CFG_DBG == true)
580			lastid = aos.sssp.moduleId;
581			#endif
582			#if (AMIROOS_CFG_SSSP_STACK_END == true)
583			// sequence is already over
584			// deactivate S
585	1d3e002f	Thomas Schöpping	aosDbgPrintf("disabling S\n");
586	933df08e	Thomas Schöpping	apalControlGpioSet(&moduleSsspGpioSync, APAL_GPIO_OFF);
587			// proceed
588			stage = STAGE_3_3_WAITFORID;
589			#else
590			// set the delay timer so the UP signal is activated later
591	1e5f7648	Thomas Schöpping	chVTSet(&timerDelay, chTimeUS2I(AMIROOS_CFG_SSSP_SIGNALDELAY), _ssspTimerCallback, &eventSourceDelay);
592	933df08e	Thomas Schöpping	#endif
593			}
594
595			// if a delay event occurred
596	9461fadc	Thomas Schöpping	if (eventmask & eventListenerDelay.events) {
597	933df08e	Thomas Schöpping	// activate UP
598	1d3e002f	Thomas Schöpping	aosDbgPrintf("enabling UP\n");
599	933df08e	Thomas Schöpping	apalControlGpioSet(&moduleSsspGpioUp, APAL_GPIO_ON);
600			// deactivate S
601	1d3e002f	Thomas Schöpping	aosDbgPrintf("disabling S\n");
602	933df08e	Thomas Schöpping	apalControlGpioSet(&moduleSsspGpioSync, APAL_GPIO_OFF);
603			// explicitely clear timeout event flag
604	9461fadc	Thomas Schöpping	chEvtWaitAnyTimeout(eventListenerTimeout.events, TIME_IMMEDIATE);
605			eventmask &= ~(eventListenerTimeout.events);
606	933df08e	Thomas Schöpping	// proceed
607			stage = STAGE_3_3_WAITFORID;
608			}
609			#endif
610
611			break;
612			} /* end of STAGE_3_2 */
613
614			case STAGE_3_3_WAITFORFIRSTID:
615			{
616			#if (AMIROOS_CFG_SSSP_STACK_START != true)
617			aos.sssp.stage = AOS_SSSP_STARTUP_3_3;
618
619			// a CAN message was received
620	9461fadc	Thomas Schöpping	if (eventmask & eventListenerCan.events) {
621	933df08e	Thomas Schöpping	// if an ID message was received
622			if (canRxFrame.DLC == 4 &&
623			canRxFrame.RTR == CAN_RTR_DATA &&
624			canRxFrame.IDE == CAN_IDE_STD &&
625			canRxFrame.SID == SSSP_STACKINIT_CANMSGID_MODULEID) {
626	9461fadc	Thomas Schöpping	aosDbgPrintf("ID (%u)\n", (uint32_t)_deserialize(canRxFrame.data8, 4));
627	933df08e	Thomas Schöpping	// validate received ID
628	9461fadc	Thomas Schöpping	if (lastid < _deserialize(canRxFrame.data8, 4)) {
629	933df08e	Thomas Schöpping	// store received ID
630	9461fadc	Thomas Schöpping	lastid = _deserialize(canRxFrame.data8, 4);
631	933df08e	Thomas Schöpping	// restart timeout timer
632	1e5f7648	Thomas Schöpping	chVTSet(&timerTimeout, chTimeUS2I(AOS_SYSTEM_SSSP_TIMEOUT), _ssspTimerCallback, &eventSourceTimeout);
633	933df08e	Thomas Schöpping	// proceed
634			stage = STAGE_3_3_WAITFORIDORSIG;
635			} else {
636			aosDbgPrintf("ERR: invalid ID\n");
637			// abort
638			stage = STAGE_3_4_ABORT_ACTIVE;
639			flags.wfe_next = false;
640			}
641			// explicitely clear timeout event flag
642	9461fadc	Thomas Schöpping	chEvtWaitAnyTimeout(eventListenerTimeout.events, TIME_IMMEDIATE);
643			eventmask &= ~(eventListenerTimeout.events);
644	933df08e	Thomas Schöpping	}
645			}
646			#endif
647			break;
648			} /* end of STAGE_3_3_WAITFORFIRSTID */
649
650			case STAGE_3_3_WAITFORIDORSIG:
651			{
652			#if (AMIROOS_CFG_SSSP_STACK_START != true)
653			aos.sssp.stage = AOS_SSSP_STARTUP_3_3;
654
655			// a CAN message was received
656	9461fadc	Thomas Schöpping	if (eventmask & eventListenerCan.events) {
657	933df08e	Thomas Schöpping	// if an ID message was received
658			if (canRxFrame.DLC == 4 &&
659			canRxFrame.RTR == CAN_RTR_DATA &&
660			canRxFrame.IDE == CAN_IDE_STD &&
661			canRxFrame.SID == SSSP_STACKINIT_CANMSGID_MODULEID) {
662	9461fadc	Thomas Schöpping	aosDbgPrintf("ID (%u)\n", (uint32_t)_deserialize(canRxFrame.data8, 4));
663	933df08e	Thomas Schöpping	// validate received ID
664	9461fadc	Thomas Schöpping	if (lastid < _deserialize(canRxFrame.data8, 4)) {
665	933df08e	Thomas Schöpping	// store received ID
666	9461fadc	Thomas Schöpping	lastid = _deserialize(canRxFrame.data8, 4);
667	933df08e	Thomas Schöpping	// restart timeout timer
668	1e5f7648	Thomas Schöpping	chVTSet(&timerTimeout, chTimeUS2I(AOS_SYSTEM_SSSP_TIMEOUT), _ssspTimerCallback, &eventSourceTimeout);
669	933df08e	Thomas Schöpping	} else {
670			aosDbgPrintf("ERR: invalid ID\n");
671			// abort
672			stage = STAGE_3_4_ABORT_ACTIVE;
673			flags.wfe_next = false;
674			}
675			// explicitely clear timeout event flag
676	9461fadc	Thomas Schöpping	chEvtWaitAnyTimeout(eventListenerTimeout.events, TIME_IMMEDIATE);
677			eventmask &= ~(eventListenerTimeout.events);
678	933df08e	Thomas Schöpping	}
679			}
680
681			// if an IO event was received (DN signal)
682	9461fadc	Thomas Schöpping	if ((eventmask & _eventListenerIO.events) && (ioflags & MODULE_SSSP_EVENTFLAGS_DN)) {
683	1d3e002f	Thomas Schöpping	aosDbgPrintf("DN evt\n");
684	933df08e	Thomas Schöpping	// reset timeout timer
685			chVTReset(&timerTimeout);
686	9461fadc	Thomas Schöpping	chEvtWaitAnyTimeout(eventListenerTimeout.events, TIME_IMMEDIATE);
687			eventmask &= ~(eventListenerTimeout.events);
688	933df08e	Thomas Schöpping	// increment and broadcast ID
689			aos.sssp.moduleId = lastid + 1;
690			aosDbgPrintf("CAN -> ID (%u)\n", aos.sssp.moduleId);
691			canTxFrame.DLC = 4;
692			canTxFrame.SID = SSSP_STACKINIT_CANMSGID_MODULEID;
693	9461fadc	Thomas Schöpping	_serialize(canTxFrame.data8, aos.sssp.moduleId, 4);
694	933df08e	Thomas Schöpping	if (canTransmitTimeout(&MODULE_HAL_CAN, CAN_ANY_MAILBOX, &canTxFrame, TIME_IMMEDIATE) != MSG_OK) {
695			chEvtBroadcast(&eventSourceTimeout);
696			break;
697			}
698			// set delay timer
699	1e5f7648	Thomas Schöpping	chVTSet(&timerDelay, chTimeUS2I(AMIROOS_CFG_SSSP_SIGNALDELAY), _ssspTimerCallback, &eventSourceDelay);
700	933df08e	Thomas Schöpping	}
701
702			// if a delay event occurred
703	9461fadc	Thomas Schöpping	if (eventmask & eventListenerDelay.events) {
704	933df08e	Thomas Schöpping	#if (AMIROOS_CFG_SSSP_STACK_END != true)
705			// activate UP
706	1d3e002f	Thomas Schöpping	aosDbgPrintf("enabling UP\n");
707	933df08e	Thomas Schöpping	apalControlGpioSet(&moduleSsspGpioUp, APAL_GPIO_ON);
708			#endif
709			// deactivate S
710	1d3e002f	Thomas Schöpping	aosDbgPrintf("disabling S\n");
711	933df08e	Thomas Schöpping	apalControlGpioSet(&moduleSsspGpioSync, APAL_GPIO_OFF);
712			// reset the timeout timer
713	1e5f7648	Thomas Schöpping	chVTSet(&timerTimeout, chTimeUS2I(AOS_SYSTEM_SSSP_TIMEOUT), _ssspTimerCallback, &eventSourceTimeout);
714	9461fadc	Thomas Schöpping	chEvtWaitAnyTimeout(eventListenerTimeout.events, TIME_IMMEDIATE);
715			eventmask &= ~(eventListenerTimeout.events);
716	933df08e	Thomas Schöpping	// proceed
717			stage = STAGE_3_3_WAITFORID;
718			}
719			#endif
720
721			break;
722			} /* end of STAGE_3_3_WAITFORIDORSIG */
723
724			case STAGE_3_3_WAITFORID:
725			{
726			aos.sssp.stage = AOS_SSSP_STARTUP_3_3;
727
728			#if (AMIROOS_CFG_SSSP_STACK_END != true)
729			// a CAN message was received
730	9461fadc	Thomas Schöpping	if (eventmask & eventListenerCan.events) {
731	933df08e	Thomas Schöpping	// if an ID message was received
732			if (canRxFrame.DLC == 4 &&
733			canRxFrame.RTR == CAN_RTR_DATA &&
734			canRxFrame.IDE == CAN_IDE_STD &&
735			canRxFrame.SID == SSSP_STACKINIT_CANMSGID_MODULEID) {
736			#if (AMIROOS_CFG_SSSP_STACK_START != true) \|\| (AMIROOS_CFG_DBG == true)
737			// Plausibility of the received ID is not checked at this point but is done by other modules still in a previous stage.
738	9461fadc	Thomas Schöpping	lastid = _deserialize(canRxFrame.data8, 4);
739	933df08e	Thomas Schöpping	aosDbgPrintf("ID (%u)\n", lastid);
740			#endif
741			// restart timeout timer
742	1e5f7648	Thomas Schöpping	chVTSet(&timerTimeout, chTimeUS2I(AOS_SYSTEM_SSSP_TIMEOUT), _ssspTimerCallback, &eventSourceTimeout);
743	9461fadc	Thomas Schöpping	chEvtWaitAnyTimeout(eventListenerTimeout.events, TIME_IMMEDIATE);
744			eventmask &= ~(eventListenerTimeout.events);
745	933df08e	Thomas Schöpping	}
746			}
747			#endif
748
749			break;
750			} /* end of STAGE_3_3_WAITFORID */
751
752			case STAGE_3_4_FINISH:
753			{
754			aos.sssp.stage = AOS_SSSP_STARTUP_3_4;
755
756			// if an IO event was received (S signal)
757	9461fadc	Thomas Schöpping	if ((eventmask & _eventListenerIO.events) && (ioflags & MODULE_SSSP_EVENTFLAGS_SYNC)) {
758	933df08e	Thomas Schöpping	// reset the timeout timer
759			chVTReset(&timerTimeout);
760	9461fadc	Thomas Schöpping	chEvtWaitAnyTimeout(eventListenerTimeout.events, TIME_IMMEDIATE);
761			eventmask &= ~(eventListenerTimeout.events);
762	933df08e	Thomas Schöpping	//set the delay timer
763	1e5f7648	Thomas Schöpping	chVTSet(&timerDelay, chTimeUS2I(AOS_SYSTEM_SSSP_TIMEOUT), _ssspTimerCallback, &eventSourceDelay);
764	933df08e	Thomas Schöpping	}
765
766			// if a CAN event was received
767	9461fadc	Thomas Schöpping	if (eventmask & eventListenerCan.events) {
768	933df08e	Thomas Schöpping	// if an abort message was received
769			if (canRxFrame.SID == SSSP_STACKINIT_CANMSGID_ABORT) {
770			aosDbgPrintf("abort msg\n");
771			// reset the delay timer
772			chVTReset(&timerDelay);
773	9461fadc	Thomas Schöpping	chEvtWaitAnyTimeout(eventListenerDelay.events, TIME_IMMEDIATE);
774			eventmask &= ~(eventListenerDelay.events);
775	933df08e	Thomas Schöpping	// proceed
776			stage = STAGE_3_4_ABORT;
777			}
778			}
779
780			// if a delay timer event occurred
781	9461fadc	Thomas Schöpping	if (eventmask & eventListenerDelay.events) {
782	933df08e	Thomas Schöpping	aosDbgPrintf("sequence sucessful\n");
783			// sequence finished sucessfully
784			flags.loop = false;
785			}
786
787			break;
788			} /* end of STAGE_3_4_FINISH */
789
790			case STAGE_3_4_ABORT_ACTIVE:
791			{
792			aos.sssp.stage = AOS_SSSP_STARTUP_3_4;
793
794			// emit abort message
795			canTxFrame.DLC = 0;
796			canTxFrame.SID = SSSP_STACKINIT_CANMSGID_ABORT;
797			canTransmitTimeout(&MODULE_HAL_CAN, CAN_ANY_MAILBOX, &canTxFrame, TIME_INFINITE);
798			aosDbgPrintf("CAN -> abort\n");
799			// clear timeout flag
800	9461fadc	Thomas Schöpping	eventmask &= ~(eventListenerTimeout.events);
801	933df08e	Thomas Schöpping	// proceed immediately
802			stage = STAGE_3_4_ABORT;
803			flags.wfe_next = false;
804			break;
805			} /* end of STAGE_3_4_ABORT_ACTIVE */
806
807			case STAGE_3_4_ABORT:
808			{
809			aos.sssp.stage = AOS_SSSP_STARTUP_3_4;
810
811			// deactivate S
812	1d3e002f	Thomas Schöpping	aosDbgPrintf("disabling SYNC\n");
813	933df08e	Thomas Schöpping	apalControlGpioSet(&moduleSsspGpioSync, APAL_GPIO_OFF);
814			// invalidate module ID
815			aos.sssp.moduleId = 0;
816
817			// if an IO event was received (S signal)
818	9461fadc	Thomas Schöpping	if ((eventmask & _eventListenerIO.events) && (ioflags & MODULE_SSSP_EVENTFLAGS_SYNC)) {
819	933df08e	Thomas Schöpping	aosDbgPrintf("sequence aborted\n");
820			// exit the sequence
821			flags.loop = false;
822			}
823
824			break;
825			} /* end of STAGE_3_4_ABORT */
826	1d3e002f	Thomas Schöpping	} /* end of switch(stage) */
827	933df08e	Thomas Schöpping
828			// fetch pending CAN message (if any)
829	9461fadc	Thomas Schöpping	if ((eventmask & eventListenerCan.events) && (canReceiveTimeout(&MODULE_HAL_CAN, CAN_ANY_MAILBOX, &canRxFrame, TIME_IMMEDIATE) == MSG_OK)) {
830	933df08e	Thomas Schöpping	aosDbgPrintf("CAN <- 0x%03X\n", canRxFrame.SID);
831			flags.wfe_next = false;
832			}
833
834			// handle unhandled timeout events
835	9461fadc	Thomas Schöpping	if (eventmask & eventListenerTimeout.events) {
836	933df08e	Thomas Schöpping	aosDbgPrintf("ERR: timeout evt\n");
837			// abort
838			flags.wfe_next = false;
839			stage = STAGE_3_4_ABORT_ACTIVE;
840			}
841
842			// apply wfe value for next iteration
843			flags.wfe = flags.wfe_next;
844	1e5f7648	Thomas Schöpping	} /* end of FSM loop */
845	933df08e	Thomas Schöpping
846			// unregister all events (timeout, delay, CAN receive)
847			chEvtUnregister(&eventSourceTimeout, &eventListenerTimeout);
848			chEvtUnregister(&eventSourceDelay, &eventListenerDelay);
849			chEvtUnregister(&MODULE_HAL_CAN.rxfull_event, &eventListenerCan);
850			// clear any pending events (timeout, delay, CAN receive)
851			chEvtWaitAllTimeout(TIMEOUTEVENT_MASK \| DELAYEVENT_MASK \| CANEVENT_MASK, TIME_IMMEDIATE);
852
853			// reset all control signals
854			#if (AMIROOS_CFG_SSSP_STACK_END != true)
855	1d3e002f	Thomas Schöpping	aosDbgPrintf("disabling UP\n");
856	933df08e	Thomas Schöpping	apalControlGpioSet(&moduleSsspGpioUp, APAL_GPIO_OFF);
857			#endif
858	1d3e002f	Thomas Schöpping	aosDbgPrintf("disabling S\n");
859	933df08e	Thomas Schöpping	apalControlGpioSet(&moduleSsspGpioSync, APAL_GPIO_OFF);
860	1d3e002f	Thomas Schöpping	aosSysGetUptime(&uptime);
861			aosDbgPrintf("done\t%04ums\n", (uint32_t)(uptime / MICROSECONDS_PER_MILLISECOND));
862	933df08e	Thomas Schöpping
863			return shutdown;
864			}
865	9ebb11a9	Thomas Schöpping	#endif /* AMIROOS_CFG_SSSP_ENABLE == true */
866	933df08e	Thomas Schöpping
867			/**
868	e545e620	Thomas Schöpping	* @brief Application entry point.
869			*/
870			int main(void)
871			{
872			// local variables
873			eventmask_t eventmask = 0;
874			eventflags_t eventflags = 0;
875	e2377d9e	Thomas Schöpping	eventflags_t ioeventflagsmask = AMIROOS_CFG_MAIN_LOOP_IOEVENT_MASK;
876	e545e620	Thomas Schöpping	aos_shutdown_t shutdown = AOS_SHUTDOWN_NONE;
877	b6b45e4c	Thomas Schöpping	#if defined(AMIROOS_CFG_MAIN_EXTRA_THREAD_VARIABLES)
878			AMIROOS_CFG_MAIN_EXTRA_THREAD_VARIABLES
879	e545e620	Thomas Schöpping	#endif
880
881			/*
882			* ##########################################################################
883			* # system initialization #
884			* ##########################################################################
885			*/
886
887			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_0)
888	b6b45e4c	Thomas Schöpping	#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_0_ARGS)
889			AMIROOS_CFG_MAIN_INIT_HOOK_0(AMIROOS_CFG_MAIN_INIT_HOOK_0_ARGS);
890			#else
891	e545e620	Thomas Schöpping	AMIROOS_CFG_MAIN_INIT_HOOK_0();
892			#endif
893	b6b45e4c	Thomas Schöpping	#endif
894	e545e620	Thomas Schöpping
895			/* hardware, kernel, and operating system initialization */
896			// ChibiOS/HAL and custom hal additions (if any)
897			halInit();
898			#ifdef MODULE_INIT_HAL_EXTRA
899			MODULE_INIT_HAL_EXTRA();
900			#endif
901
902			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_1)
903			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_1_ARGS)
904			AMIROOS_CFG_MAIN_INIT_HOOK_1(AMIROOS_CFG_MAIN_INIT_HOOK_1_ARGS);
905			#else
906			AMIROOS_CFG_MAIN_INIT_HOOK_1();
907			#endif
908			#endif
909
910			// ChibiOS/RT kernel and custom kernel additions (if any)
911			chSysInit();
912			#ifdef MODULE_INIT_KERNEL_EXTRA
913			MODULE_INIT_KERNEL_EXTRA();
914			#endif
915
916			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_2)
917			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_2_ARGS)
918			AMIROOS_CFG_MAIN_INIT_HOOK_2(AMIROOS_CFG_MAIN_INIT_HOOK_2_ARGS);
919			#else
920			AMIROOS_CFG_MAIN_INIT_HOOK_2();
921			#endif
922			#endif
923
924			// AMiRo-OS and custom OS additions (if any)
925	6b53f6bf	Thomas Schöpping	#if (AMIROOS_CFG_SHELL_ENABLE == true)
926			aosSysInit(moduleShellPrompt);
927			#else
928			aosSysInit();
929			#endif
930	e545e620	Thomas Schöpping	#ifdef MODULE_INIT_OS_EXTRA
931			MODULE_INIT_OS_EXTRA();
932			#endif
933
934			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_3)
935			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_3_ARGS)
936			AMIROOS_CFG_MAIN_INIT_HOOK_3(AMIROOS_CFG_MAIN_INIT_HOOK_3_ARGS);
937			#else
938			AMIROOS_CFG_MAIN_INIT_HOOK_3();
939			#endif
940			#endif
941
942			#if (AMIROOS_CFG_TESTS_ENABLE == true)
943	9461fadc	Thomas Schöpping	#if defined(MODULE_INIT_TESTS)
944	e545e620	Thomas Schöpping	MODULE_INIT_TESTS();
945	9461fadc	Thomas Schöpping	#else
946	0963cf6c	Thomas Schöpping	#warning "MODULE_INIT_TESTS() not defined"
947	9461fadc	Thomas Schöpping	#endif
948	e545e620	Thomas Schöpping	#endif
949
950			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_4)
951			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_4_ARGS)
952			AMIROOS_CFG_MAIN_INIT_HOOK_4(AMIROOS_CFG_MAIN_INIT_HOOK_4_ARGS);
953			#else
954			AMIROOS_CFG_MAIN_INIT_HOOK_4();
955			#endif
956			#endif
957
958			/* event associations */
959	9ebb11a9	Thomas Schöpping	#if (AMIROOS_CFG_SSSP_ENABLE == true)
960	e2377d9e	Thomas Schöpping	ioeventflagsmask \|= MODULE_SSSP_EVENTFLAGS_PD \| MODULE_SSSP_EVENTFLAGS_SYNC;
961	2920c6b7	Thomas Schöpping	#if (AMIROOS_CFG_SSSP_STACK_START != true)
962	e2377d9e	Thomas Schöpping	ioeventflagsmask \|= MODULE_SSSP_EVENTFLAGS_DN;
963	2920c6b7	Thomas Schöpping	#endif
964			#if (AMIROOS_CFG_SSSP_STACK_END != true)
965	e2377d9e	Thomas Schöpping	ioeventflagsmask \|= MODULE_SSSP_EVENTFLAGS_UP;
966	1e5f7648	Thomas Schöpping	#endif
967	1d3e002f	Thomas Schöpping	#endif /* AMIROOS_CFG_SSSP_ENABLE == true */
968	e2377d9e	Thomas Schöpping	if (ioeventflagsmask != 0) {
969			chEvtRegisterMaskWithFlags(&aos.events.io, &_eventListenerIO, IOEVENT_MASK, ioeventflagsmask);
970	2920c6b7	Thomas Schöpping	}
971	6b53f6bf	Thomas Schöpping	chEvtRegisterMask(&aos.events.os, &_eventListenerOS, OSEVENT_MASK);
972	e545e620	Thomas Schöpping
973			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_5)
974			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_5_ARGS)
975			AMIROOS_CFG_MAIN_INIT_HOOK_5(AMIROOS_CFG_MAIN_INIT_HOOK_5_ARGS);
976			#else
977			AMIROOS_CFG_MAIN_INIT_HOOK_5();
978			#endif
979			#endif
980
981			/* periphery communication initialization */
982	90e99d44	Thomas Schöpping	#if (AMIROOS_CFG_SSSP_ENABLE == true)
983	e545e620	Thomas Schöpping	// CAN (mandatory)
984			canStart(&MODULE_HAL_CAN, &moduleHalCanConfig);
985	90e99d44	Thomas Schöpping	#endif
986	e545e620	Thomas Schöpping	// module specific initialization (if any)
987			#ifdef MODULE_INIT_PERIPHERY_COMM
988			MODULE_INIT_PERIPHERY_COMM();
989			#endif
990			// user interface (if any)
991			#ifdef MODULE_HAL_PROGIF
992	ba516b61	Thomas Schöpping	aosIOChannelInit(&_stdiochannel, (BaseAsynchronousChannel*)&MODULE_HAL_PROGIF);
993			aosIOChannelOutputEnable(&_stdiochannel);
994			aosIOStreamAddChannel(&aos.iostream, &_stdiochannel);
995			#if (AMIROOS_CFG_SHELL_ENABLE == true)
996	dd8738ea	Thomas Schöpping	aosShellChannelInit(&_stdshellchannel, (BaseAsynchronousChannel*)&MODULE_HAL_PROGIF);
997	ba516b61	Thomas Schöpping	aosShellChannelInputEnable(&_stdshellchannel);
998			aosShellChannelOutputEnable(&_stdshellchannel);
999	6b53f6bf	Thomas Schöpping	aosShellStreamAddChannel(&aos.shell.stream, &_stdshellchannel);
1000	ba516b61	Thomas Schöpping	#endif
1001	e545e620	Thomas Schöpping	#endif
1002
1003			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_6)
1004			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_6_ARGS)
1005			AMIROOS_CFG_MAIN_INIT_HOOK_6(AMIROOS_CFG_MAIN_INIT_HOOK_6_ARGS);
1006			#else
1007			AMIROOS_CFG_MAIN_INIT_HOOK_6();
1008			#endif
1009			#endif
1010
1011			/* module is ready -> print welcome prompt */
1012			aosprintf("\n");
1013			aosprintf("######################################################################\n");
1014			aosprintf("# AMiRo-OS is an operating system designed for the Autonomous Mini #\n");
1015			aosprintf("# Robot (AMiRo) platform. #\n");
1016	84f0ce9e	Thomas Schöpping	aosprintf("# Copyright (C) 2016..2019 Thomas Schöpping et al. #\n");
1017	e545e620	Thomas Schöpping	aosprintf("# #\n");
1018			aosprintf("# This is free software; see the source for copying conditions. #\n");
1019			aosprintf("# There is NO warranty; not even for MERCHANTABILITY or FITNESS FOR #\n");
1020			aosprintf("# A PARTICULAR PURPOSE. #\n");
1021			aosprintf("# The development of this software was supported by the Excellence #\n");
1022			aosprintf("# Cluster EXC 227 Cognitive Interaction Technology. The Excellence #\n");
1023			aosprintf("# Cluster EXC 227 is a grant of the Deutsche Forschungsgemeinschaft #\n");
1024			aosprintf("# (DFG) in the context of the German Excellence Initiative. #\n");
1025			aosprintf("######################################################################\n");
1026			aosprintf("\n");
1027
1028			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_7)
1029			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_7_ARGS)
1030			AMIROOS_CFG_MAIN_INIT_HOOK_7(AMIROOS_CFG_MAIN_INIT_HOOK_7_ARGS);
1031			#else
1032			AMIROOS_CFG_MAIN_INIT_HOOK_7();
1033			#endif
1034			#endif
1035
1036	9ebb11a9	Thomas Schöpping	#if (AMIROOS_CFG_SSSP_ENABLE == true)
1037	6b53f6bf	Thomas Schöpping	/* SSSP startup OS synchronization phase (end of startup stage 2) */
1038	9461fadc	Thomas Schöpping	while ((shutdown == AOS_SHUTDOWN_NONE) && (eventmask = aosSysSsspStartupOsInitSyncCheck(&_eventListenerIO)) != 0) {
1039	e545e620	Thomas Schöpping	/*
1040			* This code is executed if the received event was not about the SYS_SYNC control signal.
1041			* The returned event could be caused by any listener (not only the argument).
1042			*/
1043	9461fadc	Thomas Schöpping	// IO event
1044	e545e620	Thomas Schöpping	if (eventmask & _eventListenerIO.events) {
1045			eventflags = chEvtGetAndClearFlags(&_eventListenerIO);
1046	9461fadc	Thomas Schöpping	// PD event
1047			if (eventflags & MODULE_SSSP_EVENTFLAGS_PD) {
1048			shutdown = AOS_SHUTDOWN_PASSIVE;
1049			} else {
1050	933df08e	Thomas Schöpping	#ifdef MODULE_SSSP_STARTUP_2_2_IOEVENT_HOOK
1051	9461fadc	Thomas Schöpping	MODULE_SSSP_STARTUP_2_2_IOEVENT_HOOK(eventmask, eventflags);
1052	e545e620	Thomas Schöpping	#else
1053	9461fadc	Thomas Schöpping	// ignore any other IO events
1054	e545e620	Thomas Schöpping	#endif
1055	9461fadc	Thomas Schöpping	}
1056	e545e620	Thomas Schöpping	}
1057	9461fadc	Thomas Schöpping	// OS event
1058	e545e620	Thomas Schöpping	else if (eventmask & _eventListenerOS.events) {
1059			eventflags = chEvtGetAndClearFlags(&_eventListenerOS);
1060			_unexpectedEventError(eventmask, eventflags);
1061			}
1062	9461fadc	Thomas Schöpping	// unknown event
1063	e545e620	Thomas Schöpping	else {
1064	933df08e	Thomas Schöpping	_unexpectedEventError(eventmask, 0);
1065	e545e620	Thomas Schöpping	}
1066			}
1067
1068	933df08e	Thomas Schöpping	/*
1069			* There must be no delays at this point, thus no hook is allowed.
1070			*/
1071
1072			/* SSSP startup stage 3 (module stack initialization) */
1073	9461fadc	Thomas Schöpping	if (shutdown == AOS_SHUTDOWN_NONE) {
1074			shutdown = _ssspModuleStackInitialization();
1075			}
1076	9ebb11a9	Thomas Schöpping	#endif /* AMIROOS_CFG_SSSP_ENABLE == true */
1077	9461fadc	Thomas Schöpping
1078			/*
1079			* There must be no delays at this point, thus no hook is allowed.
1080			*/
1081
1082	9ebb11a9	Thomas Schöpping	#if (AMIROOS_CFG_SSSP_ENABLE == true)
1083			/* synchronize calendars */
1084	9461fadc	Thomas Schöpping	if (shutdown == AOS_SHUTDOWN_NONE) {
1085			#if (AMIROOS_CFG_SSSP_MASTER == true)
1086			CANTxFrame frame;
1087			struct tm t;
1088			uint64_t encoded;
1089
1090			frame.DLC = 8;
1091			frame.RTR = CAN_RTR_DATA;
1092			frame.IDE = CAN_IDE_STD;
1093			frame.SID = CALENDERSYNC_CANMSGID;
1094
1095			aosDbgPrintf("transmitting current date/time...\t");
1096			// get current date & time
1097			aosSysGetDateTime(&t);
1098			// encode
1099			encoded = _TM2U64(&t);
1100			// serialize
1101			_serialize(frame.data8, encoded, 8);
1102			// transmit
1103			canTransmitTimeout(&MODULE_HAL_CAN, CAN_ANY_MAILBOX, &frame, TIME_IMMEDIATE);
1104
1105			aosDbgPrintf("done\n");
1106	9ebb11a9	Thomas Schöpping	#else /* AMIROOS_CFG_SSSP_MASTER == false */
1107	9461fadc	Thomas Schöpping	CANRxFrame frame;
1108			uint64_t encoded;
1109			struct tm t;
1110
1111			aosDbgPrintf("receiving current date/time...\t");
1112			// receive message
1113	0278542c	Thomas Schöpping	#if (AMIROOS_CFG_DBG == true)
1114			// increase timeout in debug mode due to additional delays introduced by the many prinf() calls
1115			if (canReceiveTimeout(&MODULE_HAL_CAN, CAN_ANY_MAILBOX, &frame, chTimeUS2I(10 * AOS_SYSTEM_SSSP_TIMEOUT)) == MSG_OK) {
1116			#else
1117	1e5f7648	Thomas Schöpping	if (canReceiveTimeout(&MODULE_HAL_CAN, CAN_ANY_MAILBOX, &frame, chTimeUS2I(AOS_SYSTEM_SSSP_TIMEOUT)) == MSG_OK) {
1118	0278542c	Thomas Schöpping	#endif
1119	9461fadc	Thomas Schöpping	// validate message
1120			if (frame.DLC == 8 &&
1121			frame.RTR == CAN_RTR_DATA &&
1122			frame.IDE == CAN_IDE_STD &&
1123			frame.SID == CALENDERSYNC_CANMSGID) {
1124			// deserialize
1125			encoded = _deserialize(frame.data8, 8);
1126			// decode
1127			_U642TM(&t, encoded);
1128			// set current date & time
1129			aosSysSetDateTime(&t);
1130			aosDbgPrintf("success\n");
1131			} else {
1132			aosDbgPrintf("fail (invalid message)\n");
1133			}
1134			} else {
1135			aosDbgPrintf("fail (timeout)\n");
1136			}
1137	9ebb11a9	Thomas Schöpping	#endif /* AMIROOS_CFG_SSSP_MASTER == false */
1138	9461fadc	Thomas Schöpping	aosDbgPrintf("\n");
1139			}
1140	9ebb11a9	Thomas Schöpping	#endif /* AMIROOS_CFG_SSSP_ENABLE == true */
1141	933df08e	Thomas Schöpping
1142	e545e620	Thomas Schöpping	#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_8)
1143			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_8_ARGS)
1144			AMIROOS_CFG_MAIN_INIT_HOOK_8(AMIROOS_CFG_MAIN_INIT_HOOK_8_ARGS);
1145			#else
1146			AMIROOS_CFG_MAIN_INIT_HOOK_8();
1147			#endif
1148			#endif
1149
1150			/* completely start AMiRo-OS */
1151	933df08e	Thomas Schöpping	if (shutdown == AOS_SHUTDOWN_NONE) {
1152			aosSysStart();
1153			}
1154	e545e620	Thomas Schöpping
1155			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_9)
1156			#if defined(AMIROOS_CFG_MAIN_INIT_HOOK_9_ARGS)
1157			AMIROOS_CFG_MAIN_INIT_HOOK_9(AMIROOS_CFG_MAIN_INIT_HOOK_9_ARGS);
1158			#else
1159			AMIROOS_CFG_MAIN_INIT_HOOK_9();
1160			#endif
1161			#endif
1162
1163			/*
1164			* ##########################################################################
1165			* # infinite loop #
1166			* ##########################################################################
1167			*/
1168
1169			// sleep until a shutdown event is received
1170			while (shutdown == AOS_SHUTDOWN_NONE) {
1171			// wait for an event
1172			#if (AMIROOS_CFG_MAIN_LOOP_TIMEOUT != 0)
1173	1e5f7648	Thomas Schöpping	eventmask = chEvtWaitOneTimeout(ALL_EVENTS, chTimeUS2I(AMIROOS_CFG_MAIN_LOOP_TIMEOUT));
1174	e545e620	Thomas Schöpping	#else
1175			eventmask = chEvtWaitOne(ALL_EVENTS);
1176			#endif
1177
1178			#if defined(AMIROOS_CFG_MAIN_LOOP_HOOK_0)
1179			#if defined(AMIROOS_CFG_MAIN_LOOP_HOOK_0_ARGS)
1180			AMIROOS_CFG_MAIN_LOOP_HOOK_0(AMIROOS_CFG_MAIN_LOOP_HOOK_0_ARGS);
1181			#else
1182			AMIROOS_CFG_MAIN_LOOP_HOOK_0();
1183			#endif
1184			#endif
1185
1186			switch (eventmask) {
1187			// if this was an I/O event
1188	6b53f6bf	Thomas Schöpping	case IOEVENT_MASK:
1189	e545e620	Thomas Schöpping	// evaluate flags
1190			eventflags = chEvtGetAndClearFlags(&_eventListenerIO);
1191	9ebb11a9	Thomas Schöpping	#if (AMIROOS_CFG_SSSP_ENABLE == true)
1192	e545e620	Thomas Schöpping	// PD event
1193	6b53f6bf	Thomas Schöpping	if (eventflags & MODULE_SSSP_EVENTFLAGS_PD) {
1194	e545e620	Thomas Schöpping	shutdown = AOS_SHUTDOWN_PASSIVE;
1195			}
1196			// all other events
1197			#ifdef MODULE_MAIN_LOOP_IO_EVENT
1198			else {
1199	0963cf6c	Thomas Schöpping	MODULE_MAIN_LOOP_IO_EVENT(eventflags);
1200	e545e620	Thomas Schöpping	}
1201			#endif
1202	41fc7088	Thomas Schöpping	#else /* AMIROOS_CFG_SSSP_ENABLE == false */
1203			#ifdef MODULE_MAIN_LOOP_IO_EVENT
1204	0963cf6c	Thomas Schöpping	MODULE_MAIN_LOOP_IO_EVENT(eventflags);
1205	41fc7088	Thomas Schöpping	#endif
1206			#endif /* AMIROOS_CFG_SSSP_ENABLE */
1207	e545e620	Thomas Schöpping	break;
1208
1209			// if this was an OS event
1210	6b53f6bf	Thomas Schöpping	case OSEVENT_MASK:
1211	e545e620	Thomas Schöpping	// evaluate flags
1212			eventflags = chEvtGetAndClearFlags(&_eventListenerOS);
1213			switch (eventflags) {
1214	1d3e002f	Thomas Schöpping	#if (AMIROOS_CFG_SSSP_ENABLE == true)
1215	e545e620	Thomas Schöpping	case AOS_SYSTEM_EVENTFLAGS_HIBERNATE:
1216			shutdown = AOS_SHUTDOWN_HIBERNATE;
1217			break;
1218			case AOS_SYSTEM_EVENTFLAGS_DEEPSLEEP:
1219			shutdown = AOS_SHUTDOWN_DEEPSLEEP;
1220			break;
1221			case AOS_SYSTEM_EVENTFLAGS_TRANSPORTATION:
1222			shutdown = AOS_SHUTDOWN_TRANSPORTATION;
1223			break;
1224			case AOS_SYSTEM_EVENTFLAGS_RESTART:
1225			shutdown = AOS_SHUTDOWN_RESTART;
1226			break;
1227	1d3e002f	Thomas Schöpping	#else /* AMIROOS_CFG_SSSP_ENABLE == false */
1228			case AOS_SYSTEM_EVENTFLAGS_SHUTDOWN:
1229			shutdown = AOS_SHUTDOWN_DEFAULT;
1230			break;
1231			#endif /* AMIROOS_CFG_SSSP_ENABLE */
1232	e545e620	Thomas Schöpping	default:
1233			_unexpectedEventError(eventmask, eventflags);
1234			break;
1235			}
1236			break;
1237
1238			// if this was any other event (should be impossible to occur)
1239			default:
1240			eventflags = 0;
1241	41fc7088	Thomas Schöpping	#if (AMIROOS_CFG_MAIN_LOOP_TIMEOUT == 0)
1242	e545e620	Thomas Schöpping	_unexpectedEventError(eventmask, eventflags);
1243	41fc7088	Thomas Schöpping	#endif
1244	e545e620	Thomas Schöpping	break;
1245			}
1246
1247			#if defined(AMIROOS_CFG_MAIN_LOOP_HOOK_1)
1248			#if defined(AMIROOS_CFG_MAIN_LOOP_HOOK_1_ARGS)
1249			AMIROOS_CFG_MAIN_LOOP_HOOK_1(AMIROOS_CFG_MAIN_LOOP_HOOK_1_ARGS);
1250			#else
1251			AMIROOS_CFG_MAIN_LOOP_HOOK_1();
1252			#endif
1253			#endif
1254			}
1255
1256			/*
1257			* ##########################################################################
1258			* # system shutdown #
1259			* ##########################################################################
1260			*/
1261
1262			#if defined(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_0)
1263			#if defined(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_0_ARGS)
1264			AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_0(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_0_ARGS);
1265			#else
1266			AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_0();
1267			#endif
1268			#endif
1269
1270			// initialize/acknowledge shutdown
1271			aosSysShutdownInit(shutdown);
1272
1273			#if defined(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_1)
1274			#if defined(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_1_ARGS)
1275			AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_1(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_1_ARGS);
1276			#else
1277			AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_1();
1278			#endif
1279			#endif
1280
1281			// stop system threads
1282			aosSysStop();
1283
1284			#if defined(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_2)
1285			#if defined(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_2_ARGS)
1286			AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_2(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_2_ARGS);
1287			#else
1288			AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_2();
1289			#endif
1290			#endif
1291
1292			// deinitialize system
1293			aosSysDeinit();
1294
1295			#if defined(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_3)
1296			#if defined(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_3_ARGS)
1297			AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_3(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_3_ARGS);
1298			#else
1299			AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_3();
1300			#endif
1301			#endif
1302
1303			/* stop all periphery communication */
1304	90e99d44	Thomas Schöpping	#if (AMIROOS_CFG_SSSP_ENABLE == true)
1305	e545e620	Thomas Schöpping	// CAN (mandatory)
1306			canStop(&MODULE_HAL_CAN);
1307	90e99d44	Thomas Schöpping	#endif
1308	e545e620	Thomas Schöpping	#ifdef MODULE_SHUTDOWN_PERIPHERY_COMM
1309			MODULE_SHUTDOWN_PERIPHERY_COMM();
1310			#endif
1311
1312			#if defined(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_4)
1313			#if defined(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_4_ARGS)
1314			AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_4(AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_4_ARGS);
1315			#else
1316			AMIROOS_CFG_MAIN_SHUTDOWN_HOOK_4();
1317			#endif
1318			#endif
1319
1320			// finally hand over to bootloader
1321	1e5f7648	Thomas Schöpping	aosSysShutdownFinal(shutdown);
1322	e545e620	Thomas Schöpping
1323			/*
1324			* ##########################################################################
1325			* # after shutdown/restart #
1326			* ##########################################################################
1327			*
1328			* NOTE: This code will not be executed, since the bootloader callbacks will stop/restart the MCU.
1329			* It is included nevertheless for the sake of completeness and to explicitely indicate,
1330			* which subsystems should NOT be shut down.
1331			*/
1332
1333			// return an error, since this code should not be executed
1334			return -1;
1335			}
1336	53710ca3	Marc Rothmann
1337			/** @} */