1bb8a927bSDirk Helbig /*
2bb8a927bSDirk Helbig * Copyright (C) 2024 BlueKitchen GmbH
3bb8a927bSDirk Helbig *
4bb8a927bSDirk Helbig * Redistribution and use in source and binary forms, with or without
5bb8a927bSDirk Helbig * modification, are permitted provided that the following conditions
6bb8a927bSDirk Helbig * are met:
7bb8a927bSDirk Helbig *
8bb8a927bSDirk Helbig * 1. Redistributions of source code must retain the above copyright
9bb8a927bSDirk Helbig * notice, this list of conditions and the following disclaimer.
10bb8a927bSDirk Helbig * 2. Redistributions in binary form must reproduce the above copyright
11bb8a927bSDirk Helbig * notice, this list of conditions and the following disclaimer in the
12bb8a927bSDirk Helbig * documentation and/or other materials provided with the distribution.
13bb8a927bSDirk Helbig * 3. Neither the name of the copyright holders nor the names of
14bb8a927bSDirk Helbig * contributors may be used to endorse or promote products derived
15bb8a927bSDirk Helbig * from this software without specific prior written permission.
16bb8a927bSDirk Helbig * 4. Any redistribution, use, or modification is done solely for
17bb8a927bSDirk Helbig * personal benefit and not for any commercial purpose or for
18bb8a927bSDirk Helbig * monetary gain.
19bb8a927bSDirk Helbig *
20bb8a927bSDirk Helbig * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS
21bb8a927bSDirk Helbig * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
22bb8a927bSDirk Helbig * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
23bb8a927bSDirk Helbig * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL BLUEKITCHEN
24bb8a927bSDirk Helbig * GMBH OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
25bb8a927bSDirk Helbig * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
26bb8a927bSDirk Helbig * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
27bb8a927bSDirk Helbig * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED
28bb8a927bSDirk Helbig * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
29bb8a927bSDirk Helbig * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
30bb8a927bSDirk Helbig * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
31bb8a927bSDirk Helbig * SUCH DAMAGE.
32bb8a927bSDirk Helbig *
33bb8a927bSDirk Helbig * Please inquire about commercial licensing options at
34bb8a927bSDirk Helbig * [email protected]
35bb8a927bSDirk Helbig *
36bb8a927bSDirk Helbig */
37bb8a927bSDirk Helbig #define BTSTACK_FILE__ "btstack_hsm.c"
38bb8a927bSDirk Helbig
39bb8a927bSDirk Helbig #include <stddef.h>
40bb8a927bSDirk Helbig #include <string.h>
41bb8a927bSDirk Helbig #include <stdbool.h>
42bb8a927bSDirk Helbig
43bb8a927bSDirk Helbig #include "btstack_config.h"
44bb8a927bSDirk Helbig #include "btstack_debug.h"
45bb8a927bSDirk Helbig
46bb8a927bSDirk Helbig #include "btstack_hsm.h"
47bb8a927bSDirk Helbig
btstack_hsm_transit(btstack_hsm_t * const me,btstack_hsm_state_handler_t const target)48bb8a927bSDirk Helbig btstack_hsm_state_t btstack_hsm_transit(btstack_hsm_t * const me, btstack_hsm_state_handler_t const target) {
49bb8a927bSDirk Helbig me->temp = target;
50bb8a927bSDirk Helbig return BTSTACK_HSM_TRAN_STATUS;
51bb8a927bSDirk Helbig }
52bb8a927bSDirk Helbig
btstack_hsm_super(btstack_hsm_t * const me,btstack_hsm_state_handler_t const target)53bb8a927bSDirk Helbig btstack_hsm_state_t btstack_hsm_super(btstack_hsm_t * const me, btstack_hsm_state_handler_t const target) {
54bb8a927bSDirk Helbig me->temp = target;
55bb8a927bSDirk Helbig return BTSTACK_HSM_SUPER_STATUS;
56bb8a927bSDirk Helbig }
57bb8a927bSDirk Helbig
btstack_hsm_top(btstack_hsm_t * const me,btstack_hsm_event_t const * const e)58bb8a927bSDirk Helbig btstack_hsm_state_t btstack_hsm_top(btstack_hsm_t * const me, btstack_hsm_event_t const * const e) {
59bb8a927bSDirk Helbig UNUSED(me);
60bb8a927bSDirk Helbig UNUSED(e);
61bb8a927bSDirk Helbig return BTSTACK_HSM_IGNORED_STATUS;
62bb8a927bSDirk Helbig }
63bb8a927bSDirk Helbig
btstack_hsm_constructor(btstack_hsm_t * const me,btstack_hsm_state_handler_t initial,btstack_hsm_state_handler_t path[],int8_t depth)64bb8a927bSDirk Helbig void btstack_hsm_constructor(btstack_hsm_t * const me, btstack_hsm_state_handler_t initial, btstack_hsm_state_handler_t path[], int8_t depth) {
65bb8a927bSDirk Helbig me->state = btstack_hsm_top;
66bb8a927bSDirk Helbig me->temp = initial;
67bb8a927bSDirk Helbig me->path = path;
68bb8a927bSDirk Helbig me->depth = depth;
69bb8a927bSDirk Helbig }
70bb8a927bSDirk Helbig
btstack_hsm_get_super(btstack_hsm_t * const me,btstack_hsm_state_handler_t const handler)71bb8a927bSDirk Helbig static btstack_hsm_state_t btstack_hsm_get_super( btstack_hsm_t * const me, btstack_hsm_state_handler_t const handler) {
72bb8a927bSDirk Helbig // empty event to trigger default state action, a.k. the super state
73bb8a927bSDirk Helbig static btstack_hsm_event_t const empty_evt = { BTSTACK_HSM_EMPTY_SIG };
74bb8a927bSDirk Helbig return handler( me, &empty_evt );
75bb8a927bSDirk Helbig }
76bb8a927bSDirk Helbig
77bb8a927bSDirk Helbig static btstack_hsm_event_t const entry_evt = { BTSTACK_HSM_ENTRY_SIG };
78bb8a927bSDirk Helbig static btstack_hsm_event_t const exit_evt = { BTSTACK_HSM_EXIT_SIG };
79*9c79bc9bSMatthias Ringwald static btstack_hsm_event_t const init_evt = { BTSTACK_HSM_INIT_SIG };
80bb8a927bSDirk Helbig
btstack_hsm_init(btstack_hsm_t * const me,btstack_hsm_event_t const * const e)81bb8a927bSDirk Helbig void btstack_hsm_init(btstack_hsm_t * const me, btstack_hsm_event_t const * const e) {
82bb8a927bSDirk Helbig btstack_assert(me->state != NULL);
83bb8a927bSDirk Helbig btstack_assert(me->temp != NULL);
84bb8a927bSDirk Helbig btstack_hsm_state_handler_t target = me->state;
85bb8a927bSDirk Helbig btstack_hsm_state_t status = me->temp(me, e);
86bb8a927bSDirk Helbig btstack_assert( status == BTSTACK_HSM_TRAN_STATUS );
87bb8a927bSDirk Helbig
88bb8a927bSDirk Helbig btstack_hsm_state_handler_t *root_path = me->path;
89bb8a927bSDirk Helbig memset(root_path, 0, sizeof(btstack_hsm_state_handler_t)*me->depth);
90bb8a927bSDirk Helbig
91bb8a927bSDirk Helbig do {
92*9c79bc9bSMatthias Ringwald int_fast8_t level = 0;
93bb8a927bSDirk Helbig btstack_hsm_state_handler_t current = me->temp;
94bb8a927bSDirk Helbig for(; current != target; current=me->temp, level++ ) {
95bb8a927bSDirk Helbig root_path[level] = current;
96bb8a927bSDirk Helbig btstack_hsm_get_super( me, current );
97bb8a927bSDirk Helbig }
98*9c79bc9bSMatthias Ringwald for(--level; level>=0;--level) {
99*9c79bc9bSMatthias Ringwald root_path[level]( me, &entry_evt );
100bb8a927bSDirk Helbig }
101bb8a927bSDirk Helbig target = root_path[0];
102bb8a927bSDirk Helbig status = target( me, &init_evt );
103bb8a927bSDirk Helbig } while (status == BTSTACK_HSM_TRAN_STATUS);
104bb8a927bSDirk Helbig btstack_assert( status != BTSTACK_HSM_TRAN_STATUS );
105bb8a927bSDirk Helbig me->state = target;
106bb8a927bSDirk Helbig }
107bb8a927bSDirk Helbig
btstack_hsm_handler_super_cache(btstack_hsm_t * const me,btstack_hsm_state_handler_t cache[],int idx,btstack_hsm_state_handler_t handler)108*9c79bc9bSMatthias Ringwald static void btstack_hsm_handler_super_cache(
109*9c79bc9bSMatthias Ringwald btstack_hsm_t * const me,
110*9c79bc9bSMatthias Ringwald btstack_hsm_state_handler_t cache[],
111*9c79bc9bSMatthias Ringwald int idx, btstack_hsm_state_handler_t handler ) {
112*9c79bc9bSMatthias Ringwald
113*9c79bc9bSMatthias Ringwald if( idx == me->depth ) {
114bb8a927bSDirk Helbig btstack_hsm_get_super(me, handler);
115*9c79bc9bSMatthias Ringwald if( me->temp != btstack_hsm_top ) {
116*9c79bc9bSMatthias Ringwald log_error("state machine has higher depth (%d) than specified!", me->depth);
117*9c79bc9bSMatthias Ringwald btstack_assert( 0 );
118*9c79bc9bSMatthias Ringwald }
119*9c79bc9bSMatthias Ringwald return;
120*9c79bc9bSMatthias Ringwald }
121*9c79bc9bSMatthias Ringwald if( cache[idx] == NULL ) {
122*9c79bc9bSMatthias Ringwald btstack_hsm_get_super(me, handler);
123*9c79bc9bSMatthias Ringwald cache[idx] = me->temp;
124bb8a927bSDirk Helbig } else {
125bb8a927bSDirk Helbig me->temp = cache[idx];
126bb8a927bSDirk Helbig }
127bb8a927bSDirk Helbig }
128bb8a927bSDirk Helbig
btstack_hsm_dispatch(btstack_hsm_t * const me,btstack_hsm_event_t const * const e)129bb8a927bSDirk Helbig btstack_hsm_state_t btstack_hsm_dispatch(btstack_hsm_t * const me, btstack_hsm_event_t const * const e) {
130bb8a927bSDirk Helbig btstack_hsm_state_t status;
131*9c79bc9bSMatthias Ringwald btstack_hsm_state_handler_t current;
132*9c79bc9bSMatthias Ringwald // forward event to next hierarchy level if not handled in current state
133*9c79bc9bSMatthias Ringwald me->temp = me->state;
134bb8a927bSDirk Helbig do {
135*9c79bc9bSMatthias Ringwald current = me->temp;
136bb8a927bSDirk Helbig status = current(me, e);
137bb8a927bSDirk Helbig // if the state doesn't handle the event try at the super state too
138bb8a927bSDirk Helbig if( status == BTSTACK_HSM_UNHANDLED_STATUS ) {
139bb8a927bSDirk Helbig status = btstack_hsm_get_super( me, current );
140bb8a927bSDirk Helbig }
141bb8a927bSDirk Helbig } while( status == BTSTACK_HSM_SUPER_STATUS );
142bb8a927bSDirk Helbig
143bb8a927bSDirk Helbig // if we don't switch states we are done now
144bb8a927bSDirk Helbig if( status != BTSTACK_HSM_TRAN_STATUS ) {
145bb8a927bSDirk Helbig return status;
146bb8a927bSDirk Helbig }
147*9c79bc9bSMatthias Ringwald // save the destination of the previous transition
148*9c79bc9bSMatthias Ringwald btstack_hsm_state_handler_t dest = me->temp;
149*9c79bc9bSMatthias Ringwald
150*9c79bc9bSMatthias Ringwald // if the transaction came from an higher hierarchical level, go there
151*9c79bc9bSMatthias Ringwald btstack_hsm_state_handler_t target = current;
152*9c79bc9bSMatthias Ringwald current = me->state;
153*9c79bc9bSMatthias Ringwald for(; current != target; current = me->temp) {
154*9c79bc9bSMatthias Ringwald current( me, &exit_evt );
155*9c79bc9bSMatthias Ringwald btstack_hsm_get_super( me, current );
156*9c79bc9bSMatthias Ringwald }
157*9c79bc9bSMatthias Ringwald
158*9c79bc9bSMatthias Ringwald btstack_hsm_state_handler_t source = target;
159*9c79bc9bSMatthias Ringwald target = dest;
160bb8a927bSDirk Helbig btstack_hsm_state_handler_t *root_path = me->path;
161bb8a927bSDirk Helbig memset(root_path, 0, sizeof(btstack_hsm_state_handler_t)*me->depth);
162bb8a927bSDirk Helbig
163*9c79bc9bSMatthias Ringwald // the state handlers form a single linked list with the default transition pointing to the previous hierarchy level,
164*9c79bc9bSMatthias Ringwald // so if we only record the previous pointer we miss the first element of the list to reproduce it fully.
165*9c79bc9bSMatthias Ringwald // So now the array contains head->prev->prev->prev...
166*9c79bc9bSMatthias Ringwald root_path[0] = target;
167bb8a927bSDirk Helbig
168*9c79bc9bSMatthias Ringwald // self transition
169*9c79bc9bSMatthias Ringwald if( source == target ) {
170*9c79bc9bSMatthias Ringwald source( me, &exit_evt );
171*9c79bc9bSMatthias Ringwald target( me, &entry_evt );
172*9c79bc9bSMatthias Ringwald }
173bb8a927bSDirk Helbig // handle entry/exit edges
174bb8a927bSDirk Helbig int_fast8_t level = 0;
175bb8a927bSDirk Helbig bool lca_found = false;
176bb8a927bSDirk Helbig // calculates the lowest common ancestor of the state graph
177bb8a927bSDirk Helbig for(; source != btstack_hsm_top; source=me->temp) {
178*9c79bc9bSMatthias Ringwald level = 1;
179bb8a927bSDirk Helbig for(current=target; current != btstack_hsm_top; current=me->temp, ++level ) {
180bb8a927bSDirk Helbig if( current == source ) {
181bb8a927bSDirk Helbig lca_found = true;
182bb8a927bSDirk Helbig break;
183bb8a927bSDirk Helbig }
184bb8a927bSDirk Helbig
185bb8a927bSDirk Helbig btstack_hsm_handler_super_cache( me, root_path, level, current );
186bb8a927bSDirk Helbig }
187bb8a927bSDirk Helbig if( lca_found == true ) {
188bb8a927bSDirk Helbig break;
189bb8a927bSDirk Helbig }
190bb8a927bSDirk Helbig source( me, &exit_evt );
191bb8a927bSDirk Helbig btstack_hsm_get_super( me, source );
192bb8a927bSDirk Helbig }
193bb8a927bSDirk Helbig
194*9c79bc9bSMatthias Ringwald // handle entry in reverse order
195*9c79bc9bSMatthias Ringwald for(level-=2; level >= 0; --level) {
196*9c79bc9bSMatthias Ringwald root_path[level]( me, &entry_evt );
197*9c79bc9bSMatthias Ringwald }
198*9c79bc9bSMatthias Ringwald // initial transitions are only allowed to point deeper into the state machine hierarchy,
199*9c79bc9bSMatthias Ringwald // so we only follow this direction here, deeper.
200*9c79bc9bSMatthias Ringwald for(; target( me, &init_evt ) == BTSTACK_HSM_TRAN_STATUS ;) {
201*9c79bc9bSMatthias Ringwald current = me->temp;
202*9c79bc9bSMatthias Ringwald for(level = 0; current != target; current=me->temp, ++level ) {
203*9c79bc9bSMatthias Ringwald root_path[level] = current;
204*9c79bc9bSMatthias Ringwald btstack_hsm_get_super( me, current );
205*9c79bc9bSMatthias Ringwald }
206*9c79bc9bSMatthias Ringwald for(--level; level >= 0; --level) {
207*9c79bc9bSMatthias Ringwald root_path[level]( me, &entry_evt );
208*9c79bc9bSMatthias Ringwald }
209*9c79bc9bSMatthias Ringwald target = root_path[0];
210bb8a927bSDirk Helbig }
211bb8a927bSDirk Helbig me->state = target;
212bb8a927bSDirk Helbig return status;
213bb8a927bSDirk Helbig }
214bb8a927bSDirk Helbig
215