Set blackbox file handler to NULL after closing file
[inav.git] / src / main / cms / cms.c
bloba32ab0af8864fe1efe1ebd93336c7948d1753259
1 /*
2 * This file is part of Cleanflight.
4 * Cleanflight is free software: you can redistribute it and/or modify
5 * it under the terms of the GNU General Public License as published by
6 * the Free Software Foundation, either version 3 of the License, or
7 * (at your option) any later version.
9 * Cleanflight is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 * GNU General Public License for more details.
14 * You should have received a copy of the GNU General Public License
15 * along with Cleanflight. If not, see <http://www.gnu.org/licenses/>.
19 Original OSD code created by Marcin Baliniak
20 OSD-CMS separation by jflyper
21 CMS-displayPort separation by jflyper and martinbudden
24 //#define CMS_PAGE_DEBUG // For multi-page/menu debugging
25 //#define CMS_MENU_DEBUG // For external menu content creators
26 #include <stdbool.h>
27 #include <stdint.h>
28 #include <string.h>
29 #include <ctype.h>
31 #include "platform.h"
33 #ifdef USE_CMS
35 #include "build/build_config.h"
36 #include "build/debug.h"
37 #include "build/version.h"
39 #include "cms/cms.h"
40 #include "cms/cms_menu_builtin.h"
41 #include "cms/cms_menu_saveexit.h"
42 #include "cms/cms_menu_osd.h"
43 #include "cms/cms_types.h"
45 #include "common/maths.h"
46 #include "common/printf.h"
47 #include "common/typeconversion.h"
48 #include "common/utils.h"
50 #include "drivers/system.h"
51 #include "drivers/time.h"
53 // For rcData, stopAllMotors, stopPwmAllMotors
54 #include "config/feature.h"
55 #include "config/parameter_group.h"
56 #include "config/parameter_group_ids.h"
58 // For 'ARM' related
59 #include "fc/fc_core.h"
60 #include "fc/config.h"
61 #include "fc/rc_controls.h"
62 #include "fc/runtime_config.h"
63 #include "fc/settings.h"
65 #include "flight/mixer.h"
66 #include "flight/servos.h"
68 // For VISIBLE*
69 #include "io/osd.h"
70 #include "io/rcdevice_cam.h"
72 #include "rx/rx.h"
74 // DisplayPort management
76 #ifndef CMS_MAX_DEVICE
77 #define CMS_MAX_DEVICE 4
78 #endif
80 // Should be as big as the maximum number of rows displayed
81 // simultaneously in the tallest supported screen.
82 static uint8_t entry_flags[32];
84 #define IS_PRINTVALUE(p, row) (entry_flags[row] & PRINT_VALUE)
85 #define SET_PRINTVALUE(p, row) { entry_flags[row] |= PRINT_VALUE; }
86 #define CLR_PRINTVALUE(p, row) { entry_flags[row] &= ~PRINT_VALUE; }
88 #define IS_PRINTLABEL(p, row) (entry_flags[row] & PRINT_LABEL)
89 #define SET_PRINTLABEL(p, row) { entry_flags[row] |= PRINT_LABEL; }
90 #define CLR_PRINTLABEL(p, row) { entry_flags[row] &= ~PRINT_LABEL; }
92 #define IS_DYNAMIC(p) ((p)->flags & DYNAMIC)
93 #define IS_READONLY(p) ((p)->flags & READONLY)
95 #define SETTING_INVALID_VALUE_NAME "INVALID"
97 static displayPort_t *pCurrentDisplay;
99 static displayPort_t *cmsDisplayPorts[CMS_MAX_DEVICE];
100 static int cmsDeviceCount;
101 static int cmsCurrentDevice = -1;
102 static timeMs_t cmsYieldUntil = 0;
104 bool cmsDisplayPortRegister(displayPort_t *pDisplay)
106 if (cmsDeviceCount == CMS_MAX_DEVICE)
107 return false;
109 cmsDisplayPorts[cmsDeviceCount++] = pDisplay;
111 return true;
114 static displayPort_t *cmsDisplayPortSelectCurrent(void)
116 if (cmsDeviceCount == 0)
117 return NULL;
119 if (cmsCurrentDevice < 0)
120 cmsCurrentDevice = 0;
122 return cmsDisplayPorts[cmsCurrentDevice];
125 static displayPort_t *cmsDisplayPortSelectNext(void)
127 if (cmsDeviceCount == 0)
128 return NULL;
130 cmsCurrentDevice = (cmsCurrentDevice + 1) % cmsDeviceCount; // -1 Okay
132 return cmsDisplayPorts[cmsCurrentDevice];
135 bool cmsDisplayPortSelect(displayPort_t *instance)
137 if (cmsDeviceCount == 0) {
138 return false;
140 for (int i = 0; i < cmsDeviceCount; i++) {
141 if (cmsDisplayPortSelectNext() == instance) {
142 return true;
145 return false;
148 displayPort_t *cmsDisplayPortGetCurrent(void)
150 return pCurrentDisplay;
153 #define CMS_UPDATE_INTERVAL_US 50000 // Interval of key scans (microsec)
154 #define CMS_POLL_INTERVAL_US 100000 // Interval of polling dynamic values (microsec)
156 // XXX LEFT_MENU_COLUMN and RIGHT_MENU_COLUMN must be adjusted
157 // dynamically depending on size of the active output device,
158 // or statically to accomodate sizes of all supported devices.
160 // Device characteristics
161 // OLED
162 // 21 cols x 8 rows
163 // 128x64 with 5x7 (6x8) : 21 cols x 8 rows
164 // MAX7456 (PAL)
165 // 30 cols x 16 rows
166 // MAX7456 (NTSC)
167 // 30 cols x 13 rows
168 // HoTT Telemetry Screen
169 // 21 cols x 8 rows
170 // HDZERO
171 // 50 cols x 18 rows
172 // DJIWTF
173 // 60 cols x 22 rows
176 #define NORMAL_SCREEN_MIN_COLS 18 // Less is a small screen
177 #define NORMAL_SCREEN_MAX_COLS 30 // More is a big screen
178 static bool smallScreen;
179 static uint8_t leftMenuColumn;
180 static uint8_t rightMenuColumn;
181 static uint8_t maxMenuItems;
182 static uint8_t linesPerMenuItem;
183 static cms_key_e externKey = CMS_KEY_NONE;
185 bool cmsInMenu = false;
187 typedef struct cmsCtx_s {
188 const CMS_Menu *menu; // menu for this context
189 uint8_t page; // page in the menu
190 int8_t cursorRow; // cursorRow in the page
191 } cmsCtx_t;
193 static cmsCtx_t menuStack[10];
194 static uint8_t menuStackIdx = 0;
196 static int8_t pageCount; // Number of pages in the current menu
197 static const OSD_Entry *pageTop; // First entry for the current page
198 static uint8_t pageMaxRow; // Max row in the current page
200 static cmsCtx_t currentCtx;
202 #ifdef CMS_MENU_DEBUG // For external menu content creators
204 static char menuErrLabel[21 + 1] = "RANDOM DATA";
206 static const OSD_Entry menuErrEntries[] = {
207 { "BROKEN MENU", OME_Label, NULL, NULL, 0 },
208 { menuErrLabel, OME_Label, NULL, NULL, 0 },
210 OSD_BACK_ENTRY,
211 OSD_END_ENTRY,
214 static const CMS_Menu menuErr = {
215 "MENUERR",
216 OME_MENU,
217 NULL,
218 NULL,
219 NULL,
220 menuErrEntries,
222 #endif
224 #ifdef CMS_PAGE_DEBUG
225 #define cmsPageDebug() { \
226 debug[0] = pageCount; \
227 debug[1] = currentCtx.page; \
228 debug[2] = pageMaxRow; \
229 debug[3] = currentCtx.cursorRow; } struct _dummy
230 #else
231 #define cmsPageDebug()
232 #endif
234 static void cmsUpdateMaxRow(displayPort_t *instance)
236 UNUSED(instance);
237 pageMaxRow = 0;
239 for (const OSD_Entry *ptr = pageTop; ptr->type != OME_END; ptr++) {
240 pageMaxRow++;
241 if (ptr->type == OME_BACK_AND_END) {
242 break;
246 if (pageMaxRow > maxMenuItems) {
247 pageMaxRow = maxMenuItems;
250 pageMaxRow--;
253 static uint8_t cmsCursorAbsolute(displayPort_t *instance)
255 UNUSED(instance);
256 return currentCtx.cursorRow + currentCtx.page * maxMenuItems;
259 static void cmsPageSelect(displayPort_t *instance, int8_t newpage)
261 currentCtx.page = (newpage + pageCount) % pageCount;
262 pageTop = &currentCtx.menu->entries[currentCtx.page * maxMenuItems];
263 cmsUpdateMaxRow(instance);
264 displayClearScreen(instance);
267 static void cmsPageNext(displayPort_t *instance)
269 cmsPageSelect(instance, currentCtx.page + 1);
272 static void cmsPagePrev(displayPort_t *instance)
274 cmsPageSelect(instance, currentCtx.page - 1);
277 static bool cmsElementIsLabel(OSD_MenuElement element)
279 return element == OME_Label || element == OME_LabelFunc || element == OME_Label_PAGE2_DATA;
282 static void cmsFormatFloat(int32_t value, char *floatString)
284 uint8_t k;
285 // np. 3450
287 itoa(100000 + value, floatString, 10); // Create string from abs of integer value
289 // 103450
291 floatString[0] = floatString[1];
292 floatString[1] = floatString[2];
293 floatString[2] = '.';
295 // 03.450
296 // usuwam koncowe zera i kropke
297 // Keep the first decimal place
298 for (k = 5; k > 3; k--)
299 if (floatString[k] == '0' || floatString[k] == '.')
300 floatString[k] = 0;
301 else
302 break;
304 // oraz zero wiodonce
305 if (floatString[0] == '0')
306 floatString[0] = ' ';
309 // Pad buffer to the left, i.e. align right
310 static void cmsPadLeftToSize(char *buf, int size)
312 int i, j;
313 int len = strlen(buf);
315 for (i = size - 1, j = size - len; i - j >= 0; i--) {
316 buf[i] = buf[i - j];
319 for (; i >= 0; i--) {
320 buf[i] = ' ';
323 buf[size] = 0;
326 static void cmsPadToSize(char *buf, int size)
328 // Make absolutely sure the string terminated.
329 buf[size] = 0x00,
331 cmsPadLeftToSize(buf, size);
334 static int cmsDrawMenuItemValue(displayPort_t *pDisplay, char *buff, uint8_t row, uint8_t maxSize)
336 int colpos;
337 int cnt;
339 cmsPadToSize(buff, maxSize);
340 colpos = rightMenuColumn - maxSize;
341 cnt = displayWrite(pDisplay, colpos, row, buff);
342 return cnt;
345 static int cmsDrawMenuEntry(displayPort_t *pDisplay, const OSD_Entry *p, uint8_t row, uint8_t screenRow)
347 #define CMS_DRAW_BUFFER_LEN 12
348 #define CMS_NUM_FIELD_LEN 5
349 #define CMS_CURSOR_BLINK_DELAY_MS 500
351 char buff[CMS_DRAW_BUFFER_LEN + 1]; // Make room for null terminator.
352 int cnt = 0;
354 if (smallScreen) {
355 row++;
358 switch (p->type) {
359 case OME_String:
360 if (IS_PRINTVALUE(p, screenRow) && p->data) {
361 strncpy(buff, p->data, CMS_DRAW_BUFFER_LEN);
362 cnt = cmsDrawMenuItemValue(pDisplay, buff, row, CMS_DRAW_BUFFER_LEN);
363 CLR_PRINTVALUE(p, screenRow);
365 break;
367 case OME_Submenu:
368 case OME_Funcall:
369 if (IS_PRINTVALUE(p, screenRow)) {
370 buff[0] = 0x0;
371 if ((p->type == OME_Submenu) && p->func && (p->flags & OPTSTRING)) {
373 // Special case of sub menu entry with optional value display.
374 char *str = p->menufunc();
375 strncpy(buff, str, CMS_DRAW_BUFFER_LEN);
377 strncat(buff, ">", CMS_DRAW_BUFFER_LEN);
379 row = smallScreen ? row - 1 : row;
380 cnt = cmsDrawMenuItemValue(pDisplay, buff, row, strlen(buff));
381 CLR_PRINTVALUE(p, screenRow);
383 break;
385 case OME_Bool:
386 if (IS_PRINTVALUE(p, screenRow) && p->data) {
387 if (*((uint8_t *)(p->data))) {
388 strcpy(buff, "YES");
389 } else {
390 strcpy(buff, "NO");
393 cnt = cmsDrawMenuItemValue(pDisplay, buff, row, 3);
394 CLR_PRINTVALUE(p, screenRow);
396 break;
398 case OME_BoolFunc:
399 if (IS_PRINTVALUE(p, screenRow) && p->data) {
400 bool (*func)(bool *arg) = p->data;
401 if (func(NULL)) {
402 strcpy(buff, "YES");
403 } else {
404 strcpy(buff, "NO");
407 cnt = cmsDrawMenuItemValue(pDisplay, buff, row, 3);
408 CLR_PRINTVALUE(p, screenRow);
410 break;
412 case OME_TAB:
413 if (IS_PRINTVALUE(p, screenRow)) {
414 const OSD_TAB_t *ptr = p->data;
415 char * str = (char *)ptr->names[*ptr->val];
416 strncpy(buff, str, CMS_DRAW_BUFFER_LEN);
417 cnt = cmsDrawMenuItemValue(pDisplay, buff, row, CMS_DRAW_BUFFER_LEN);
418 CLR_PRINTVALUE(p, screenRow);
420 break;
422 case OME_UINT8:
423 if (IS_PRINTVALUE(p, screenRow) && p->data) {
424 const uint8_t *val;
425 if (IS_READONLY(p)) {
426 val = p->data;
427 } else {
428 const OSD_UINT8_t *ptr = p->data;
429 val = ptr->val;
431 itoa(*val, buff, 10);
432 cnt = cmsDrawMenuItemValue(pDisplay, buff, row, CMS_NUM_FIELD_LEN);
433 CLR_PRINTVALUE(p, screenRow);
435 break;
437 case OME_INT8:
438 if (IS_PRINTVALUE(p, screenRow) && p->data) {
439 const int8_t *val;
440 if (IS_READONLY(p)) {
441 val = p->data;
442 } else {
443 const OSD_INT8_t *ptr = p->data;
444 val = ptr->val;
446 itoa(*val, buff, 10);
447 cnt = cmsDrawMenuItemValue(pDisplay, buff, row, CMS_NUM_FIELD_LEN);
448 CLR_PRINTVALUE(p, screenRow);
450 break;
452 case OME_UINT16:
453 if (IS_PRINTVALUE(p, screenRow) && p->data) {
454 const uint16_t *val;
455 if (IS_READONLY(p)) {
456 val = p->data;
457 } else {
458 const OSD_UINT16_t *ptr = p->data;
459 val = ptr->val;
461 itoa(*val, buff, 10);
462 cnt = cmsDrawMenuItemValue(pDisplay, buff, row, CMS_NUM_FIELD_LEN);
463 CLR_PRINTVALUE(p, screenRow);
465 break;
467 case OME_INT16:
468 if (IS_PRINTVALUE(p, screenRow) && p->data) {
469 const int16_t *val;
470 if (IS_READONLY(p)) {
471 val = p->data;
472 } else {
473 const OSD_INT16_t *ptr = p->data;
474 val = ptr->val;
476 itoa(*val, buff, 10);
477 cnt = cmsDrawMenuItemValue(pDisplay, buff, row, CMS_NUM_FIELD_LEN);
478 CLR_PRINTVALUE(p, screenRow);
480 break;
482 case OME_FLOAT:
483 if (IS_PRINTVALUE(p, screenRow) && p->data) {
484 const OSD_FLOAT_t *ptr = p->data;
485 cmsFormatFloat(*ptr->val * ptr->multipler, buff);
486 cnt = cmsDrawMenuItemValue(pDisplay, buff, row, CMS_NUM_FIELD_LEN);
487 CLR_PRINTVALUE(p, screenRow);
489 break;
491 case OME_Setting:
492 if (IS_PRINTVALUE(p, screenRow) && p->data) {
493 uint8_t maxSize = CMS_NUM_FIELD_LEN;
494 buff[0] = '\0';
495 const OSD_SETTING_t *ptr = p->data;
496 const setting_t *var = settingGet(ptr->val);
497 int32_t value = 0;
498 const void *valuePointer = settingGetValuePointer(var);
499 switch (SETTING_TYPE(var)) {
500 case VAR_UINT8:
501 value = *(uint8_t *)valuePointer;
502 break;
503 case VAR_INT8:
504 value = *(int8_t *)valuePointer;
505 break;
506 case VAR_UINT16:
507 value = *(uint16_t *)valuePointer;
508 break;
509 case VAR_INT16:
510 value = *(int16_t *)valuePointer;
511 break;
512 case VAR_UINT32:
513 value = *(uint32_t *)valuePointer;
514 break;
515 case VAR_FLOAT:
516 // XXX: This bypasses the data types. However, we
517 // don't have any VAR_FLOAT settings which require
518 // a data type yet.
519 ftoa(*(float *)valuePointer, buff);
520 break;
521 case VAR_STRING:
522 strncpy(buff, valuePointer, sizeof(buff));
523 break;
525 if (buff[0] == '\0') {
526 const char *suffix = NULL;
527 switch (CMS_DATA_TYPE(p)) {
528 case CMS_DATA_TYPE_ANGULAR_RATE:
529 // Setting is in degrees/10 per second
530 value *= 10;
531 suffix = " DPS";
532 break;
534 switch (SETTING_MODE(var)) {
535 case MODE_DIRECT:
536 if (SETTING_TYPE(var) == VAR_UINT32) {
537 tfp_sprintf(buff, "%u", (unsigned)value);
538 } else {
539 tfp_sprintf(buff, "%d", (int)value);
541 break;
542 case MODE_LOOKUP:
544 const char *str = settingLookupValueName(var, value);
545 strncpy(buff, str ? str : SETTING_INVALID_VALUE_NAME, sizeof(buff) - 1);
546 maxSize = MAX(settingGetValueNameMaxSize(var), strlen(SETTING_INVALID_VALUE_NAME));
548 break;
550 if (suffix) {
551 strcat(buff, suffix);
554 cnt = cmsDrawMenuItemValue(pDisplay, buff, row, maxSize);
555 CLR_PRINTVALUE(p, screenRow);
557 break;
559 case OME_Label:
560 case OME_LabelFunc:
561 if (IS_PRINTVALUE(p, screenRow)) {
562 // A label with optional string, immediately following text
563 const char *text = p->data;
564 if (p->type == OME_LabelFunc) {
565 // Label is generated by a function
566 bool (*label_func)(char *buf, unsigned size) = p->data;
567 if (label_func(buff, sizeof(buff))) {
568 text = buff;
569 } else {
570 text = NULL;
573 if (text) {
574 cnt = displayWrite(pDisplay,
575 leftMenuColumn + 1 + (uint8_t) strlen(p->text), row, text);
577 CLR_PRINTVALUE(p, screenRow);
579 break;
580 case OME_Label_PAGE2_DATA:
581 case OME_OSD_Exit:
582 case OME_END:
583 case OME_Back:
584 case OME_BACK_AND_END:
585 break;
587 case OME_MENU:
588 // Fall through
589 default:
590 #ifdef CMS_MENU_DEBUG
591 // Shouldn't happen. Notify creator of this menu content.
592 cnt = displayWrite(pDisplay, rightMenuColumn - 6), row, "BADENT");
593 #endif
594 break;
597 return cnt;
600 static void cmsDrawMenu(displayPort_t *pDisplay, uint32_t currentTimeUs)
602 if (!pageTop)
603 return;
605 uint8_t i;
606 const OSD_Entry *p;
607 uint8_t top = smallScreen ? 1 : (pDisplay->rows - pageMaxRow) / 2;
609 // Polled (dynamic) value display denominator.
611 bool drawPolled = false;
612 static uint32_t lastPolledUs = 0;
614 if (currentTimeUs > lastPolledUs + CMS_POLL_INTERVAL_US) {
615 drawPolled = true;
616 lastPolledUs = currentTimeUs;
619 uint32_t room = displayTxBytesFree(pDisplay);
621 if (pDisplay->cleared) {
622 // Mark all labels and values for printing
623 memset(entry_flags, PRINT_LABEL | PRINT_VALUE, sizeof(entry_flags));
624 pDisplay->cleared = false;
625 } else if (drawPolled) {
626 for (p = pageTop, i = 0; p <= pageTop + pageMaxRow; p++, i++) {
627 if (IS_DYNAMIC(p))
628 SET_PRINTVALUE(p, i);
632 // Cursor manipulation
634 while (cmsElementIsLabel((pageTop + currentCtx.cursorRow)->type)) // skip label
635 currentCtx.cursorRow++;
637 cmsPageDebug();
639 if (pDisplay->cursorRow >= 0 && currentCtx.cursorRow != pDisplay->cursorRow) {
640 room -= displayWrite(pDisplay, leftMenuColumn, top + pDisplay->cursorRow * linesPerMenuItem, " ");
643 if (room < 30)
644 return;
646 if (pDisplay->cursorRow != currentCtx.cursorRow) {
647 room -= displayWrite(pDisplay, leftMenuColumn, top + currentCtx.cursorRow * linesPerMenuItem, ">");
648 pDisplay->cursorRow = currentCtx.cursorRow;
651 if (room < 30)
652 return;
654 // Print text labels
655 for (i = 0, p = pageTop; i < maxMenuItems && p->type != OME_END; i++, p++) {
656 if (IS_PRINTLABEL(p, i)) {
657 uint8_t coloff = leftMenuColumn;
658 coloff += cmsElementIsLabel(p->type) ? 0 : 1;
660 if (p->type == OME_Label_PAGE2_DATA) {
661 #ifdef USE_CMS_FONT_PREVIEW
662 // A label with immediately following text in page2
663 int printed = 0;
664 if (p->text) {
665 size_t textLen = strlen(p->text);
666 for(size_t k = 0; k < textLen; k++) {
667 displayWriteChar(pDisplay,
668 coloff + printed, top + i * linesPerMenuItem, p->text[k]);
669 printed++;
672 if (p->data) {
673 const char *p2text = (const char *)p->data;
674 for (size_t k = 0; k < strlen(p2text); ++k) {
675 displayWriteChar(pDisplay,
676 coloff + printed + k, top + i * linesPerMenuItem, (p2text[k] | (1 << 8)));
679 #endif
680 } else {
681 room -= displayWrite(pDisplay, coloff, top + i * linesPerMenuItem, p->text);
683 CLR_PRINTLABEL(p, i);
684 if (room < 30) {
685 return;
688 if (p->type == OME_BACK_AND_END) {
689 break;
692 // Print values
694 // XXX Polled values at latter positions in the list may not be
695 // XXX printed if not enough room in the middle of the list.
696 for (i = 0, p = pageTop; i < maxMenuItems && p->type != OME_END; i++, p++) {
697 if (IS_PRINTVALUE(p, i)) {
698 room -= cmsDrawMenuEntry(pDisplay, p, top + i * linesPerMenuItem, i);
699 if (room < 30) {
700 return;
703 if (p->type == OME_BACK_AND_END) {
704 break;
709 static void cmsMenuCountPage(displayPort_t *pDisplay)
711 UNUSED(pDisplay);
712 const OSD_Entry *p;
713 for (p = currentCtx.menu->entries; p->type != OME_END; p++) {
714 if (p->type == OME_BACK_AND_END) {
715 p++;
716 break;
719 pageCount = (p - currentCtx.menu->entries - 1) / maxMenuItems + 1;
722 STATIC_UNIT_TESTED long cmsMenuBack(displayPort_t *pDisplay); // Forward; will be resolved after merging
724 long cmsMenuChange(displayPort_t *pDisplay, const CMS_Menu *pMenu, const OSD_Entry *from)
726 if (!pMenu) {
727 return 0;
730 #ifdef CMS_MENU_DEBUG
731 if (pMenu->GUARD_type != OME_MENU) {
732 // ptr isn't pointing to a CMS_Menu.
733 if (pMenu->GUARD_type <= OME_MAX) {
734 strncpy(menuErrLabel, pMenu->GUARD_text, sizeof(menuErrLabel) - 1);
735 } else {
736 strncpy(menuErrLabel, "LABEL UNKNOWN", sizeof(menuErrLabel) - 1);
738 pMenu = &menuErr;
740 #endif
742 if (pMenu != currentCtx.menu) {
743 // Stack the current menu and move to a new menu.
745 menuStack[menuStackIdx++] = currentCtx;
747 currentCtx.menu = pMenu;
748 currentCtx.cursorRow = 0;
750 if (pMenu->onEnter && (pMenu->onEnter(from) == MENU_CHAIN_BACK)) {
751 return cmsMenuBack(pDisplay);
754 cmsMenuCountPage(pDisplay);
755 cmsPageSelect(pDisplay, 0);
756 } else {
757 // The (pMenu == curretMenu) case occurs when reopening for display cycling
758 // currentCtx.cursorRow has been saved as absolute; convert it back to page + relative
760 int8_t cursorAbs = currentCtx.cursorRow;
761 currentCtx.cursorRow = cursorAbs % maxMenuItems;
762 cmsMenuCountPage(pDisplay);
763 cmsPageSelect(pDisplay, cursorAbs / maxMenuItems);
766 cmsPageDebug();
768 return 0;
771 STATIC_UNIT_TESTED long cmsMenuBack(displayPort_t *pDisplay)
773 // Let onExit function decide whether to allow exit or not.
775 if (currentCtx.menu->onExit && currentCtx.menu->onExit(pageTop + currentCtx.cursorRow) < 0) {
776 return -1;
779 if (!menuStackIdx) {
780 return 0;
783 currentCtx = menuStack[--menuStackIdx];
785 cmsMenuCountPage(pDisplay);
786 cmsPageSelect(pDisplay, currentCtx.page);
788 cmsPageDebug();
790 return 0;
793 void cmsMenuOpen(void)
795 if (!cmsInMenu) {
796 // New open
797 setServoOutputEnabled(false);
798 pCurrentDisplay = cmsDisplayPortSelectCurrent();
799 if (!pCurrentDisplay)
800 return;
801 cmsInMenu = true;
802 currentCtx = (cmsCtx_t){ &menuMain, 0, 0 };
803 ENABLE_ARMING_FLAG(ARMING_DISABLED_CMS_MENU);
804 } else {
805 // Switch display
806 displayPort_t *pNextDisplay = cmsDisplayPortSelectNext();
807 if (pNextDisplay != pCurrentDisplay) {
808 // DisplayPort has been changed.
809 // Convert cursorRow to absolute value
810 currentCtx.cursorRow = cmsCursorAbsolute(pCurrentDisplay);
811 displayRelease(pCurrentDisplay);
812 pCurrentDisplay = pNextDisplay;
813 } else {
814 return;
817 displayGrab(pCurrentDisplay); // grab the display for use by the CMS
819 if (pCurrentDisplay->cols < NORMAL_SCREEN_MIN_COLS) {
820 smallScreen = true;
821 linesPerMenuItem = 2;
822 leftMenuColumn = 0;
823 rightMenuColumn = pCurrentDisplay->cols;
824 maxMenuItems = (pCurrentDisplay->rows) / linesPerMenuItem;
825 } else {
826 smallScreen = false;
827 linesPerMenuItem = 1;
828 maxMenuItems = pCurrentDisplay->rows - 2;
829 if (pCurrentDisplay->cols > NORMAL_SCREEN_MAX_COLS) {
830 leftMenuColumn = 7;
831 rightMenuColumn = pCurrentDisplay->cols - 7;
832 } else {
833 leftMenuColumn = 2;
834 rightMenuColumn = pCurrentDisplay->cols - 2;
838 if (pCurrentDisplay->useFullscreen) {
839 leftMenuColumn = 0;
840 rightMenuColumn = pCurrentDisplay->cols;
841 maxMenuItems = pCurrentDisplay->rows;
844 cmsMenuChange(pCurrentDisplay, currentCtx.menu, NULL);
847 static void cmsTraverseGlobalExit(const CMS_Menu *pMenu)
849 for (const OSD_Entry *p = pMenu->entries; p->type != OME_END; p++) {
850 if (p->type == OME_Submenu) {
851 cmsTraverseGlobalExit(p->data);
853 if (p->type == OME_BACK_AND_END) {
854 break;
858 if (pMenu->onGlobalExit) {
859 pMenu->onGlobalExit(NULL);
863 long cmsMenuExit(displayPort_t *pDisplay, const void *ptr)
865 #if defined(SITL_BUILD)
866 unsigned long exitType = (uintptr_t)ptr;
867 #else
868 int exitType = (int)ptr;
869 #endif
870 switch (exitType) {
871 case CMS_EXIT_SAVE:
872 case CMS_EXIT_SAVEREBOOT:
873 case CMS_POPUP_SAVE:
874 case CMS_POPUP_SAVEREBOOT:
876 cmsTraverseGlobalExit(&menuMain);
878 if (currentCtx.menu->onExit)
879 currentCtx.menu->onExit((OSD_Entry *)NULL); // Forced exit
881 if ((exitType == CMS_POPUP_SAVE) || (exitType == CMS_POPUP_SAVEREBOOT)) {
882 // traverse through the menu stack and call their onExit functions
883 for (int i = menuStackIdx - 1; i >= 0; i--) {
884 if (menuStack[i].menu->onExit) {
885 menuStack[i].menu->onExit((OSD_Entry *) NULL);
890 saveConfigAndNotify();
891 break;
893 case CMS_EXIT:
894 break;
897 cmsInMenu = false;
899 displayRelease(pDisplay);
900 currentCtx.menu = NULL;
902 setServoOutputEnabled(true);
904 if ((exitType == CMS_EXIT_SAVEREBOOT) || (exitType == CMS_POPUP_SAVEREBOOT)) {
905 processDelayedSave();
906 displayClearScreen(pDisplay);
907 displayWrite(pDisplay, 5, 3, "REBOOTING...");
909 displayResync(pDisplay); // Was max7456RefreshAll(); why at this timing?
911 fcReboot(false);
914 DISABLE_ARMING_FLAG(ARMING_DISABLED_CMS_MENU);
916 return 0;
919 void cmsYieldDisplay(displayPort_t *pPort, timeMs_t duration)
921 // Check if we're already yielding, in that case just extend
922 // the yield time without releasing the display again, otherwise
923 // the yield/grab become unbalanced.
924 if (cmsYieldUntil == 0) {
925 displayRelease(pPort);
927 cmsYieldUntil = millis() + duration;
930 // Stick/key detection and key codes
932 #define IS_HI(X) (rxGetChannelValue(X) > 1750)
933 #define IS_LO(X) (rxGetChannelValue(X) < 1250)
934 #define IS_MID(X) (rxGetChannelValue(X) > 1250 && rxGetChannelValue(X) < 1750)
936 #define BUTTON_TIME 250 // msec
937 #define BUTTON_PAUSE 500 // msec
939 STATIC_UNIT_TESTED uint16_t cmsHandleKey(displayPort_t *pDisplay, uint8_t key)
941 uint16_t res = BUTTON_TIME;
942 const OSD_Entry *p;
944 if (!currentCtx.menu)
945 return res;
947 if (key == CMS_KEY_MENU) {
948 cmsMenuOpen();
949 return BUTTON_PAUSE;
952 if (key == CMS_KEY_ESC) {
953 cmsMenuBack(pDisplay);
954 return BUTTON_PAUSE;
957 if (key == CMS_KEY_SAVEMENU) {
958 cmsMenuChange(pDisplay, &cmsx_menuSaveExit, NULL);
959 return BUTTON_PAUSE;
962 if (key == CMS_KEY_DOWN) {
963 if (currentCtx.cursorRow < pageMaxRow) {
964 currentCtx.cursorRow++;
965 } else {
966 cmsPageNext(pDisplay);
967 currentCtx.cursorRow = 0; // Goto top in any case
971 if (key == CMS_KEY_UP) {
972 currentCtx.cursorRow--;
974 // Skip non-title labels
975 if (cmsElementIsLabel((pageTop + currentCtx.cursorRow)->type) && currentCtx.cursorRow > 0)
976 currentCtx.cursorRow--;
978 if (currentCtx.cursorRow == -1 || cmsElementIsLabel((pageTop + currentCtx.cursorRow)->type)) {
979 // Goto previous page
980 cmsPagePrev(pDisplay);
981 currentCtx.cursorRow = pageMaxRow;
985 if (key == CMS_KEY_DOWN || key == CMS_KEY_UP)
986 return res;
988 p = pageTop + currentCtx.cursorRow;
990 switch (p->type) {
991 case OME_Submenu:
992 if (key == CMS_KEY_RIGHT) {
993 cmsMenuChange(pDisplay, p->data, p);
994 res = BUTTON_PAUSE;
996 break;
998 case OME_Funcall:
999 if (p->func && key == CMS_KEY_RIGHT) {
1000 long retval = p->func(pDisplay, p->data);
1001 if (retval == MENU_CHAIN_BACK)
1002 cmsMenuBack(pDisplay);
1003 res = BUTTON_PAUSE;
1005 break;
1007 case OME_OSD_Exit:
1008 if (p->func && key == CMS_KEY_RIGHT) {
1009 p->func(pDisplay, p->data);
1010 res = BUTTON_PAUSE;
1012 break;
1014 case OME_Back:
1015 case OME_BACK_AND_END:
1016 cmsMenuBack(pDisplay);
1017 res = BUTTON_PAUSE;
1018 break;
1020 case OME_Bool:
1021 if (p->data) {
1022 uint8_t *val = (uint8_t *)p->data;
1023 if (key == CMS_KEY_RIGHT)
1024 *val = 1;
1025 else
1026 *val = 0;
1027 SET_PRINTVALUE(p, currentCtx.cursorRow);
1028 if (p->func) {
1029 p->func(pDisplay, p);
1032 break;
1034 case OME_BoolFunc:
1035 if (p->data) {
1036 bool (*func)(bool *arg) = p->data;
1037 bool val = key == CMS_KEY_RIGHT;
1038 func(&val);
1039 SET_PRINTVALUE(p, currentCtx.cursorRow);
1041 break;
1043 case OME_UINT8:
1044 case OME_FLOAT:
1045 if (IS_READONLY(p)) {
1046 break;
1048 if (p->data) {
1049 const OSD_UINT8_t *ptr = p->data;
1050 if (key == CMS_KEY_RIGHT) {
1051 if (*ptr->val < ptr->max)
1052 *ptr->val += ptr->step;
1053 } else {
1054 if (*ptr->val > ptr->min)
1055 *ptr->val -= ptr->step;
1057 SET_PRINTVALUE(p, currentCtx.cursorRow);
1058 if (p->func) {
1059 p->func(pDisplay, p);
1062 break;
1064 case OME_TAB:
1065 if (p->type == OME_TAB) {
1066 const OSD_TAB_t *ptr = p->data;
1068 if (key == CMS_KEY_RIGHT) {
1069 if (*ptr->val < ptr->max)
1070 *ptr->val += 1;
1071 } else {
1072 if (*ptr->val > 0)
1073 *ptr->val -= 1;
1075 if (p->func) {
1076 p->func(pDisplay, p->data);
1078 SET_PRINTVALUE(p, currentCtx.cursorRow);
1080 break;
1082 case OME_INT8:
1083 if (IS_READONLY(p)) {
1084 break;
1086 if (p->data) {
1087 const OSD_INT8_t *ptr = p->data;
1088 if (key == CMS_KEY_RIGHT) {
1089 if (*ptr->val < ptr->max)
1090 *ptr->val += ptr->step;
1091 } else {
1092 if (*ptr->val > ptr->min)
1093 *ptr->val -= ptr->step;
1095 SET_PRINTVALUE(p, currentCtx.cursorRow);
1096 if (p->func) {
1097 p->func(pDisplay, p);
1100 break;
1102 case OME_UINT16:
1103 if (IS_READONLY(p)) {
1104 break;
1106 if (p->data) {
1107 const OSD_UINT16_t *ptr = p->data;
1108 if (key == CMS_KEY_RIGHT) {
1109 if (*ptr->val < ptr->max)
1110 *ptr->val += ptr->step;
1111 } else {
1112 if (*ptr->val > ptr->min)
1113 *ptr->val -= ptr->step;
1115 SET_PRINTVALUE(p, currentCtx.cursorRow);
1116 if (p->func) {
1117 p->func(pDisplay, p);
1120 break;
1122 case OME_INT16:
1123 if (IS_READONLY(p)) {
1124 break;
1126 if (p->data) {
1127 const OSD_INT16_t *ptr = p->data;
1128 if (key == CMS_KEY_RIGHT) {
1129 if (*ptr->val < ptr->max)
1130 *ptr->val += ptr->step;
1131 } else {
1132 if (*ptr->val > ptr->min)
1133 *ptr->val -= ptr->step;
1135 SET_PRINTVALUE(p, currentCtx.cursorRow);
1136 if (p->func) {
1137 p->func(pDisplay, p);
1140 break;
1142 case OME_Setting:
1143 if (p->data) {
1144 const OSD_SETTING_t *ptr = p->data;
1145 const setting_t *var = settingGet(ptr->val);
1146 setting_min_t min = settingGetMin(var);
1147 setting_max_t max = settingGetMax(var);
1148 float step = ptr->step ?: 1;
1149 if (key != CMS_KEY_RIGHT) {
1150 step = -step;
1152 const void *valuePointer = settingGetValuePointer(var);
1153 switch (SETTING_TYPE(var)) {
1154 case VAR_UINT8:
1156 uint8_t val = *(uint8_t *)valuePointer;
1157 val = MIN(MAX(val + step, (uint8_t)min), (uint8_t)max);
1158 *(uint8_t *)valuePointer = val;
1159 break;
1161 case VAR_INT8:
1163 int8_t val = *(int8_t *)valuePointer;
1164 val = MIN(MAX(val + step, (int8_t)min), (int8_t)max);
1165 *(int8_t *)valuePointer = val;
1166 break;
1168 case VAR_UINT16:
1170 uint16_t val = *(uint16_t *)valuePointer;
1171 val = MIN(MAX(val + step, (uint16_t)min), (uint16_t)max);
1172 *(uint16_t *)valuePointer = val;
1173 break;
1175 case VAR_INT16:
1177 int16_t val = *(int16_t *)valuePointer;
1178 val = MIN(MAX(val + step, (int16_t)min), (int16_t)max);
1179 *(int16_t *)valuePointer = val;
1180 break;
1182 case VAR_UINT32:
1184 uint32_t val = *(uint32_t *)valuePointer;
1185 val = MIN(MAX(val + step, (uint32_t)min), (uint32_t)max);
1186 *(uint32_t *)valuePointer = val;
1187 break;
1189 case VAR_FLOAT:
1191 float val = *(float *)valuePointer;
1192 val = MIN(MAX(val + step, (float)min), (float)max);
1193 *(float *)valuePointer = val;
1194 break;
1196 case VAR_STRING:
1197 break;
1199 SET_PRINTVALUE(p, currentCtx.cursorRow);
1200 if (p->func) {
1201 p->func(pDisplay, p);
1204 break;
1206 case OME_String:
1207 break;
1209 case OME_Label:
1210 case OME_LabelFunc:
1211 case OME_END:
1212 break;
1214 case OME_MENU:
1215 // Shouldn't happen
1216 break;
1218 return res;
1221 void cmsSetExternKey(cms_key_e extKey)
1223 if (externKey == CMS_KEY_NONE)
1224 externKey = extKey;
1227 uint16_t cmsHandleKeyWithRepeat(displayPort_t *pDisplay, uint8_t key,
1228 int repeatCount)
1230 uint16_t ret = 0;
1232 for (int i = 0; i < repeatCount; i++) {
1233 ret = cmsHandleKey(pDisplay, key);
1236 return ret;
1239 static uint16_t cmsScanKeys(timeMs_t currentTimeMs, timeMs_t lastCalledMs, int16_t rcDelayMs)
1241 static int holdCount = 1;
1242 static int repeatCount = 1;
1243 static int repeatBase = 0;
1246 // Scan 'key' first
1249 uint8_t key = CMS_KEY_NONE;
1251 if (externKey != CMS_KEY_NONE) {
1252 rcDelayMs = cmsHandleKey(pCurrentDisplay, externKey);
1253 externKey = CMS_KEY_NONE;
1254 } else {
1255 if (IS_MID(THROTTLE) && IS_LO(YAW) && IS_HI(PITCH) && !ARMING_FLAG(ARMED)) {
1256 key = CMS_KEY_MENU;
1257 } else if (IS_HI(PITCH)) {
1258 key = CMS_KEY_UP;
1259 } else if (IS_LO(PITCH)) {
1260 key = CMS_KEY_DOWN;
1261 } else if (IS_LO(ROLL)) {
1262 key = CMS_KEY_LEFT;
1263 } else if (IS_HI(ROLL)) {
1264 key = CMS_KEY_RIGHT;
1265 } else if (IS_LO(YAW)) {
1266 key = CMS_KEY_ESC;
1267 } else if (IS_HI(YAW)) {
1268 key = CMS_KEY_SAVEMENU;
1271 if (key == CMS_KEY_NONE) {
1272 // No 'key' pressed, reset repeat control
1273 holdCount = 1;
1274 repeatCount = 1;
1275 repeatBase = 0;
1276 } else {
1277 // The 'key' is being pressed; keep counting
1278 ++holdCount;
1281 if (rcDelayMs > 0) {
1282 rcDelayMs -= (currentTimeMs - lastCalledMs);
1283 } else if (key) {
1284 rcDelayMs = cmsHandleKeyWithRepeat(pCurrentDisplay, key,
1285 repeatCount);
1287 // Key repeat effect is implemented in two phases.
1288 // First phldase is to decrease rcDelayMs reciprocal to hold time.
1289 // When rcDelayMs reached a certain limit (scheduling interval),
1290 // repeat rate will not raise anymore, so we call key handler
1291 // multiple times (repeatCount).
1293 // XXX Caveat: Most constants are adjusted pragmatically.
1294 // XXX Rewrite this someday, so it uses actual hold time instead
1295 // of holdCount, which depends on the scheduling interval.
1297 if (((key == CMS_KEY_LEFT) || (key == CMS_KEY_RIGHT)) && (holdCount > 20)) {
1299 // Decrease rcDelayMs reciprocally
1301 rcDelayMs /= (holdCount - 20);
1303 // When we reach the scheduling limit,
1305 if (rcDelayMs <= 50) {
1307 // start calling handler multiple times.
1309 if (repeatBase == 0)
1310 repeatBase = holdCount;
1312 if (holdCount < 100) {
1313 repeatCount = repeatCount
1314 + (holdCount - repeatBase) / 5;
1316 if (repeatCount > 5) {
1317 repeatCount = 5;
1319 } else {
1320 repeatCount = repeatCount + holdCount - repeatBase;
1322 if (repeatCount > 50) {
1323 repeatCount = 50;
1330 return rcDelayMs;
1333 void cmsUpdate(uint32_t currentTimeUs)
1335 #ifdef USE_RCDEVICE
1336 if(rcdeviceInMenu) {
1337 return ;
1339 #endif
1341 static int16_t rcDelayMs = BUTTON_TIME;
1343 static timeMs_t lastCalledMs = 0;
1344 static uint32_t lastCmsHeartBeatMs = 0;
1346 const timeMs_t currentTimeMs = currentTimeUs / 1000;
1348 if (!cmsInMenu) {
1349 // Detect menu invocation
1350 if (IS_MID(THROTTLE) && IS_LO(YAW) && IS_HI(PITCH) && !ARMING_FLAG(ARMED)) {
1351 cmsMenuOpen();
1352 rcDelayMs = BUTTON_PAUSE; // Tends to overshoot if BUTTON_TIME
1354 } else {
1355 displayBeginTransaction(pCurrentDisplay, DISPLAY_TRANSACTION_OPT_RESET_DRAWING);
1357 // Check if we're yielding and its's time to stop it
1358 if (cmsYieldUntil > 0 && currentTimeMs > cmsYieldUntil) {
1359 cmsYieldUntil = 0;
1360 displayGrab(pCurrentDisplay);
1361 displayClearScreen(pCurrentDisplay);
1364 // Only scan keys and draw if we're not yielding
1365 if (cmsYieldUntil == 0) {
1366 // XXX: Note that one call to cmsScanKeys() might generate multiple keypresses
1367 // when repeating, that's why cmsYieldDisplay() has to check for multiple calls.
1368 rcDelayMs = cmsScanKeys(currentTimeMs, lastCalledMs, rcDelayMs);
1369 // Check again, the keypress might have produced a yield
1370 if (cmsYieldUntil == 0) {
1371 cmsDrawMenu(pCurrentDisplay, currentTimeUs);
1375 if (currentTimeMs > lastCmsHeartBeatMs + 500) {
1376 // Heart beat for external CMS display device @ 500msec
1377 // (Timeout @ 1000msec)
1378 displayHeartbeat(pCurrentDisplay);
1379 lastCmsHeartBeatMs = currentTimeMs;
1381 displayCommitTransaction(pCurrentDisplay);
1384 // Some key (command), notably flash erase, takes too long to use the
1385 // currentTimeMs to be used as lastCalledMs (freezes CMS for a minute or so
1386 // if used).
1387 lastCalledMs = millis();
1390 void cmsHandler(timeUs_t currentTimeUs)
1392 if (cmsDeviceCount < 0)
1393 return;
1395 static timeUs_t lastCalledUs = 0;
1397 if (currentTimeUs >= lastCalledUs + CMS_UPDATE_INTERVAL_US) {
1398 lastCalledUs = currentTimeUs;
1399 cmsUpdate(currentTimeUs);
1403 void cmsInit(void)
1405 cmsDeviceCount = 0;
1406 cmsCurrentDevice = -1;
1409 #endif // CMS