unleashed-firmware/applications/services/notification/notification_app.c
あく 4d985ba8f8
Storage: remove LFS (#3577)
* Storage: drop internal storage

* Storage: rollback some unnecessary changes

* Storage: rollback some unnecessary changes part 2

* Storage: cleanup various defines and int handling. Ble: allow short connection interval if internal flash is not used.

* Storage: do not return storage if it is not ready

* Save PIN code to RTC, update settings

* Simplify the code, clean up includes

* Rearrange some code

* apps: storage_move_to_sd: conditionally enable with --extra-define=STORAGE_INT_ON_LFS

* Load Desktop settings automatically

* Redirect /any to /ext

* Abolish storage_move_to_sd app

* Remove as many mentions of ANY_PATH as possible

* Fix desktop settings wrongly not loading

* Improve desktop settings handling and strings

* Load BLE settings and keys automatically

* Improve BLE configuration procedure

* Do not load bluetooth keys twice if they were already loaded

* Load dolphin state automatically

* Fix merge artifact

* Load notification settings automatically

* Update desktop settings strings

* Load expansion settings automatically

* Do not use thread signals to reload desktop settings

* Load region data automatically, separate to its own hook

* Improve ble behaviour with no keys

* Fix Dolphin state not resetting correctly

* Add a status check

* Make Desktop save its own settings

* Check result when taking and releasing mutex

* Improve default thread signal handling in FuriEventLoop

* Make bt service in charge of saving settings, add settings api

* Fix a deadlock due to timer thread not receiving time

* Lock core2 when reinitialising bt

* Update clang-format

* Revert "Update clang-format"

This reverts commit d61295ac063c6ec879375ceeab54d6ff2c90a9a1.

* Format sources with clang-format

* Revert old stack size for desktop settings

* Allocate big struct dynamically

* Simplify PIN comparison

* Save pointer to storage in Desktop object

* Fix region provisioning for hardware regions

* Remove stale TODO + siimplify code

* Clean up region.c

* Use sizeof instead of macro define

* Limit PIN length to 10 for consistency

* Emit a warning upon usage of /any

* Add delay after finding flipper

* Remove unnecessary delay

* Remove all mentions of STORAGE_INT_ON_LFS

* Remove littlefs and internal storage

* Remove all possible LittleFS mentions

* Fix browser tab in Archive

* Ble: fix connection interval explanation

* Bump API Symbols

* BLE: Update comments interval connection comments

* Storage: clear FuriHalRtcFlagStorageFormatInternal if set

---------

Co-authored-by: Georgii Surkov <georgii.surkov@outlook.com>
Co-authored-by: hedger <hedger@nanode.su>
Co-authored-by: Georgii Surkov <37121527+gsurkov@users.noreply.github.com>
2024-08-04 10:54:02 +01:00

631 lines
22 KiB
C

#include <furi_hal_light.h>
#include <furi.h>
#include <furi_hal.h>
#include <storage/storage.h>
#include <input/input.h>
#include <gui/gui_i.h>
#include <u8g2_glue.h>
#include <lib/toolbox/float_tools.h>
#include "notification.h"
#include "notification_messages.h"
#include "notification_app.h"
#define TAG "NotificationSrv"
static const uint8_t minimal_delay = 100;
static const uint8_t led_off_values[NOTIFICATION_LED_COUNT] = {0x00, 0x00, 0x00};
static const uint8_t reset_red_mask = 1 << 0;
static const uint8_t reset_green_mask = 1 << 1;
static const uint8_t reset_blue_mask = 1 << 2;
static const uint8_t reset_vibro_mask = 1 << 3;
static const uint8_t reset_sound_mask = 1 << 4;
static const uint8_t reset_display_mask = 1 << 5;
static const uint8_t reset_blink_mask = 1 << 6;
static void notification_vibro_on(bool force);
static void notification_vibro_off(void);
static void notification_sound_on(float freq, float volume, bool force);
static void notification_sound_off(void);
static uint8_t notification_settings_get_display_brightness(NotificationApp* app, uint8_t value);
static uint8_t notification_settings_get_rgb_led_brightness(NotificationApp* app, uint8_t value);
static uint32_t notification_settings_display_off_delay_ticks(NotificationApp* app);
void notification_message_save_settings(NotificationApp* app) {
NotificationAppMessage m = {
.type = SaveSettingsMessage, .back_event = furi_event_flag_alloc()};
furi_check(furi_message_queue_put(app->queue, &m, FuriWaitForever) == FuriStatusOk);
furi_event_flag_wait(
m.back_event, NOTIFICATION_EVENT_COMPLETE, FuriFlagWaitAny, FuriWaitForever);
furi_event_flag_free(m.back_event);
}
// internal layer
static void
notification_apply_internal_led_layer(NotificationLedLayer* layer, uint8_t layer_value) {
furi_assert(layer);
furi_assert(layer->index < LayerMAX);
// set value
layer->value[LayerInternal] = layer_value;
// apply if current layer is internal
if(layer->index == LayerInternal) {
furi_hal_light_set(layer->light, layer->value[LayerInternal]);
}
}
static void notification_apply_lcd_contrast(NotificationApp* app) {
Gui* gui = furi_record_open(RECORD_GUI);
u8x8_d_st756x_set_contrast(&gui->canvas->fb.u8x8, app->settings.contrast);
furi_record_close(RECORD_GUI);
}
static bool notification_is_any_led_layer_internal_and_not_empty(NotificationApp* app) {
bool result = false;
if((app->led[0].index == LayerInternal) || (app->led[1].index == LayerInternal) ||
(app->led[2].index == LayerInternal)) {
if((app->led[0].value[LayerInternal] != 0x00) ||
(app->led[1].value[LayerInternal] != 0x00) ||
(app->led[2].value[LayerInternal] != 0x00)) {
result = true;
}
}
return result;
}
// notification layer
static void notification_apply_notification_led_layer(
NotificationLedLayer* layer,
const uint8_t layer_value) {
furi_assert(layer);
furi_assert(layer->index < LayerMAX);
// set value
layer->index = LayerNotification;
// set layer
layer->value[LayerNotification] = layer_value;
// apply
furi_hal_light_set(layer->light, layer->value[LayerNotification]);
}
static void notification_reset_notification_led_layer(NotificationLedLayer* layer) {
furi_assert(layer);
furi_assert(layer->index < LayerMAX);
// set value
layer->value[LayerNotification] = 0;
// set layer
layer->index = LayerInternal;
// apply
furi_hal_light_set(layer->light, layer->value[LayerInternal]);
}
static void notification_reset_notification_layer(
NotificationApp* app,
uint8_t reset_mask,
float display_brightness_set) {
if(reset_mask & reset_blink_mask) {
furi_hal_light_blink_stop();
}
if(reset_mask & reset_red_mask) {
notification_reset_notification_led_layer(&app->led[0]);
}
if(reset_mask & reset_green_mask) {
notification_reset_notification_led_layer(&app->led[1]);
}
if(reset_mask & reset_blue_mask) {
notification_reset_notification_led_layer(&app->led[2]);
}
if(reset_mask & reset_vibro_mask) {
notification_vibro_off();
}
if(reset_mask & reset_sound_mask) {
notification_sound_off();
}
if(reset_mask & reset_display_mask) {
if(!float_is_equal(display_brightness_set, app->settings.display_brightness)) {
furi_hal_light_set(LightBacklight, app->settings.display_brightness * 0xFF);
}
furi_timer_start(app->display_timer, notification_settings_display_off_delay_ticks(app));
}
}
static void notification_apply_notification_leds(NotificationApp* app, const uint8_t* values) {
for(uint8_t i = 0; i < NOTIFICATION_LED_COUNT; i++) {
notification_apply_notification_led_layer(
&app->led[i], notification_settings_get_rgb_led_brightness(app, values[i]));
}
}
// settings
uint8_t notification_settings_get_display_brightness(NotificationApp* app, uint8_t value) {
return value * app->settings.display_brightness;
}
static uint8_t notification_settings_get_rgb_led_brightness(NotificationApp* app, uint8_t value) {
return value * app->settings.led_brightness;
}
static uint32_t notification_settings_display_off_delay_ticks(NotificationApp* app) {
return (float)(app->settings.display_off_delay_ms) /
(1000.0f / furi_kernel_get_tick_frequency());
}
// generics
static void notification_vibro_on(bool force) {
if(!furi_hal_rtc_is_flag_set(FuriHalRtcFlagStealthMode) || force) {
furi_hal_vibro_on(true);
}
}
static void notification_vibro_off(void) {
furi_hal_vibro_on(false);
}
static void notification_sound_on(float freq, float volume, bool force) {
if(!furi_hal_rtc_is_flag_set(FuriHalRtcFlagStealthMode) || force) {
if(furi_hal_speaker_is_mine() || furi_hal_speaker_acquire(30)) {
furi_hal_speaker_start(freq, volume);
}
}
}
static void notification_sound_off(void) {
if(furi_hal_speaker_is_mine()) {
furi_hal_speaker_stop();
furi_hal_speaker_release();
}
}
// display timer
static void notification_display_timer(void* ctx) {
furi_assert(ctx);
NotificationApp* app = ctx;
notification_message(app, &sequence_display_backlight_off);
}
// message processing
static void notification_process_notification_message(
NotificationApp* app,
NotificationAppMessage* message) {
uint32_t notification_message_index = 0;
bool force_volume = false;
bool force_vibro = false;
const NotificationMessage* notification_message;
notification_message = (*message->sequence)[notification_message_index];
bool led_active = false;
uint8_t led_values[NOTIFICATION_LED_COUNT] = {0x00, 0x00, 0x00};
bool reset_notifications = true;
float speaker_volume_setting = app->settings.speaker_volume;
bool vibro_setting = app->settings.vibro_on;
float display_brightness_setting = app->settings.display_brightness;
uint8_t reset_mask = 0;
while(notification_message != NULL) {
switch(notification_message->type) {
case NotificationMessageTypeLedDisplayBacklight:
// if on - switch on and start timer
// if off - switch off and stop timer
// on timer - switch off
if(notification_message->data.led.value > 0x00) {
notification_apply_notification_led_layer(
&app->display,
notification_message->data.led.value * display_brightness_setting);
reset_mask |= reset_display_mask;
} else {
reset_mask &= ~reset_display_mask;
notification_reset_notification_led_layer(&app->display);
if(furi_timer_is_running(app->display_timer)) {
furi_timer_stop(app->display_timer);
}
}
break;
case NotificationMessageTypeLedDisplayBacklightEnforceOn:
furi_check(app->display_led_lock < UINT8_MAX);
app->display_led_lock++;
if(app->display_led_lock == 1) {
notification_apply_internal_led_layer(
&app->display,
notification_message->data.led.value * display_brightness_setting);
}
break;
case NotificationMessageTypeLedDisplayBacklightEnforceAuto:
if(app->display_led_lock > 0) {
app->display_led_lock--;
if(app->display_led_lock == 0) {
notification_apply_internal_led_layer(
&app->display,
notification_message->data.led.value * display_brightness_setting);
}
} else {
FURI_LOG_E(TAG, "Incorrect BacklightEnforce use");
}
break;
case NotificationMessageTypeLedRed:
// store and send on delay or after seq
led_active = true;
led_values[0] = notification_message->data.led.value;
app->led[0].value_last[LayerNotification] = led_values[0];
reset_mask |= reset_red_mask;
break;
case NotificationMessageTypeLedGreen:
// store and send on delay or after seq
led_active = true;
led_values[1] = notification_message->data.led.value;
app->led[1].value_last[LayerNotification] = led_values[1];
reset_mask |= reset_green_mask;
break;
case NotificationMessageTypeLedBlue:
// store and send on delay or after seq
led_active = true;
led_values[2] = notification_message->data.led.value;
app->led[2].value_last[LayerNotification] = led_values[2];
reset_mask |= reset_blue_mask;
break;
case NotificationMessageTypeLedBlinkStart:
// store and send on delay or after seq
led_active = true;
furi_hal_light_blink_start(
notification_message->data.led_blink.color,
app->settings.led_brightness * 255,
notification_message->data.led_blink.on_time,
notification_message->data.led_blink.period);
reset_mask |= reset_blink_mask;
reset_mask |= reset_red_mask;
reset_mask |= reset_green_mask;
reset_mask |= reset_blue_mask;
break;
case NotificationMessageTypeLedBlinkColor:
led_active = true;
furi_hal_light_blink_set_color(notification_message->data.led_blink.color);
break;
case NotificationMessageTypeLedBlinkStop:
furi_hal_light_blink_stop();
reset_mask &= ~reset_blink_mask;
reset_mask |= reset_red_mask;
reset_mask |= reset_green_mask;
reset_mask |= reset_blue_mask;
break;
case NotificationMessageTypeVibro:
if(notification_message->data.vibro.on) {
if(vibro_setting) notification_vibro_on(force_vibro);
} else {
notification_vibro_off();
}
reset_mask |= reset_vibro_mask;
break;
case NotificationMessageTypeSoundOn:
notification_sound_on(
notification_message->data.sound.frequency,
notification_message->data.sound.volume * speaker_volume_setting,
force_volume);
reset_mask |= reset_sound_mask;
break;
case NotificationMessageTypeSoundOff:
notification_sound_off();
reset_mask |= reset_sound_mask;
break;
case NotificationMessageTypeDelay:
if(led_active) {
if(notification_is_any_led_layer_internal_and_not_empty(app)) {
notification_apply_notification_leds(app, led_off_values);
furi_delay_ms(minimal_delay);
}
led_active = false;
notification_apply_notification_leds(app, led_values);
reset_mask |= reset_red_mask;
reset_mask |= reset_green_mask;
reset_mask |= reset_blue_mask;
}
furi_delay_ms(notification_message->data.delay.length);
break;
case NotificationMessageTypeDoNotReset:
reset_notifications = false;
break;
case NotificationMessageTypeForceSpeakerVolumeSetting:
speaker_volume_setting = notification_message->data.forced_settings.speaker_volume;
force_volume = true;
break;
case NotificationMessageTypeForceVibroSetting:
vibro_setting = notification_message->data.forced_settings.vibro;
force_vibro = true;
break;
case NotificationMessageTypeForceDisplayBrightnessSetting:
display_brightness_setting =
notification_message->data.forced_settings.display_brightness;
break;
case NotificationMessageTypeLedBrightnessSettingApply:
led_active = true;
for(uint8_t i = 0; i < NOTIFICATION_LED_COUNT; i++) {
led_values[i] = app->led[i].value_last[LayerNotification];
}
reset_mask |= reset_red_mask;
reset_mask |= reset_green_mask;
reset_mask |= reset_blue_mask;
break;
case NotificationMessageTypeLcdContrastUpdate:
notification_apply_lcd_contrast(app);
break;
}
notification_message_index++;
notification_message = (*message->sequence)[notification_message_index];
};
// send and do minimal delay
if(led_active) {
bool need_minimal_delay = false;
if(notification_is_any_led_layer_internal_and_not_empty(app)) {
need_minimal_delay = true;
}
notification_apply_notification_leds(app, led_values);
reset_mask |= reset_red_mask;
reset_mask |= reset_green_mask;
reset_mask |= reset_blue_mask;
if((need_minimal_delay) && (reset_notifications)) {
notification_apply_notification_leds(app, led_off_values);
furi_delay_ms(minimal_delay);
}
}
if(reset_notifications) {
notification_reset_notification_layer(app, reset_mask, display_brightness_setting);
}
}
static void
notification_process_internal_message(NotificationApp* app, NotificationAppMessage* message) {
uint32_t notification_message_index = 0;
const NotificationMessage* notification_message;
notification_message = (*message->sequence)[notification_message_index];
while(notification_message != NULL) {
switch(notification_message->type) {
case NotificationMessageTypeLedDisplayBacklight:
notification_apply_internal_led_layer(
&app->display,
notification_settings_get_display_brightness(
app, notification_message->data.led.value));
break;
case NotificationMessageTypeLedRed:
app->led[0].value_last[LayerInternal] = notification_message->data.led.value;
notification_apply_internal_led_layer(
&app->led[0],
notification_settings_get_rgb_led_brightness(
app, notification_message->data.led.value));
break;
case NotificationMessageTypeLedGreen:
app->led[1].value_last[LayerInternal] = notification_message->data.led.value;
notification_apply_internal_led_layer(
&app->led[1],
notification_settings_get_rgb_led_brightness(
app, notification_message->data.led.value));
break;
case NotificationMessageTypeLedBlue:
app->led[2].value_last[LayerInternal] = notification_message->data.led.value;
notification_apply_internal_led_layer(
&app->led[2],
notification_settings_get_rgb_led_brightness(
app, notification_message->data.led.value));
break;
case NotificationMessageTypeLedBrightnessSettingApply:
for(uint8_t i = 0; i < NOTIFICATION_LED_COUNT; i++) {
uint8_t new_val = notification_settings_get_rgb_led_brightness(
app, app->led[i].value_last[LayerInternal]);
notification_apply_internal_led_layer(&app->led[i], new_val);
}
break;
default:
break;
}
notification_message_index++;
notification_message = (*message->sequence)[notification_message_index];
}
}
static bool notification_load_settings(NotificationApp* app) {
NotificationSettings settings;
File* file = storage_file_alloc(furi_record_open(RECORD_STORAGE));
const size_t settings_size = sizeof(NotificationSettings);
FURI_LOG_I(TAG, "Loading \"%s\"", NOTIFICATION_SETTINGS_PATH);
bool fs_result =
storage_file_open(file, NOTIFICATION_SETTINGS_PATH, FSAM_READ, FSOM_OPEN_EXISTING);
if(fs_result) {
size_t bytes_count = storage_file_read(file, &settings, settings_size);
if(bytes_count != settings_size) {
fs_result = false;
}
}
if(fs_result) {
if(settings.version != NOTIFICATION_SETTINGS_VERSION) {
FURI_LOG_E(
TAG, "version(%d != %d) mismatch", settings.version, NOTIFICATION_SETTINGS_VERSION);
} else {
furi_kernel_lock();
memcpy(&app->settings, &settings, settings_size);
furi_kernel_unlock();
}
} else {
FURI_LOG_E(TAG, "Load failed, %s", storage_file_get_error_desc(file));
}
storage_file_close(file);
storage_file_free(file);
furi_record_close(RECORD_STORAGE);
return fs_result;
}
static bool notification_save_settings(NotificationApp* app) {
NotificationSettings settings;
File* file = storage_file_alloc(furi_record_open(RECORD_STORAGE));
const size_t settings_size = sizeof(NotificationSettings);
FURI_LOG_I(TAG, "Saving \"%s\"", NOTIFICATION_SETTINGS_PATH);
furi_kernel_lock();
memcpy(&settings, &app->settings, settings_size);
furi_kernel_unlock();
bool fs_result =
storage_file_open(file, NOTIFICATION_SETTINGS_PATH, FSAM_WRITE, FSOM_CREATE_ALWAYS);
if(fs_result) {
size_t bytes_count = storage_file_write(file, &settings, settings_size);
if(bytes_count != settings_size) {
fs_result = false;
}
}
if(fs_result) {
} else {
FURI_LOG_E(TAG, "Save failed, %s", storage_file_get_error_desc(file));
}
storage_file_close(file);
storage_file_free(file);
furi_record_close(RECORD_STORAGE);
return fs_result;
}
static void input_event_callback(const void* value, void* context) {
furi_assert(value);
furi_assert(context);
NotificationApp* app = context;
notification_message(app, &sequence_display_backlight_on);
}
// App alloc
static NotificationApp* notification_app_alloc(void) {
NotificationApp* app = malloc(sizeof(NotificationApp));
app->queue = furi_message_queue_alloc(8, sizeof(NotificationAppMessage));
app->display_timer = furi_timer_alloc(notification_display_timer, FuriTimerTypeOnce, app);
app->settings.speaker_volume = 1.0f;
app->settings.display_brightness = 1.0f;
app->settings.led_brightness = 1.0f;
app->settings.display_off_delay_ms = 30000;
app->settings.vibro_on = true;
app->display.value[LayerInternal] = 0x00;
app->display.value[LayerNotification] = 0x00;
app->display.index = LayerInternal;
app->display.light = LightBacklight;
app->led[0].value[LayerInternal] = 0x00;
app->led[0].value[LayerNotification] = 0x00;
app->led[0].index = LayerInternal;
app->led[0].light = LightRed;
app->led[1].value[LayerInternal] = 0x00;
app->led[1].value[LayerNotification] = 0x00;
app->led[1].index = LayerInternal;
app->led[1].light = LightGreen;
app->led[2].value[LayerInternal] = 0x00;
app->led[2].value[LayerNotification] = 0x00;
app->led[2].index = LayerInternal;
app->led[2].light = LightBlue;
app->settings.version = NOTIFICATION_SETTINGS_VERSION;
// display backlight control
app->event_record = furi_record_open(RECORD_INPUT_EVENTS);
furi_pubsub_subscribe(app->event_record, input_event_callback, app);
notification_message(app, &sequence_display_backlight_on);
return app;
}
static void notification_storage_callback(const void* message, void* context) {
furi_assert(context);
NotificationApp* app = context;
const StorageEvent* event = message;
if(event->type == StorageEventTypeCardMount) {
NotificationAppMessage m = {
.type = LoadSettingsMessage,
};
furi_check(furi_message_queue_put(app->queue, &m, FuriWaitForever) == FuriStatusOk);
}
}
static void notification_apply_settings(NotificationApp* app) {
if(!notification_load_settings(app)) {
notification_save_settings(app);
}
notification_apply_lcd_contrast(app);
}
static void notification_init_settings(NotificationApp* app) {
Storage* storage = furi_record_open(RECORD_STORAGE);
furi_pubsub_subscribe(storage_get_pubsub(storage), notification_storage_callback, app);
if(storage_sd_status(storage) != FSE_OK) {
FURI_LOG_D(TAG, "SD Card not ready, skipping settings");
return;
}
notification_apply_settings(app);
}
// App
int32_t notification_srv(void* p) {
UNUSED(p);
NotificationApp* app = notification_app_alloc();
notification_init_settings(app);
notification_vibro_off();
notification_sound_off();
notification_apply_internal_led_layer(&app->display, 0x00);
notification_apply_internal_led_layer(&app->led[0], 0x00);
notification_apply_internal_led_layer(&app->led[1], 0x00);
notification_apply_internal_led_layer(&app->led[2], 0x00);
furi_record_create(RECORD_NOTIFICATION, app);
NotificationAppMessage message;
while(1) {
furi_check(furi_message_queue_get(app->queue, &message, FuriWaitForever) == FuriStatusOk);
switch(message.type) {
case NotificationLayerMessage:
notification_process_notification_message(app, &message);
break;
case InternalLayerMessage:
notification_process_internal_message(app, &message);
break;
case SaveSettingsMessage:
notification_save_settings(app);
break;
case LoadSettingsMessage:
notification_load_settings(app);
break;
}
if(message.back_event != NULL) {
furi_event_flag_set(message.back_event, NOTIFICATION_EVENT_COMPLETE);
}
}
return 0;
}