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FlipDetector.c
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/*
* About:
* The "Flip Detector" is ELF deamon for detect closed flip of Motorola clamshell phones and do some things.
*
* Author:
* EXL, WoiaW
*
* License:
* MIT
*
* Application type:
* Daemon
*/
#include <loader.h>
#include <apps.h>
#include <dl.h>
#include <dl_keypad.h>
#include <utilities.h>
#define KEY_LONG_PRESS_START_MS (500)
#define KEY_LONG_PRESS_STOP_MS (1500)
typedef enum {
APP_STATE_ANY,
APP_STATE_MAIN,
APP_STATE_MAX
} APP_STATE_T;
typedef enum {
APP_TIMER_EXIT = 0xE893
} APP_TIMER_T;
typedef struct {
APPLICATION_T app;
UINT64 ms_key_press_start;
BOOL is_flip_closed;
} APP_INSTANCE_T;
UINT32 Register(const char *elf_path_uri, const char *args, UINT32 ev_code);
static UINT32 ApplicationStart(EVENT_STACK_T *ev_st, REG_ID_T reg_id, void *reg_hdl);
static UINT32 ApplicationStop(EVENT_STACK_T *ev_st, APPLICATION_T *app);
static UINT32 HandleStateEnter(EVENT_STACK_T *ev_st, APPLICATION_T *app, ENTER_STATE_TYPE_T state);
static UINT32 HandleEventFlipOpen(EVENT_STACK_T *ev_st, APPLICATION_T *app);
static UINT32 HandleEventFlipClose(EVENT_STACK_T *ev_st, APPLICATION_T *app);
static UINT32 HandleEventKeyPress(EVENT_STACK_T *ev_st, APPLICATION_T *app);
static UINT32 HandleEventKeyRelease(EVENT_STACK_T *ev_st, APPLICATION_T *app);
static UINT32 HandleEventTimerExpired(EVENT_STACK_T *ev_st, APPLICATION_T *app);
static const char g_app_name[APP_NAME_LEN] = "FlipDetect";
static const UINT8 g_key_exit = KEY_0;
static const UINT8 g_key_smart = KEY_VOICE;
static const EVENT_HANDLER_ENTRY_T g_state_any_hdls[] = {
{ EV_FLIP_OPENED, HandleEventFlipOpen },
{ EV_FLIP_CLOSED, HandleEventFlipClose },
{ EV_KEY_PRESS, HandleEventKeyPress },
{ EV_KEY_RELEASE, HandleEventKeyRelease },
{ EV_TIMER_EXPIRED, HandleEventTimerExpired },
{ STATE_HANDLERS_END, NULL }
};
static const EVENT_HANDLER_ENTRY_T g_state_main_hdls[] = {
{ STATE_HANDLERS_END, NULL }
};
static const STATE_HANDLERS_ENTRY_T g_state_table_hdls[] = {
{ APP_STATE_ANY, NULL, NULL, g_state_any_hdls },
{ APP_STATE_MAIN, HandleStateEnter, NULL, g_state_main_hdls }
};
UINT32 Register(const char *elf_path_uri, const char *args, UINT32 ev_code) {
UINT32 status;
UINT32 ev_code_base;
ev_code_base = ev_code;
status = APP_Register(&ev_code_base, 1, g_state_table_hdls, APP_STATE_MAX, (void *) ApplicationStart);
LdrStartApp(ev_code_base);
return status;
}
static UINT32 ApplicationStart(EVENT_STACK_T *ev_st, REG_ID_T reg_id, void *reg_hdl) {
UINT32 status;
APP_INSTANCE_T *app_instance;
status = RESULT_FAIL;
if (AFW_InquireRoutingStackByRegId(reg_id) != RESULT_OK) {
app_instance = (APP_INSTANCE_T *) APP_InitAppData((void *) APP_HandleEventPrepost, sizeof(APP_INSTANCE_T),
reg_id, 0, 1, 1, 2, 0, 0);
app_instance->ms_key_press_start = 0ULL;
app_instance->is_flip_closed = FALSE;
status = APP_Start(ev_st, &app_instance->app, APP_STATE_MAIN,
g_state_table_hdls, ApplicationStop, g_app_name, 0);
}
return status;
}
static UINT32 ApplicationStop(EVENT_STACK_T *ev_st, APPLICATION_T *app) {
UINT32 status;
APP_ConsumeEv(ev_st, app);
status = APP_Exit(ev_st, app, 0);
LdrUnloadELF(&Lib);
return status;
}
static UINT32 HandleStateEnter(EVENT_STACK_T *ev_st, APPLICATION_T *app, ENTER_STATE_TYPE_T state) {
return RESULT_OK;
}
static UINT32 HandleEventFlipOpen(EVENT_STACK_T *ev_st, APPLICATION_T *app) {
UINT32 status;
APP_INSTANCE_T *app_instance;
status = RESULT_OK;
app_instance = (APP_INSTANCE_T *) app;
D("%s\n", "Flip Opened.");
app_instance->is_flip_closed = FALSE;
DL_DbFeatureStoreState(
(*(BEGIN_4A__IN_DB + 1) >> 16) | 0xD5 /* DL_DB_FEATURE_ID_MMA_MENU_VIEW */,
0x00 /* DL_DB_FEATURE_STATE_ENUM_MMA_MENU_VIEW_ICONS */
);
return status;
}
static UINT32 HandleEventFlipClose(EVENT_STACK_T *ev_st, APPLICATION_T *app) {
UINT32 status;
APP_INSTANCE_T *app_instance;
status = RESULT_OK;
app_instance = (APP_INSTANCE_T *) app;
D("%s\n", "Flip Closed.");
app_instance->is_flip_closed = TRUE;
DL_DbFeatureStoreState(
(*(BEGIN_4A__IN_DB + 1) >> 16) | 0xD5 /* DL_DB_FEATURE_ID_MMA_MENU_VIEW */,
0x01 /* DL_DB_FEATURE_STATE_ENUM_MMA_MENU_VIEW_LIST */
);
return status;
}
static UINT32 HandleEventKeyPress(EVENT_STACK_T *ev_st, APPLICATION_T *app) {
APP_INSTANCE_T *app_instance;
EVENT_T *event;
UINT8 key;
app_instance = (APP_INSTANCE_T *) app;
event = AFW_GetEv(ev_st);
key = event->data.key_pressed;
D("%s %d.\n", "Key Pressed: ", key);
if (key == g_key_exit || key == g_key_smart) {
app_instance->ms_key_press_start = suPalTicksToMsec(suPalReadTime());
}
if (app_instance->is_flip_closed) {
if (key == g_key_smart) {
APP_ConsumeEv(ev_st, app);
}
}
return RESULT_OK;
}
static UINT32 HandleEventKeyRelease(EVENT_STACK_T *ev_st, APPLICATION_T *app) {
APP_INSTANCE_T *app_instance;
EVENT_T *event;
UINT8 key;
UINT32 ms_key_release_stop;
app_instance = (APP_INSTANCE_T *) app;
event = AFW_GetEv(ev_st);
key = event->data.key_pressed;
D("%s %d.\n", "Key Released: ", key);
if (key == g_key_exit) {
/*
* Detect long key press between 500 ms (0.5 s) and 1500 ms (1.5 s) and ignore rest.
*/
ms_key_release_stop = (UINT32) (suPalTicksToMsec(suPalReadTime()) - app_instance->ms_key_press_start);
if ((ms_key_release_stop >= KEY_LONG_PRESS_START_MS) && (ms_key_release_stop <= KEY_LONG_PRESS_STOP_MS)) {
APP_UtilStartTimer(100, APP_TIMER_EXIT, app);
}
} else if (key == g_key_smart && app_instance->is_flip_closed) {
/*
* Detect long key press between 500 ms (0.5 s) and 1500 ms (1.5 s) and ignore rest.
*/
ms_key_release_stop = (UINT32) (suPalTicksToMsec(suPalReadTime()) - app_instance->ms_key_press_start);
if ((ms_key_release_stop >= KEY_LONG_PRESS_START_MS) && (ms_key_release_stop <= KEY_LONG_PRESS_STOP_MS)) {
/* HACK: Inject keypress for long smart key event. */
D("%s %d.\n", "Long key released: ", key);
DL_KeyInjectKeyPress(KEY_SOFT_LEFT, KEY_PRESS, KEY_PORTABLE_ID);
DL_KeyInjectKeyPress(KEY_SOFT_LEFT, KEY_RELEASE, KEY_PORTABLE_ID);
} else {
/* HACK: Inject keypress for short smart key event. */
D("%s %d.\n", "Short key released: ", key);
DL_KeyInjectKeyPress(KEY_JOY_OK, KEY_PRESS, KEY_PORTABLE_ID);
DL_KeyInjectKeyPress(KEY_JOY_OK, KEY_RELEASE, KEY_PORTABLE_ID);
}
}
return RESULT_OK;
}
static UINT32 HandleEventTimerExpired(EVENT_STACK_T *ev_st, APPLICATION_T *app) {
EVENT_T *event;
APP_TIMER_T timer_id;
event = AFW_GetEv(ev_st);
timer_id = ((DL_TIMER_DATA_T *) event->attachment)->ID;
if (timer_id == APP_TIMER_EXIT) {
/* Play an exit sound using quiet speaker. */
DL_AudPlayTone(0x00, 0xFF);
/* Exit App! */
return ApplicationStop(ev_st, app);
}
return RESULT_OK;
}