Status_t Do_IR_Debug(Cmd_Tbl_t *Cmd_Tbl, uint32 flag, uint32 argc, char *argv[])
{
FuncIN(DO_IR_DEBUG);
if(argc > 0)
{
switch(atoi(argv[0]))
{
case 0:
IR_Received_Debug_Set_State(DISABLE);
printcmd("\r # IR Received sequence debug Disabled!\n");
break;
case 1:
printcmd("\r # IR Received sequence debug Enabled!\n");
IR_Received_Debug_Set_State(ENABLE);
break;
default:
EXIT_FUNC(CMD_INVALID_ARGUMENT, DO_IR_DEBUG);
} // switch(argv[0])
}
else
EXIT_FUNC(CMD_MISSING_ARGUMENT, DO_IR_DEBUG);
EXIT_SUCCESS_FUNC(DO_IR_DEBUG);
}
void foo(void)
{
ENTER_FUNC();
static int z = 350;
int q = 450;
if (!kitsune_is_updating()) {
y = 202;
z = 302;
q = 402;
}
NOTE_AND_MIGRATE_STATIC(y);
NOTE_AND_MIGRATE_LOCAL_STATIC(foo, z);
NOTE_AND_MIGRATE_LOCAL(q);
if (kitsune_is_updating()) {
assert(y == 207);
assert(z == 307);
assert(q == 407);
printf("Sucesss...\n");
}
kitsune_update("test");
EXIT_FUNC();
return;
}
void Task2(void *arg)
{
//printf("parameter: %d\n", *(int*)arg);
int i=50;
ENTER_FUNC();
while (i--) {
printf("This is %s\n", FUNC_NAME);
SLEEP(2);
}
EXIT_FUNC();
}
static int mt_golden_setting_init(void)
{
#if defined(CONFIG_MT_ENG_BUILD)
#define GOLDEN_SETTING_BUF_SIZE (2 * PAGE_SIZE)
unsigned int *buf;
buf = kmalloc(GOLDEN_SETTING_BUF_SIZE, GFP_KERNEL);
if (NULL != buf) {
_golden_setting_init(&_golden, buf, GOLDEN_SETTING_BUF_SIZE);
#ifdef CONFIG_OF
_golden.phy_base = 0;
_golden.io_base = 0;
#endif
{
struct proc_dir_entry *dir = NULL;
int i;
const struct {
const char *name;
const struct file_operations *fops;
} entries[] = {
PROC_ENTRY(golden_test),
};
dir = proc_mkdir("golden", NULL);
if (!dir) {
clk_err("[%s]: fail to mkdir /proc/golden\n", __func__);
EXIT_FUNC(FUNC_LV_API);
return -ENOMEM;
}
for (i = 0; i < ARRAY_SIZE(entries); i++) {
if (!proc_create(entries[i].name, S_IRUGO | S_IWUSR | S_IWGRP, dir, entries[i].fops))
clk_err("[%s]: fail to mkdir /proc/golden/%s\n", __func__, entries[i].name);
}
}
}
#endif // CONFIG_MT_ENG_BUILD
return 0;
}
/*******************************************************************************
* Function for register delayed work function
* @uint32 Delay: Delay value micro seconds
* @void (*)(void *) Callback: Work function callback. This function is
* called in interrupt context.
* This function must have '__arm' flag!
******************************************************************************/
Status_t Delay_Work(const uint32 Delay, void (*Callback)(void *))
{
FuncIN(DELAY_WORK);
Status_t Status;
int i;
uint32 AbsDelay;
ASSERT(Callback != NULL, -INVALID_INPUT_POINTER);
__disable_interrupt();
AbsDelay = DELAY_TIMER_GET_COUNTER() + Delay;
if(AbsDelay > DELAY_TIMER_RESET_VALUE)
AbsDelay -= DELAY_TIMER_RESET_VALUE;
for(i = 0; i < DELAY_WORK_BUFFER_SIZE; i++)
{
if(DelayWork[i].Callback == NULL)
{
DelayWork[i].Delay = Delay;
DelayWork[i].AbsDelay = AbsDelay;
DelayWork[i].Callback = Callback;
break;
}
}
if(i == DELAY_WORK_BUFFER_SIZE)
{
__enable_interrupt();
EXIT_FUNC(DELAY_QUEUE_FULL , DELAY_WORK);
}
qsort(DelayWork, DELAY_WORK_BUFFER_SIZE, sizeof(DelayWork_t), Compare_DelayWork);
Status = Delay_Timer_Set_Match_0(DelayWork[0].AbsDelay, Delay_ISR);
__enable_interrupt();
VERIFY(Status, Status);
EXIT_SUCCESS_FUNC(DELAY_WORK);
}
Status_t Do_Time(Cmd_Tbl_t *Cmd_Tbl, uint32 flag, uint32 argc, char *argv[])
{
FuncIN(DO_TIME);
char String[32] = {0};
RtcTime_t Time;
RTC_Get_Time(&Time);
if(argc > 0)
{
if(strstr(argv[0], "-a") != NULL)
ASSERT(SUCCESS == Format_Time(2, &Time, String), -RTC_GENERAL_ERROR);
else
EXIT_FUNC(CMD_INVALID_ARGUMENT, DO_TIME);
}
else
ASSERT(SUCCESS == Format_Time(1, &Time, String), -RTC_GENERAL_ERROR);
printcmd("\r # %s\n", String);
EXIT_SUCCESS_FUNC(DO_TIME);
}
Status_t Do_Try_Read_Time_Response_Cmd(char *argv, TimeAlarm_t *TimeAlarm_p)
{
FuncIN(DO_TRY_READ_TIME_RESPONSE_CMD);
ASSERT(argv != NULL, -INVALID_INPUT_POINTER);
ASSERT(TimeAlarm_p != NULL, -INVALID_INPUT_POINTER);
char *CommandString = NULL;
int i;
CommandString = strstr(argv, "response=");
if(CommandString != NULL)
{
TimeAlarm_p -> Callback = NULL;
CMD_TIMEA_DEBUG(printcmd("\r # (%s) 'response' found!\n", __func__));
for(i = 0; AlarmResponse[i].String != NULL; i++)
{
if(!strcmp(AlarmResponse[i].String, CommandString + 9))
{
TimeAlarm_p -> Callback = AlarmResponse[i].Callback;
CMD_TIMEA_DEBUG(printcmd("\r # (%s) 'response' matched to '%s'\n",
__func__, AlarmResponse[i].String));
}
}
if(TimeAlarm_p -> Callback == NULL)
{
printcmd(" # Invalid 'response' parameter!\n");
EXIT_FUNC(CMD_INVALID_ARGUMENT, DO_TRY_READ_TIME_RESPONSE_CMD);
}
} // if(CommandString != NULL)
EXIT_SUCCESS_FUNC(DO_TRY_READ_TIME_RESPONSE_CMD);
}
static int golden_test_proc_write(struct file *file, const char __user *buffer, size_t count, loff_t *pos)
{
char *buf = _copy_from_user_for_proc(buffer, count);
char cmd[64];
unsigned int addr;
unsigned int mask;
unsigned int golden_val;
ENTER_FUNC(FUNC_LV_BODY);
// set golden setting (hex mode)
if (sscanf(buf, "0x%x 0x%x 0x%x", &addr, &mask, &golden_val) == 3)
_golden_setting_add(&_golden, addr, mask, golden_val);
// set golden setting (dec mode)
else if (sscanf(buf, "%d %d %d", &addr, &mask, &golden_val) == 3)
_golden_setting_add(&_golden, addr, mask, golden_val);
// set filter (func + line)
else if (sscanf(buf, "filter %63s %d", _golden.func, &_golden.line) == 2) { // XXX: 63 = sizeof(_golden.func) - 1
}
// set filter (func)
else if (sscanf(buf, "filter %63s", _golden.func) == 1) // XXX: 63 = sizeof(_golden.func) - 1
_golden.line = 0;
// set golden setting (mixed mode)
else if (sscanf(buf, "0x%x 0b%63s", &addr, cmd) == 2) { // XXX: 63 = sizeof(cmd) - 1
if (!_parse_mask_val(cmd, &mask, &golden_val))
_golden_setting_add(&_golden, addr, mask, golden_val);
}
// set reg value (mask mode)
else if (sscanf(buf, "set 0x%x 0x%x 0x%x", &addr, &mask, &golden_val) == 3)
_golden_write_reg(addr, mask, golden_val);
// set reg value (bit mode)
else if (sscanf(buf, "set 0x%x %d %d", &addr, &mask, &golden_val) == 3) {
if (0 <= mask && mask <= 31) { // XXX: mask is bit number (alias)
golden_val = (golden_val & BIT(0)) << mask;
mask = BIT(0) << mask;
_golden_write_reg(addr, mask, golden_val);
}
}
// set reg value (normal mode)
else if (sscanf(buf, "set 0x%x 0x%x", &addr, &golden_val) == 2)
_golden_write_reg(addr, 0xFFFFFFFF, golden_val);
else if (sscanf(buf, "%63s", cmd) == 1) { // XXX: 63 = sizeof(cmd) - 1
if (!strcmp(cmd, "enable"))
_golden_setting_enable(&_golden);
else if (!strcmp(cmd, "disable"))
_golden_setting_disable(&_golden);
else if (!strcmp(cmd, "normal"))
_golden_setting_set_mode(&_golden, MODE_NORMAL);
else if (!strcmp(cmd, "compare"))
_golden_setting_set_mode(&_golden, MODE_COMPARE);
else if (!strcmp(cmd, "apply"))
_golden_setting_set_mode(&_golden, MODE_APPLY);
else if (!strcmp(cmd, "color"))
_golden_setting_set_mode(&_golden, MODE_COLOR);
else if (!strcmp(cmd, "diff"))
_golden_setting_set_mode(&_golden, MODE_DIFF);
else if (!strcmp(cmd, "filter"))
_golden.func[0] = '\0';
}
free_page((size_t)buf);
EXIT_FUNC(FUNC_LV_BODY);
return count;
}
static int golden_test_proc_show(struct seq_file *m, void *v)
{
static int buf_golden_setting_idx = 0;
// static off_t page_len = 0;
// static off_t used_off = 0;
// char *start_p;
// int len = 0;
int i = 0;
ENTER_FUNC(FUNC_LV_BODY);
if (1) { // (0 == off) {
buf_golden_setting_idx = 0;
// page_len = 0;
// used_off = 0;
}
if (1) { // (0 == page_len) {
if (FALSE == _golden.is_golden_log) {
if (1) { // (0 == off) {
for (i = 0; i < _golden.nr_golden_setting; i++) {
seq_printf(m, ""HEX_FMT" "HEX_FMT" "HEX_FMT"\n",
_golden.buf_golden_setting[i].addr,
_golden.buf_golden_setting[i].mask,
_golden.buf_golden_setting[i].golden_val
);
}
}
}
if (0 == _golden.nr_golden_setting) {
if (1) { // (0 == off) {
seq_printf(m, "\n********** golden_test help *********\n");
seq_printf(m, "1. disable snapshot: echo disable > /proc/clkmgr/golden_test\n");
seq_printf(m, "2. insert golden setting (tool mode): echo 0x10000000 (addr) 0bxxxx_xxxx_xxxx_xxxx_0001_0100_1001_0100 (mask & golden value) > /proc/clkmgr/golden_test\n");
seq_printf(m, "(2.) insert golden setting (hex mode): echo 0x10000000 (addr) 0xFFFF (mask) 0x1494 (golden value) > /proc/clkmgr/golden_test\n");
seq_printf(m, "(2.) insert golden setting (dec mode): echo 268435456 (addr) 65535 (mask) 5268 (golden value) > /proc/clkmgr/golden_test\n");
seq_printf(m, "3. set filter: echo filter func_name [line_num] > /proc/clkmgr/golden_test\n");
seq_printf(m, "(3.) disable filter: echo filter > /proc/clkmgr/golden_test\n");
seq_printf(m, "4. enable snapshot: echo enable > /proc/clkmgr/golden_test\n");
seq_printf(m, "5. set compare mode: echo compare > /proc/clkmgr/golden_test\n");
seq_printf(m, "(5.) set apply mode: echo apply > /proc/clkmgr/golden_test\n");
seq_printf(m, "(5.) set color mode: echo color > /proc/clkmgr/golden_test\n");
seq_printf(m, "(5.) set diff mode: echo color > /proc/clkmgr/golden_test\n");
seq_printf(m, "(5.) disable compare/apply/color mode: echo normal > /proc/clkmgr/golden_test\n");
seq_printf(m, "6. set register value (normal mode): echo set 0x10000000 (addr) 0x13201494 (reg val) > /proc/clkmgr/golden_test\n");
seq_printf(m, "(6.) set register value (mask mode): echo set 0x10000000 (addr) 0xffff (mask) 0x13201494 (reg val) > /proc/clkmgr/golden_test\n");
seq_printf(m, "(6.) set register value (bit mode): echo set 0x10000000 (addr) 0 (bit num) 1 (reg val) > /proc/clkmgr/golden_test\n");
}
} else {
static struct snapshot *snapshot;
if (0 == 0 // off // buf_golden_setting_idx
&& !strcmp(_golden.func, __FUNCTION__) && (_golden.line == 0)) {
snapshot_golden_setting(__FUNCTION__, 0);
}
while ((0 != buf_golden_setting_idx) || (NULL != (snapshot = _snapshot_consume(&_golden)))) {
if (0 == buf_golden_setting_idx) {
seq_printf(m, "// @ %s():%d\n", snapshot->func, snapshot->line);
pr_debug("// @ %s():%d\n", snapshot->func, snapshot->line);
}
// start_p = p;
for (i = buf_golden_setting_idx, buf_golden_setting_idx = 0; i < _golden.nr_golden_setting; i++) {
// start_p = p;
if (MODE_NORMAL == _golden.mode
|| ((_golden.buf_golden_setting[i].mask & _golden.buf_golden_setting[i].golden_val)
!= (_golden.buf_golden_setting[i].mask & snapshot->reg_val[i])
)
) {
if (MODE_COLOR == _golden.mode) {
seq_printf(m, HEX_FMT"\t"HEX_FMT"\t"HEX_FMT"\t%s\n",
_golden.buf_golden_setting[i].addr,
_golden.buf_golden_setting[i].mask,
snapshot->reg_val[i],
_gen_color_str(_golden.buf_golden_setting[i].mask, _golden.buf_golden_setting[i].golden_val, snapshot->reg_val[i])
);
pr_debug(HEX_FMT"\t"HEX_FMT"\t"HEX_FMT"\t%s\n",
_golden.buf_golden_setting[i].addr,
_golden.buf_golden_setting[i].mask,
snapshot->reg_val[i],
_gen_color_str(_golden.buf_golden_setting[i].mask, _golden.buf_golden_setting[i].golden_val, snapshot->reg_val[i])
);
} else if (MODE_DIFF == _golden.mode) {
seq_printf(m, HEX_FMT"\t"HEX_FMT"\t"HEX_FMT"\t%s\n",
_golden.buf_golden_setting[i].addr,
_golden.buf_golden_setting[i].mask,
snapshot->reg_val[i],
_gen_mask_str(_golden.buf_golden_setting[i].mask, snapshot->reg_val[i])
);
pr_debug(HEX_FMT"\t"HEX_FMT"\t"HEX_FMT"\t%s\n",
_golden.buf_golden_setting[i].addr,
_golden.buf_golden_setting[i].mask,
snapshot->reg_val[i],
_gen_mask_str(_golden.buf_golden_setting[i].mask, snapshot->reg_val[i])
);
seq_printf(m, HEX_FMT"\t"HEX_FMT"\t"HEX_FMT"\t%s\n",
_golden.buf_golden_setting[i].addr,
_golden.buf_golden_setting[i].mask,
_golden.buf_golden_setting[i].golden_val,
_gen_diff_str(_golden.buf_golden_setting[i].mask, _golden.buf_golden_setting[i].golden_val, snapshot->reg_val[i])
);
pr_debug(HEX_FMT"\t"HEX_FMT"\t"HEX_FMT"\t%s\n",
_golden.buf_golden_setting[i].addr,
_golden.buf_golden_setting[i].mask,
_golden.buf_golden_setting[i].golden_val,
_gen_diff_str(_golden.buf_golden_setting[i].mask, _golden.buf_golden_setting[i].golden_val, snapshot->reg_val[i])
);
} else
seq_printf(m, HEX_FMT"\t"HEX_FMT"\t"HEX_FMT"\n", _golden.buf_golden_setting[i].addr, _golden.buf_golden_setting[i].mask, snapshot->reg_val[i]);
pr_debug(HEX_FMT"\t"HEX_FMT"\t"HEX_FMT"\n", _golden.buf_golden_setting[i].addr, _golden.buf_golden_setting[i].mask, snapshot->reg_val[i]);
}
if (0) { // ((p - start_p) + (p - page) >= PAGE_SIZE) {
buf_golden_setting_idx = i + 1;
break;
}
}
if (0) // ((p - start_p) + (p - page) >= PAGE_SIZE)
break;
}
}
// page_len = p - page;
} else {
// p = page + page_len;
}
#if 0
*start = page + (off - used_off);
len = p - page;
if (len > (off - used_off))
len -= (off - used_off);
else {
len = 0;
used_off += page_len;
page_len = 0;
}
*eof = (0 == buf_golden_setting_idx && 0 == len) ? 1 : 0;
#endif
EXIT_FUNC(FUNC_LV_BODY);
return 0; // len < count ? len : count;
}
Status_t Do_X(Cmd_Tbl_t *Cmd_Tbl, uint32 flag, uint32 argc, char *argv[])
{
FuncIN(DO_X);
if(argc > 0)
{
switch(*argv[0])
{
case 's': // Down
Down_Key_Callback(NULL);
break;
case 'w': // Up
Up_Key_Callback(NULL);
break;
case 'a': // Left
Left_Key_Callback(NULL);
break;
case 'd': // Right
Right_Key_Callback(NULL);
break;
case '-': // Cancel
Cancel_Key_Callback(NULL);
break;
case '+': // Enter
Enter_Key_Callback(NULL);
break;
case '*': // Menu
Menu_Key_Callback(NULL);
break;
case '/': // Exit
Exit_Key_Callback(NULL);
break;
case '1': // Number 1
Num1_Key_Callback(NULL);
break;
case '2': // Number 2
Num2_Key_Callback(NULL);
break;
case '3': // Number 3
Num3_Key_Callback(NULL);
break;
case '4': // Number 4
Num4_Key_Callback(NULL);
break;
case '5': // Number 5
Num5_Key_Callback(NULL);
break;
case '6': // Number 6
Num6_Key_Callback(NULL);
break;
case '7': // Number 7
Num7_Key_Callback(NULL);
break;
case '8': // Number 8
Num8_Key_Callback(NULL);
break;
case '9': // Number 9
Num9_Key_Callback(NULL);
break;
case '0': // Number 0
Num0_Key_Callback(NULL);
break;
default:
EXIT_FUNC(CMD_INVALID_ARGUMENT, DO_X);
}
}
else
EXIT_FUNC(CMD_MISSING_ARGUMENT, DO_X);
EXIT_SUCCESS_FUNC(DO_X);
}
Status_t Update_Display_Panel(uint8 Mode)
{
FuncIN(UPDATE_DISPLAY_PANEL);
HD44780_STRING_DEF *Row;
switch(Mode)
{
case PULL:
if(DisplaySync == 1)
{
if((ConsoleDisplayPrint == ENABLE) && (UpdateDisplay_State == 0))
Console_Display_Dump();
Row = (uint8 *)malloc(X_SIZE + 1);
ASSERT(Row != 0, -HEAP_ALLOCATION_ERROR);
switch(WorkingSurface)
{
case 1:
Fill_Row(Row, SurfaceBuffer_1[UpdateDisplay_State]);
break;
case 2:
Fill_Row(Row, SurfaceBuffer_2[UpdateDisplay_State]);
break;
}
switch(UpdateDisplay_State)
{
case 0:
if(HD44780_OK != HD44780_StrShow(0, 0, Row))
EXIT_FUNC(MENU_DISPLAY_ERROR, UPDATE_DISPLAY_PANEL);
// Next State
UpdateDisplay_State = 1;
break;
case 1:
if(HD44780_OK != HD44780_StrShow(0, 1, Row))
EXIT_FUNC(MENU_DISPLAY_ERROR, UPDATE_DISPLAY_PANEL);
// Next State
#if Y_SIZE == 2
UpdateDisplay_State = 0;
DisplaySync = 0;
break;
#else
UpdateDisplay_State = 2;
break;
case 2:
if(HD44780_OK != HD44780_StrShow(0, 2, Row))
EXIT_FUNC(MENU_DISPLAY_ERROR, UPDATE_DISPLAY_PANEL);
// Next State
UpdateDisplay_State = 3;
break;
case 3:
if(HD44780_OK != HD44780_StrShow(0, 3, Row))
EXIT_FUNC(MENU_DISPLAY_ERROR, UPDATE_DISPLAY_PANEL);
// Next State
UpdateDisplay_State = 0;
DisplaySync = 0;
break;
#endif
default:
UpdateDisplay_State = 0;
DisplaySync = 0;
break;
} // switch(UpdateDisplay_State)
free(Row);
} // if(DisplaySync == 1)
break;
case FORCE:
if(ConsoleDisplayPrint == ENABLE)
Console_Display_Dump();
Row = (uint8 *)malloc(X_SIZE + 1);
ASSERT(Row != 0, -HEAP_ALLOCATION_ERROR);
for(uint32 i = 0; i < Y_SIZE; i++)
{
switch(WorkingSurface)
{
case 1:
Fill_Row(Row, SurfaceBuffer_1[i]);
break;
case 2:
Fill_Row(Row, SurfaceBuffer_2[i]);
break;
default:
Fatal_Abort(-UNKNOWN_ERROR);
}
if(HD44780_OK != HD44780_StrShow(0, i, Row))
EXIT_FUNC(MENU_DISPLAY_ERROR, UPDATE_DISPLAY_PANEL);
} // for(uint32 i = 0; i < Y_SIZE; i++)
free(Row);
break;
default:
Fatal_Abort(-INVALID_INPUT_PARAMETER);
break;
} // switch(Mode)
EXIT_SUCCESS_FUNC(UPDATE_DISPLAY_PANEL);
}
Status_t Do_Time_Alarm(Cmd_Tbl_t *Cmd_Tbl, uint32 flag, uint32 argc, char *argv[])
{
FuncIN(DO_TIME_ALARM);
int i;
Status_t Status = GENERAL_ERROR;
TimeAlarm_t TimeAlarm_s = {0};
char ArgumentTokens[12] = {0};
char *CommandString = NULL;
uint8 Remove = FALSE;
if(argc > 0)
{
for(i = 0; i < argc; i++)
{
/******** Try for 'date=' ********/
CommandString = strstr(argv[i], "date=");
if(CommandString != NULL){
if(strlen(CommandString + 5) > 10) // Agument should be in format "DD.MM.YYYY"
{
printcmd(" # Invalid 'date' parameter!\n");
EXIT_FUNC(CMD_INVALID_ARGUMENT, DO_TIME_ALARM);
}
strcpy(ArgumentTokens, CommandString + 5); // strtok is changing the string. We need local copy!
ArgumentTokens[10] = '.'; // For strtok termination
TimeAlarm_s.DateTime.Day = atoi(strtok(ArgumentTokens, ".")); // Take first token before first '.' and convert to integer
TimeAlarm_s.DateTime.Month = atoi(strtok(NULL, ".")); // Take second token before second '.' and convert to integer
TimeAlarm_s.DateTime.Year = atoi(strtok(NULL, ".")); // Take third token before third '.' and convert to integer
}
/******** Try for 'time=' ********/
CommandString = strstr(argv[i], "time=");
if(CommandString != NULL){
if(strlen(CommandString + 5) > 8) // Agument should be in format "HH:MM:SS"
{
printcmd(" # Invalid 'time' parameter!\n");
EXIT_FUNC(CMD_INVALID_ARGUMENT, DO_TIME_ALARM);
}
strcpy(ArgumentTokens, CommandString + 5); // strtok is changing the string. We need local copy!
ArgumentTokens[8] = ':'; // For strtok termination
TimeAlarm_s.DateTime.Hour = atoi(strtok(ArgumentTokens, ":")); // Take first token before first ':' and convert to integer
TimeAlarm_s.DateTime.Minute = atoi(strtok(NULL, ":")); // Take second token before second ':' and convert to integer
TimeAlarm_s.DateTime.Second = atoi(strtok(NULL, ":")); // Take third token before third ':' and convert to integer
}
/******** Try for 'state=' ********/
CommandString = strstr(argv[i], "state=");
if(CommandString != NULL)
{
if(!strncmp("ON", CommandString + 6, 2))
TimeAlarm_s.State = ALARM_ON;
else if(!strncmp("OFF", CommandString + 6, 3))
TimeAlarm_s.State = ALARM_OFF;
else
{
printcmd(" # Invalid 'state' parameter!\n");
EXIT_FUNC(CMD_INVALID_ARGUMENT, DO_TIME_ALARM);
}
}
/******** Try for 'alarmID=' ********/
CommandString = strstr(argv[i], "alarmID=");
if(CommandString != NULL)
TimeAlarm_s.AlarmID = atoi(CommandString + 8);
/******** Try for '-rm' ********/
CommandString = strstr(argv[i], "-rm");
if(CommandString != NULL)
Remove = TRUE;
/******** Try for 'repeat=' ********/
CommandString = strstr(argv[i], "repeat=");
if(CommandString != NULL)
TimeAlarm_s.Repeat = strtol(CommandString + 7, NULL, 2);
/******** Try for 'response=' ********/
Status = Do_Try_Read_Time_Response_Cmd(argv[i], &TimeAlarm_s);
VERIFY(Status, Status);
switch(Status)
{
case CMD_INVALID_ARGUMENT:
EXIT_FUNC(CMD_INVALID_ARGUMENT, DO_TIME_ALARM);
case SUCCESS:
break;
default:
break;
} // switch(Status)
} // for(i = 0; i < argc; i++)
if(Remove == FALSE)
Do_Set_Time_Alarm_Cmd(&TimeAlarm_s);
else
Remove_Time_Alarm(TimeAlarm_s.AlarmID);
} else
{
Time_Alarm_Status(NULL);
}
EXIT_SUCCESS_FUNC(DO_TIME_ALARM);
}
Status_t Do_Sw(Cmd_Tbl_t *Cmd_Tbl, uint32 flag, uint32 argc, char *argv[])
{
FuncIN(DO_SW);
Out_t Out = {0};
char *CommandString;
int i, SwUpdate = 0;
if(argc > 0)
{
for(i = 0; i < argc; i++)
{
CommandString = strstr(argv[i], "sw1=");
if(CommandString != NULL)
{
if(atoi(CommandString + 4))
Out_1_Set(NULL);
else
Out_1_Clr(NULL);
SwUpdate = 1;
}
CommandString = strstr(argv[i], "sw2=");
if(CommandString != NULL)
{
if(atoi(CommandString + 4))
Out_2_Set(NULL);
else
Out_2_Clr(NULL);
SwUpdate = 1;
}
CommandString = strstr(argv[i], "sw3=");
if(CommandString != NULL)
{
if(atoi(CommandString + 4))
Out_3_Set(NULL);
else
Out_3_Clr(NULL);
SwUpdate = 1;
}
CommandString = strstr(argv[i], "sw4=");
if(CommandString != NULL)
{
if(atoi(CommandString + 4))
Out_4_Set(NULL);
else
Out_4_Clr(NULL);
SwUpdate = 1;
}
CommandString = strstr(argv[i], "sw5=");
if(CommandString != NULL)
{
if(atoi(CommandString + 4))
Out_5_Set(NULL);
else
Out_5_Clr(NULL);
SwUpdate = 1;
}
CommandString = strstr(argv[i], "sw6=");
if(CommandString != NULL)
{
if(atoi(CommandString + 4))
Out_6_Set(NULL);
else
Out_6_Clr(NULL);
SwUpdate = 1;
}
} // for(i = 0; i < argc; i++)
if(SwUpdate == 0)
EXIT_FUNC(CMD_INVALID_ARGUMENT, DO_SW);
}
else
{
Out_Get_State(OUTS_TO_SET, &Out);
printcmd("\n # Out switches state:\n");
printcmd(" # Sw_1 = %u\n", Out.S_1);
printcmd(" # Sw_2 = %u\n", Out.S_2);
printcmd(" # Sw_3 = %u\n", Out.S_3);
printcmd(" # Sw_4 = %u\n", Out.S_4);
printcmd(" # Sw_5 = %u\n", Out.S_5);
printcmd(" # Sw_6 = %u\n", Out.S_6);
}
EXIT_SUCCESS_FUNC(DO_SW);
}
