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Commit 34e98e72 authored by Johannes Tenschert's avatar Johannes Tenschert Committed by Greg Kroah-Hartman
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staging: bcm: led_control.c: fix indentation 

Signed-off-by: default avatarJohannes Tenschert <Johannes.Tenschert@informatik.stud.uni-erlangen.de>
Reviewed-by: default avatarDan Carpenter <dan.carpenter@oracle.com>
Signed-off-by: default avatarGreg Kroah-Hartman <gregkh@suse.de>
parent c1eb22d0
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Showing with 146 additions and 146 deletions
drivers/staging/bcm/led_control.c
View file @ 34e98e72
......@@ -250,7 +250,7 @@ static INT LED_Proportional_Blink(PMINI_ADAPTER Adapter, UCHAR GPIO_Num_tx,
static INT ValidateDSDParamsChecksum(PMINI_ADAPTER Adapter, ULONG ulParamOffset, USHORT usParamLen)
{
INT Status = STATUS_SUCCESS;
PUCHAR puBuffer = NULL;
PUCHAR puBuffer = NULL;
USHORT usChksmOrg = 0;
USHORT usChecksumCalculated = 0;
......@@ -418,37 +418,37 @@ static int ReadLEDInformationFromEEPROM(PMINI_ADAPTER Adapter, UCHAR GPIO_Array[
{
switch (ucGPIOInfo[ucIndex])
{
case RED_LED:
{
case RED_LED:
{
GPIO_Array[RED_LED] = ucIndex;
Adapter->gpioBitMap |= (1 << ucIndex);
break;
}
case BLUE_LED:
{
GPIO_Array[BLUE_LED] = ucIndex;
Adapter->gpioBitMap |= (1 << ucIndex);
break;
}
case YELLOW_LED:
{
GPIO_Array[YELLOW_LED] = ucIndex;
Adapter->gpioBitMap |= (1 << ucIndex);
break;
}
case GREEN_LED:
{
GPIO_Array[GREEN_LED] = ucIndex;
Adapter->gpioBitMap |= (1 << ucIndex);
break;
}
default:
break;
GPIO_Array[RED_LED] = ucIndex;
Adapter->gpioBitMap |= (1 << ucIndex);
break;
}
case BLUE_LED:
{
GPIO_Array[BLUE_LED] = ucIndex;
Adapter->gpioBitMap |= (1 << ucIndex);
break;
}
case YELLOW_LED:
{
GPIO_Array[YELLOW_LED] = ucIndex;
Adapter->gpioBitMap |= (1 << ucIndex);
break;
}
case GREEN_LED:
{
GPIO_Array[GREEN_LED] = ucIndex;
Adapter->gpioBitMap |= (1 << ucIndex);
break;
}
default:
break;
}
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "GPIO's bit map correspond to LED :0x%X", Adapter->gpioBitMap);
}
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "GPIO's bit map correspond to LED :0x%X", Adapter->gpioBitMap);
return Status;
}
......@@ -580,8 +580,8 @@ static INT BcmGetGPIOPinInfo(PMINI_ADAPTER Adapter, UCHAR *GPIO_num_tx, UCHAR *G
{
if ((currdriverstate == NORMAL_OPERATION) ||
(currdriverstate == IDLEMODE_EXIT) ||
(currdriverstate == FW_DOWNLOAD))
(currdriverstate == IDLEMODE_EXIT) ||
(currdriverstate == FW_DOWNLOAD))
{
if (Adapter->LEDInfo.LEDState[uiIndex].LED_Blink_State & currdriverstate)
{
......@@ -642,11 +642,11 @@ static VOID LEDControlThread(PMINI_ADAPTER Adapter)
/*Wait till event is triggered*/
if ((GPIO_num == DISABLE_GPIO_NUM)
||
((currdriverstate != FW_DOWNLOAD) &&
(currdriverstate != NORMAL_OPERATION) &&
(currdriverstate != LOWPOWER_MODE_ENTER))
((currdriverstate != FW_DOWNLOAD) &&
(currdriverstate != NORMAL_OPERATION) &&
(currdriverstate != LOWPOWER_MODE_ENTER))
||
(currdriverstate == LED_THREAD_INACTIVE))
(currdriverstate == LED_THREAD_INACTIVE))
{
Status = wait_event_interruptible(Adapter->LEDInfo.notify_led_event,
currdriverstate != Adapter->DriverState || kthread_should_stop());
......@@ -673,159 +673,159 @@ static VOID LEDControlThread(PMINI_ADAPTER Adapter)
switch (Adapter->DriverState)
{
case DRIVER_INIT:
case DRIVER_INIT:
{
currdriverstate = DRIVER_INIT;//Adapter->DriverState;
BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex, &dummyIndex, currdriverstate);
currdriverstate = DRIVER_INIT;//Adapter->DriverState;
BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex, &dummyIndex, currdriverstate);
if (GPIO_num != DISABLE_GPIO_NUM)
{
TURN_ON_LED(1 << GPIO_num, uiLedIndex);
}
if (GPIO_num != DISABLE_GPIO_NUM)
{
TURN_ON_LED(1 << GPIO_num, uiLedIndex);
}
}
break;
case FW_DOWNLOAD:
case FW_DOWNLOAD:
{
//BCM_DEBUG_PRINT (Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: FW_DN_DONE called\n");
currdriverstate = FW_DOWNLOAD;
BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex, &dummyIndex, currdriverstate);
//BCM_DEBUG_PRINT (Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: FW_DN_DONE called\n");
currdriverstate = FW_DOWNLOAD;
BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex, &dummyIndex, currdriverstate);
if (GPIO_num != DISABLE_GPIO_NUM)
{
timeout = 50;
LED_Blink(Adapter, 1 << GPIO_num, uiLedIndex, timeout, -1, currdriverstate);
}
if (GPIO_num != DISABLE_GPIO_NUM)
{
timeout = 50;
LED_Blink(Adapter, 1 << GPIO_num, uiLedIndex, timeout, -1, currdriverstate);
}
}
break;
case FW_DOWNLOAD_DONE:
case FW_DOWNLOAD_DONE:
{
currdriverstate = FW_DOWNLOAD_DONE;
BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex, &dummyIndex, currdriverstate);
if (GPIO_num != DISABLE_GPIO_NUM)
{
TURN_ON_LED(1 << GPIO_num, uiLedIndex);
}
currdriverstate = FW_DOWNLOAD_DONE;
BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex, &dummyIndex, currdriverstate);
if (GPIO_num != DISABLE_GPIO_NUM)
{
TURN_ON_LED(1 << GPIO_num, uiLedIndex);
}
}
break;
case SHUTDOWN_EXIT:
case SHUTDOWN_EXIT:
//no break, continue to NO_NETWORK_ENTRY state as well.
case NO_NETWORK_ENTRY:
case NO_NETWORK_ENTRY:
{
currdriverstate = NO_NETWORK_ENTRY;
BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex, &dummyGPIONum, currdriverstate);
if (GPIO_num != DISABLE_GPIO_NUM)
{
TURN_ON_LED(1 << GPIO_num, uiLedIndex);
}
currdriverstate = NO_NETWORK_ENTRY;
BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex, &dummyGPIONum, currdriverstate);
if (GPIO_num != DISABLE_GPIO_NUM)
{
TURN_ON_LED(1 << GPIO_num, uiLedIndex);
}
}
break;
case NORMAL_OPERATION:
case NORMAL_OPERATION:
{
UCHAR GPIO_num_tx = DISABLE_GPIO_NUM;
UCHAR GPIO_num_rx = DISABLE_GPIO_NUM;
UCHAR uiLEDTx = 0;
UCHAR uiLEDRx = 0;
currdriverstate = NORMAL_OPERATION;
Adapter->LEDInfo.bIdle_led_off = FALSE;
BcmGetGPIOPinInfo(Adapter, &GPIO_num_tx, &GPIO_num_rx, &uiLEDTx, &uiLEDRx, currdriverstate);
if ((GPIO_num_tx == DISABLE_GPIO_NUM) && (GPIO_num_rx == DISABLE_GPIO_NUM))
UCHAR GPIO_num_tx = DISABLE_GPIO_NUM;
UCHAR GPIO_num_rx = DISABLE_GPIO_NUM;
UCHAR uiLEDTx = 0;
UCHAR uiLEDRx = 0;
currdriverstate = NORMAL_OPERATION;
Adapter->LEDInfo.bIdle_led_off = FALSE;
BcmGetGPIOPinInfo(Adapter, &GPIO_num_tx, &GPIO_num_rx, &uiLEDTx, &uiLEDRx, currdriverstate);
if ((GPIO_num_tx == DISABLE_GPIO_NUM) && (GPIO_num_rx == DISABLE_GPIO_NUM))
{
GPIO_num = DISABLE_GPIO_NUM;
}
else
{
/*If single LED is selected, use same for both Tx and Rx*/
if (GPIO_num_tx == DISABLE_GPIO_NUM)
{
GPIO_num = DISABLE_GPIO_NUM;
GPIO_num_tx = GPIO_num_rx;
uiLEDTx = uiLEDRx;
}
else
else if (GPIO_num_rx == DISABLE_GPIO_NUM)
{
/*If single LED is selected, use same for both Tx and Rx*/
if (GPIO_num_tx == DISABLE_GPIO_NUM)
{
GPIO_num_tx = GPIO_num_rx;
uiLEDTx = uiLEDRx;
}
else if (GPIO_num_rx == DISABLE_GPIO_NUM)
{
GPIO_num_rx = GPIO_num_tx;
uiLEDRx = uiLEDTx;
}
/*Blink the LED in proportionate to Tx and Rx transmissions.*/
LED_Proportional_Blink(Adapter, GPIO_num_tx, uiLEDTx, GPIO_num_rx, uiLEDRx, currdriverstate);
GPIO_num_rx = GPIO_num_tx;
uiLEDRx = uiLEDTx;
}
/*Blink the LED in proportionate to Tx and Rx transmissions.*/
LED_Proportional_Blink(Adapter, GPIO_num_tx, uiLEDTx, GPIO_num_rx, uiLEDRx, currdriverstate);
}
}
break;
case LOWPOWER_MODE_ENTER:
case LOWPOWER_MODE_ENTER:
{
currdriverstate = LOWPOWER_MODE_ENTER;
if (DEVICE_POWERSAVE_MODE_AS_MANUAL_CLOCK_GATING == Adapter->ulPowerSaveMode)
{
currdriverstate = LOWPOWER_MODE_ENTER;
if (DEVICE_POWERSAVE_MODE_AS_MANUAL_CLOCK_GATING == Adapter->ulPowerSaveMode)
/* Turn OFF all the LED */
uiResetValue = 0;
for (uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
{
/* Turn OFF all the LED */
uiResetValue = 0;
for (uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
{
if (Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num != DISABLE_GPIO_NUM)
TURN_OFF_LED((1 << Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num), uiIndex);
}
if (Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num != DISABLE_GPIO_NUM)
TURN_OFF_LED((1 << Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num), uiIndex);
}
/* Turn off LED And WAKE-UP for Sendinf IDLE mode ACK */
Adapter->LEDInfo.bLedInitDone = FALSE;
Adapter->LEDInfo.bIdle_led_off = TRUE;
wake_up(&Adapter->LEDInfo.idleModeSyncEvent);
GPIO_num = DISABLE_GPIO_NUM;
break;
}
case IDLEMODE_CONTINUE:
/* Turn off LED And WAKE-UP for Sendinf IDLE mode ACK */
Adapter->LEDInfo.bLedInitDone = FALSE;
Adapter->LEDInfo.bIdle_led_off = TRUE;
wake_up(&Adapter->LEDInfo.idleModeSyncEvent);
GPIO_num = DISABLE_GPIO_NUM;
break;
}
case IDLEMODE_CONTINUE:
{
currdriverstate = IDLEMODE_CONTINUE;
GPIO_num = DISABLE_GPIO_NUM;
currdriverstate = IDLEMODE_CONTINUE;
GPIO_num = DISABLE_GPIO_NUM;
}
break;
case IDLEMODE_EXIT:
case IDLEMODE_EXIT:
{
}
break;
case DRIVER_HALT:
case DRIVER_HALT:
{
currdriverstate = DRIVER_HALT;
GPIO_num = DISABLE_GPIO_NUM;
for (uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
{
if (Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num !=
currdriverstate = DRIVER_HALT;
GPIO_num = DISABLE_GPIO_NUM;
for (uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
{
if (Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num !=
DISABLE_GPIO_NUM)
TURN_OFF_LED((1 << Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num), uiIndex);
}
//Adapter->DriverState = DRIVER_INIT;
TURN_OFF_LED((1 << Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num), uiIndex);
}
//Adapter->DriverState = DRIVER_INIT;
}
break;
case LED_THREAD_INACTIVE:
case LED_THREAD_INACTIVE:
{
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "InActivating LED thread...");
currdriverstate = LED_THREAD_INACTIVE;
Adapter->LEDInfo.led_thread_running = BCM_LED_THREAD_RUNNING_INACTIVELY;
Adapter->LEDInfo.bLedInitDone = FALSE;
//disable ALL LED
for (uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
{
if (Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num !=
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "InActivating LED thread...");
currdriverstate = LED_THREAD_INACTIVE;
Adapter->LEDInfo.led_thread_running = BCM_LED_THREAD_RUNNING_INACTIVELY;
Adapter->LEDInfo.bLedInitDone = FALSE;
//disable ALL LED
for (uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
{
if (Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num !=
DISABLE_GPIO_NUM)
TURN_OFF_LED((1 << Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num), uiIndex);
}
TURN_OFF_LED((1 << Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num), uiIndex);
}
}
break;
case LED_THREAD_ACTIVE:
case LED_THREAD_ACTIVE:
{
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "Activating LED thread again...");
if (Adapter->LinkUpStatus == FALSE)
Adapter->DriverState = NO_NETWORK_ENTRY;
else
Adapter->DriverState = NORMAL_OPERATION;
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "Activating LED thread again...");
if (Adapter->LinkUpStatus == FALSE)
Adapter->DriverState = NO_NETWORK_ENTRY;
else
Adapter->DriverState = NORMAL_OPERATION;
Adapter->LEDInfo.led_thread_running = BCM_LED_THREAD_RUNNING_ACTIVELY;
Adapter->LEDInfo.led_thread_running = BCM_LED_THREAD_RUNNING_ACTIVELY;
}
break;
//return;
default:
break;
default:
break;
}
}
Adapter->LEDInfo.led_thread_running = BCM_LED_THREAD_DISABLED;
......@@ -875,11 +875,11 @@ int InitLedSettings(PMINI_ADAPTER Adapter)
Adapter->LEDInfo.led_cntrl_threadid = kthread_run((int (*)(void *))
LEDControlThread, Adapter, "led_control_thread");
if (IS_ERR(Adapter->LEDInfo.led_cntrl_threadid))
{
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "Not able to spawn Kernel Thread\n");
Adapter->LEDInfo.led_thread_running = BCM_LED_THREAD_DISABLED;
return PTR_ERR(Adapter->LEDInfo.led_cntrl_threadid);
}
{
BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "Not able to spawn Kernel Thread\n");
Adapter->LEDInfo.led_thread_running = BCM_LED_THREAD_DISABLED;
return PTR_ERR(Adapter->LEDInfo.led_cntrl_threadid);
}
}
return Status;
}
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