[PATCH v2 1/5] staging: bcm: led_control.c: fix whitespaces

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Signed-off-by: Johannes Tenschert <Johannes.Tenschert@xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx>

---
 drivers/staging/bcm/led_control.c |  432 ++++++++++++++++++-------------------
 1 files changed, 215 insertions(+), 217 deletions(-)

diff --git a/drivers/staging/bcm/led_control.c b/drivers/staging/bcm/led_control.c
index 16e939f..0fe2b8e 100644
--- a/drivers/staging/bcm/led_control.c
+++ b/drivers/staging/bcm/led_control.c
@@ -5,18 +5,19 @@
 
 static B_UINT16 CFG_CalculateChecksum(B_UINT8 *pu8Buffer, B_UINT32 u32Size)
 {
-	B_UINT16 	u16CheckSum=0;
-	while(u32Size--) {
+	B_UINT16 u16CheckSum = 0;
+	while (u32Size--) {
 		u16CheckSum += (B_UINT8)~(*pu8Buffer);
-	    pu8Buffer++;
+		pu8Buffer++;
 	}
 	return u16CheckSum;
 }
+
 BOOLEAN IsReqGpioIsLedInNVM(PMINI_ADAPTER Adapter, UINT gpios)
 {
-	INT Status ;
-	Status = (Adapter->gpioBitMap & gpios) ^ gpios ;
-	if(Status)
+	INT Status;
+	Status = (Adapter->gpioBitMap & gpios) ^ gpios;
+	if (Status)
 		return FALSE;
 	else
 		return TRUE;
@@ -28,15 +29,15 @@ static INT LED_Blink(PMINI_ADAPTER Adapter, UINT GPIO_Num, UCHAR uiLedIndex, ULO
 	BOOLEAN bInfinite = FALSE;
 
 	/*Check if num_of_time is -ve. If yes, blink led in infinite loop*/
-	if(num_of_time < 0)
+	if (num_of_time < 0)
 	{
 		bInfinite = TRUE;
 		num_of_time = 1;
 	}
-	while(num_of_time)
+	while (num_of_time)
 	{
 
-		if(currdriverstate == Adapter->DriverState)
+		if (currdriverstate == Adapter->DriverState)
 			TURN_ON_LED(GPIO_Num, uiLedIndex);
 
 		/*Wait for timeout after setting on the LED*/
@@ -44,26 +45,26 @@ static INT LED_Blink(PMINI_ADAPTER Adapter, UINT GPIO_Num, UCHAR uiLedIndex, ULO
 					currdriverstate != Adapter->DriverState || kthread_should_stop(),
 					msecs_to_jiffies(timeout));
 
-		if(kthread_should_stop())
+		if (kthread_should_stop())
 		{
-			BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "Led thread got signal to exit..hence exiting");
-			Adapter->LEDInfo.led_thread_running= BCM_LED_THREAD_DISABLED;
+			BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "Led thread got signal to exit..hence exiting");
+			Adapter->LEDInfo.led_thread_running = BCM_LED_THREAD_DISABLED;
 			TURN_OFF_LED(GPIO_Num, uiLedIndex);
-			Status=EVENT_SIGNALED;
+			Status = EVENT_SIGNALED;
 			break;
 		}
-		if(Status)
+		if (Status)
 		{
 			TURN_OFF_LED(GPIO_Num, uiLedIndex);
-			Status=EVENT_SIGNALED;
+			Status = EVENT_SIGNALED;
 			break;
 		}
 
 		TURN_OFF_LED(GPIO_Num, uiLedIndex);
 		Status = wait_event_interruptible_timeout(Adapter->LEDInfo.notify_led_event,
-					currdriverstate!= Adapter->DriverState || kthread_should_stop(),
+					currdriverstate != Adapter->DriverState || kthread_should_stop(),
 					msecs_to_jiffies(timeout));
-		if(bInfinite == FALSE)
+		if (bInfinite == FALSE)
 			num_of_time--;
 	}
 	return Status;
@@ -71,19 +72,19 @@ static INT LED_Blink(PMINI_ADAPTER Adapter, UINT GPIO_Num, UCHAR uiLedIndex, ULO
 
 static INT ScaleRateofTransfer(ULONG rate)
 {
-	if(rate <= 3)
+	if (rate <= 3)
 		return rate;
-	else if((rate > 3) && (rate <= 100))
+	else if ((rate > 3) && (rate <= 100))
 		return 5;
-	else if((rate > 100) && (rate <= 200))
+	else if ((rate > 100) && (rate <= 200))
 		return 6;
-	else if((rate > 200) && (rate <= 300))
+	else if ((rate > 200) && (rate <= 300))
 		return 7;
-	else if((rate > 300) && (rate <= 400))
+	else if ((rate > 300) && (rate <= 400))
 		return 8;
-	else if((rate > 400) && (rate <= 500))
+	else if ((rate > 400) && (rate <= 500))
 		return 9;
-	else if((rate > 500) && (rate <= 600))
+	else if ((rate > 500) && (rate <= 600))
 		return 10;
 	else
 		return MAX_NUM_OF_BLINKS;
@@ -112,29 +113,29 @@ static INT LED_Proportional_Blink(PMINI_ADAPTER Adapter, UCHAR GPIO_Num_tx,
 	Initial_num_of_packts_rx = Adapter->dev->stats.rx_packets;
 
 	/*Scale the rate of transfer to no of blinks.*/
-	num_of_time_tx= ScaleRateofTransfer((ULONG)rate_of_transfer_tx);
-	num_of_time_rx= ScaleRateofTransfer((ULONG)rate_of_transfer_rx);
+	num_of_time_tx = ScaleRateofTransfer((ULONG)rate_of_transfer_tx);
+	num_of_time_rx = ScaleRateofTransfer((ULONG)rate_of_transfer_rx);
 
-	while((Adapter->device_removed == FALSE))
+	while ((Adapter->device_removed == FALSE))
 	{
 		timeout = 50;
 		/*Blink Tx and Rx LED when both Tx and Rx is in normal bandwidth*/
-		if(bBlinkBothLED)
+		if (bBlinkBothLED)
 		{
 			/*Assign minimum number of blinks of either Tx or Rx.*/
-			if(num_of_time_tx > num_of_time_rx)
+			if (num_of_time_tx > num_of_time_rx)
 				num_of_time = num_of_time_rx;
 			else
 				num_of_time = num_of_time_tx;
-			if(num_of_time > 0)
+			if (num_of_time > 0)
 			{
 				/*Blink both Tx and Rx LEDs*/
-				if(LED_Blink(Adapter, 1<<GPIO_Num_tx, uiTxLedIndex, timeout, num_of_time,currdriverstate)
+				if (LED_Blink(Adapter, 1 << GPIO_Num_tx, uiTxLedIndex, timeout, num_of_time, currdriverstate)
 							== EVENT_SIGNALED)
 				{
 					return EVENT_SIGNALED;
 				}
-				if(LED_Blink(Adapter, 1<<GPIO_Num_rx, uiRxLedIndex, timeout, num_of_time,currdriverstate)
+				if (LED_Blink(Adapter, 1 << GPIO_Num_rx, uiRxLedIndex, timeout, num_of_time, currdriverstate)
 							== EVENT_SIGNALED)
 				{
 					return EVENT_SIGNALED;
@@ -142,11 +143,11 @@ static INT LED_Proportional_Blink(PMINI_ADAPTER Adapter, UCHAR GPIO_Num_tx,
 
 			}
 
-			if(num_of_time == num_of_time_tx)
+			if (num_of_time == num_of_time_tx)
 			{
 				/*Blink pending rate of Rx*/
-				if(LED_Blink(Adapter, (1 << GPIO_Num_rx), uiRxLedIndex, timeout,
-						num_of_time_rx-num_of_time,currdriverstate) == EVENT_SIGNALED)
+				if (LED_Blink(Adapter, (1 << GPIO_Num_rx), uiRxLedIndex, timeout,
+						num_of_time_rx-num_of_time, currdriverstate) == EVENT_SIGNALED)
 				{
 					return EVENT_SIGNALED;
 				}
@@ -155,8 +156,8 @@ static INT LED_Proportional_Blink(PMINI_ADAPTER Adapter, UCHAR GPIO_Num_tx,
 			else
 			{
 				/*Blink pending rate of Tx*/
-				if(LED_Blink(Adapter, 1<<GPIO_Num_tx, uiTxLedIndex, timeout,
-					num_of_time_tx-num_of_time,currdriverstate) == EVENT_SIGNALED)
+				if (LED_Blink(Adapter, 1 << GPIO_Num_tx, uiTxLedIndex, timeout,
+					num_of_time_tx-num_of_time, currdriverstate) == EVENT_SIGNALED)
 				{
 					return EVENT_SIGNALED;
 				}
@@ -165,10 +166,10 @@ static INT LED_Proportional_Blink(PMINI_ADAPTER Adapter, UCHAR GPIO_Num_tx,
 		}
 		else
 		{
-			if(num_of_time == num_of_time_tx)
+			if (num_of_time == num_of_time_tx)
 			{
 				/*Blink pending rate of Rx*/
-				if(LED_Blink(Adapter, 1<<GPIO_Num_tx, uiTxLedIndex, timeout, num_of_time,currdriverstate)
+				if (LED_Blink(Adapter, 1 << GPIO_Num_tx, uiTxLedIndex, timeout, num_of_time, currdriverstate)
 							== EVENT_SIGNALED)
 				{
 					return EVENT_SIGNALED;
@@ -177,8 +178,8 @@ static INT LED_Proportional_Blink(PMINI_ADAPTER Adapter, UCHAR GPIO_Num_tx,
 			else
 			{
 				/*Blink pending rate of Tx*/
-				if(LED_Blink(Adapter, 1<<GPIO_Num_rx, uiRxLedIndex, timeout,
-						num_of_time,currdriverstate) == EVENT_SIGNALED)
+				if (LED_Blink(Adapter, 1 << GPIO_Num_rx, uiRxLedIndex, timeout,
+						num_of_time, currdriverstate) == EVENT_SIGNALED)
 				{
 					return EVENT_SIGNALED;
 				}
@@ -188,31 +189,31 @@ static INT LED_Proportional_Blink(PMINI_ADAPTER Adapter, UCHAR GPIO_Num_tx,
 			 * wait till delay completes to 1 second
 			 */
 		remDelay = MAX_NUM_OF_BLINKS - num_of_time;
-		if(remDelay > 0)
+		if (remDelay > 0)
 		{
-			timeout= 100 * remDelay;
+			timeout = 100 * remDelay;
 			Status = wait_event_interruptible_timeout(Adapter->LEDInfo.notify_led_event,
-						currdriverstate!= Adapter->DriverState ||kthread_should_stop() ,
-						msecs_to_jiffies (timeout));
+						currdriverstate != Adapter->DriverState || kthread_should_stop(),
+						msecs_to_jiffies(timeout));
 
-			if(kthread_should_stop())
+			if (kthread_should_stop())
 			{
-				BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "Led thread got signal to exit..hence exiting");
-				Adapter->LEDInfo.led_thread_running= BCM_LED_THREAD_DISABLED;
+				BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "Led thread got signal to exit..hence exiting");
+				Adapter->LEDInfo.led_thread_running = BCM_LED_THREAD_DISABLED;
 				return EVENT_SIGNALED;
 			}
-			if(Status)
+			if (Status)
 				return EVENT_SIGNALED;
 		}
 
 		/*Turn off both Tx and Rx LEDs before next second*/
-		TURN_OFF_LED(1<<GPIO_Num_tx, uiTxLedIndex);
-		TURN_OFF_LED(1<<GPIO_Num_rx, uiTxLedIndex);
+		TURN_OFF_LED(1 << GPIO_Num_tx, uiTxLedIndex);
+		TURN_OFF_LED(1 << GPIO_Num_rx, uiTxLedIndex);
 
 		/*
- 		 * Read the Tx & Rx packets transmission after 1 second and
- 		 * calculate rate of transfer
- 		 */
+		 * Read the Tx & Rx packets transmission after 1 second and
+		 * calculate rate of transfer
+		 */
 		Final_num_of_packts_tx = Adapter->dev->stats.tx_packets;
 		Final_num_of_packts_rx = Adapter->dev->stats.rx_packets;
 
@@ -221,11 +222,11 @@ static INT LED_Proportional_Blink(PMINI_ADAPTER Adapter, UCHAR GPIO_Num_tx,
 
 		/*Read initial value of packets sent/received */
 		Initial_num_of_packts_tx = Final_num_of_packts_tx;
-		Initial_num_of_packts_rx = Final_num_of_packts_rx ;
+		Initial_num_of_packts_rx = Final_num_of_packts_rx;
 
 		/*Scale the rate of transfer to no of blinks.*/
-		num_of_time_tx= ScaleRateofTransfer((ULONG)rate_of_transfer_tx);
-		num_of_time_rx= ScaleRateofTransfer((ULONG)rate_of_transfer_rx);
+		num_of_time_tx = ScaleRateofTransfer((ULONG)rate_of_transfer_tx);
+		num_of_time_rx = ScaleRateofTransfer((ULONG)rate_of_transfer_rx);
 
 	}
 	return Status;
@@ -246,22 +247,19 @@ static INT LED_Proportional_Blink(PMINI_ADAPTER Adapter, UCHAR GPIO_Num_tx,
 //  <OSAL_STATUS_CODE>
 //-----------------------------------------------------------------------------
 
-static INT ValidateDSDParamsChecksum(
-													PMINI_ADAPTER Adapter,
-													ULONG  ulParamOffset,
-													USHORT usParamLen )
+static INT ValidateDSDParamsChecksum(PMINI_ADAPTER Adapter, ULONG  ulParamOffset, USHORT usParamLen)
 {
 	INT Status = STATUS_SUCCESS;
-	PUCHAR puBuffer 		    = NULL;
-	USHORT usChksmOrg		    = 0;
+	PUCHAR puBuffer	= NULL;
+	USHORT usChksmOrg = 0;
 	USHORT usChecksumCalculated = 0;
 
-	BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread:ValidateDSDParamsChecksum: 0x%lx 0x%X",ulParamOffset, usParamLen);
+	BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread:ValidateDSDParamsChecksum: 0x%lx 0x%X", ulParamOffset, usParamLen);
 
 	puBuffer = kmalloc(usParamLen, GFP_KERNEL);
-	if(!puBuffer)
+	if (!puBuffer)
 	{
-		BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: ValidateDSDParamsChecksum Allocation failed");
+		BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread: ValidateDSDParamsChecksum Allocation failed");
 		return -ENOMEM;
 
 	}
@@ -269,38 +267,38 @@ static INT ValidateDSDParamsChecksum(
     //
     //	Read the DSD data from the parameter offset.
     //
-	if(STATUS_SUCCESS != BeceemNVMRead(Adapter,(PUINT)puBuffer,ulParamOffset,usParamLen))
+	if (STATUS_SUCCESS != BeceemNVMRead(Adapter, (PUINT)puBuffer, ulParamOffset, usParamLen))
 	{
-		BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: ValidateDSDParamsChecksum BeceemNVMRead failed");
-		Status=STATUS_IMAGE_CHECKSUM_MISMATCH;
+		BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread: ValidateDSDParamsChecksum BeceemNVMRead failed");
+		Status = STATUS_IMAGE_CHECKSUM_MISMATCH;
 		goto exit;
 	}
 
 	//
 	//	Calculate the checksum of the data read from the DSD parameter.
 	//
-	usChecksumCalculated = CFG_CalculateChecksum(puBuffer,usParamLen);
-	BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: usCheckSumCalculated = 0x%x\n", usChecksumCalculated);
+	usChecksumCalculated = CFG_CalculateChecksum(puBuffer, usParamLen);
+	BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread: usCheckSumCalculated = 0x%x\n", usChecksumCalculated);
 
 	//
 	//	End of the DSD parameter will have a TWO bytes checksum stored in it. Read it and compare with the calculated
 	//	Checksum.
 	//
-	if(STATUS_SUCCESS != BeceemNVMRead(Adapter,(PUINT)&usChksmOrg,ulParamOffset+usParamLen,2))
+	if (STATUS_SUCCESS != BeceemNVMRead(Adapter, (PUINT)&usChksmOrg, ulParamOffset+usParamLen, 2))
 	{
-		BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: ValidateDSDParamsChecksum BeceemNVMRead failed");
-		Status=STATUS_IMAGE_CHECKSUM_MISMATCH;
+		BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread: ValidateDSDParamsChecksum BeceemNVMRead failed");
+		Status = STATUS_IMAGE_CHECKSUM_MISMATCH;
 		goto exit;
 	}
 	usChksmOrg = ntohs(usChksmOrg);
-	BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: usChksmOrg = 0x%x", usChksmOrg);
+	BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread: usChksmOrg = 0x%x", usChksmOrg);
 
 	//
 	//  	Compare the checksum calculated with the checksum read from DSD section
 	//
-	if(usChecksumCalculated ^ usChksmOrg)
+	if (usChecksumCalculated ^ usChksmOrg)
 	{
-		BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: ValidateDSDParamsChecksum: Checksums don't match");
+		BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread: ValidateDSDParamsChecksum: Checksums don't match");
 		Status = STATUS_IMAGE_CHECKSUM_MISMATCH;
 		goto exit;
 	}
@@ -327,21 +325,21 @@ exit:
 static INT ValidateHWParmStructure(PMINI_ADAPTER Adapter, ULONG ulHwParamOffset)
 {
 
-	INT Status = STATUS_SUCCESS ;
+	INT Status = STATUS_SUCCESS;
 	USHORT HwParamLen = 0;
 	// Add DSD start offset to the hwParamOffset to get the actual address.
 	ulHwParamOffset += DSD_START_OFFSET;
 
 	/*Read the Length of HW_PARAM structure*/
-	BeceemNVMRead(Adapter,(PUINT)&HwParamLen,ulHwParamOffset,2);
+	BeceemNVMRead(Adapter, (PUINT)&HwParamLen, ulHwParamOffset, 2);
 	HwParamLen = ntohs(HwParamLen);
-	if(0==HwParamLen || HwParamLen > Adapter->uiNVMDSDSize)
+	if (0 == HwParamLen || HwParamLen > Adapter->uiNVMDSDSize)
 	{
 		return STATUS_IMAGE_CHECKSUM_MISMATCH;
 	}
 
-	BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread:HwParamLen = 0x%x", HwParamLen);
-	Status =ValidateDSDParamsChecksum(Adapter,ulHwParamOffset,HwParamLen);
+	BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread:HwParamLen = 0x%x", HwParamLen);
+	Status = ValidateDSDParamsChecksum(Adapter, ulHwParamOffset, HwParamLen);
 	return Status;
 } /* ValidateHWParmStructure() */
 
@@ -349,20 +347,20 @@ static int ReadLEDInformationFromEEPROM(PMINI_ADAPTER Adapter, UCHAR GPIO_Array[
 {
 	int Status = STATUS_SUCCESS;
 
-	ULONG  dwReadValue 		= 0;
-	USHORT usHwParamData 	= 0;
-	USHORT usEEPROMVersion  = 0;
-	UCHAR  ucIndex 			= 0;
-	UCHAR  ucGPIOInfo[32] 	= {0};
+	ULONG  dwReadValue	= 0;
+	USHORT usHwParamData	= 0;
+	USHORT usEEPROMVersion	= 0;
+	UCHAR  ucIndex		= 0;
+	UCHAR  ucGPIOInfo[32]	= {0};
 
-	BeceemNVMRead(Adapter,(PUINT)&usEEPROMVersion,EEPROM_VERSION_OFFSET,2);
+	BeceemNVMRead(Adapter, (PUINT)&usEEPROMVersion, EEPROM_VERSION_OFFSET, 2);
 
-	BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"usEEPROMVersion: Minor:0x%X Major:0x%x",usEEPROMVersion&0xFF, ((usEEPROMVersion>>8)&0xFF));
+	BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "usEEPROMVersion: Minor:0x%X Major:0x%x", usEEPROMVersion&0xFF, ((usEEPROMVersion>>8)&0xFF));
 
 
-	if(((usEEPROMVersion>>8)&0xFF) < EEPROM_MAP5_MAJORVERSION)
+	if (((usEEPROMVersion>>8)&0xFF) < EEPROM_MAP5_MAJORVERSION)
 	{
-		BeceemNVMRead(Adapter,(PUINT)&usHwParamData,EEPROM_HW_PARAM_POINTER_ADDRESS,2);
+		BeceemNVMRead(Adapter, (PUINT)&usHwParamData, EEPROM_HW_PARAM_POINTER_ADDRESS, 2);
 		usHwParamData = ntohs(usHwParamData);
 		dwReadValue   = usHwParamData;
 	}
@@ -372,19 +370,19 @@ static int ReadLEDInformationFromEEPROM(PMINI_ADAPTER Adapter, UCHAR GPIO_Array[
 		// Validate Compatibility section and then read HW param if compatibility section is valid.
 		//
 		Status = ValidateDSDParamsChecksum(Adapter,
-			                   DSD_START_OFFSET,
-			                   COMPATIBILITY_SECTION_LENGTH_MAP5);
+				DSD_START_OFFSET,
+				COMPATIBILITY_SECTION_LENGTH_MAP5);
 
-		if(Status != STATUS_SUCCESS)
+		if (Status != STATUS_SUCCESS)
 		{
 			return Status;
 		}
-		BeceemNVMRead(Adapter,(PUINT)&dwReadValue,EEPROM_HW_PARAM_POINTER_ADDRRES_MAP5,4);
+		BeceemNVMRead(Adapter, (PUINT)&dwReadValue, EEPROM_HW_PARAM_POINTER_ADDRRES_MAP5, 4);
 		dwReadValue = ntohl(dwReadValue);
 	}
 
 
-	BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: Start address of HW_PARAM structure = 0x%lx",dwReadValue);
+	BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread: Start address of HW_PARAM structure = 0x%lx", dwReadValue);
 
 	//
 	// Validate if the address read out is within the DSD.
@@ -392,14 +390,14 @@ static int ReadLEDInformationFromEEPROM(PMINI_ADAPTER Adapter, UCHAR GPIO_Array[
 	// lower limit should be above DSD_START_OFFSET and
 	// upper limit should be below (Adapter->uiNVMDSDSize-DSD_START_OFFSET)
 	//
-	if(dwReadValue < DSD_START_OFFSET ||
-	   dwReadValue > (Adapter->uiNVMDSDSize-DSD_START_OFFSET))
+	if (dwReadValue < DSD_START_OFFSET ||
+			dwReadValue > (Adapter->uiNVMDSDSize-DSD_START_OFFSET))
 	{
 		return STATUS_IMAGE_CHECKSUM_MISMATCH;
 	}
 
 	Status = ValidateHWParmStructure(Adapter, dwReadValue);
-	if(Status){
+	if (Status) {
 		return Status;
 	}
 
@@ -413,36 +411,36 @@ static int ReadLEDInformationFromEEPROM(PMINI_ADAPTER Adapter, UCHAR GPIO_Array[
 	dwReadValue += GPIO_SECTION_START_OFFSET; // = GPIO start offset within HW Param section.
 
 	/* Read the GPIO values for 32 GPIOs from EEPROM and map the function
- 	 * number to GPIO pin number to GPIO_Array
- 	 */
-	BeceemNVMRead(Adapter, (UINT *)ucGPIOInfo,dwReadValue,32);
-	for(ucIndex = 0; ucIndex < 32; ucIndex++)
-	 {
+	 * number to GPIO pin number to GPIO_Array
+	 */
+	BeceemNVMRead(Adapter, (UINT *)ucGPIOInfo, dwReadValue, 32);
+	for (ucIndex = 0; ucIndex < 32; ucIndex++)
+	{
 
-		 switch(ucGPIOInfo[ucIndex])
+		switch (ucGPIOInfo[ucIndex])
 			{
 				case RED_LED:
 				{
-				 	GPIO_Array[RED_LED] = ucIndex;
-				 	Adapter->gpioBitMap |= (1<<ucIndex);
+					GPIO_Array[RED_LED] = ucIndex;
+					Adapter->gpioBitMap |= (1 << ucIndex);
 					break;
 				}
 				case BLUE_LED:
 				{
 					GPIO_Array[BLUE_LED] = ucIndex;
-					Adapter->gpioBitMap |= (1<<ucIndex);
+					Adapter->gpioBitMap |= (1 << ucIndex);
 					break;
 				}
 				case YELLOW_LED:
 				{
-					 GPIO_Array[YELLOW_LED] = ucIndex;
-					 Adapter->gpioBitMap |= (1<<ucIndex);
-					 break;
+					GPIO_Array[YELLOW_LED] = ucIndex;
+					Adapter->gpioBitMap |= (1 << ucIndex);
+					break;
 				}
 				case GREEN_LED:
 				{
 					GPIO_Array[GREEN_LED] = ucIndex;
-				 	Adapter->gpioBitMap |= (1<<ucIndex);
+					Adapter->gpioBitMap |= (1 << ucIndex);
 					break;
 				}
 				default:
@@ -450,8 +448,8 @@ static int ReadLEDInformationFromEEPROM(PMINI_ADAPTER Adapter, UCHAR GPIO_Array[
 			}
 
 		}
-		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;
+		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;
 }
 
 
@@ -465,21 +463,21 @@ static int ReadConfigFileStructure(PMINI_ADAPTER Adapter, BOOLEAN *bEnableThread
 	UCHAR bData = 0;
 	memset(GPIO_Array, DISABLE_GPIO_NUM, NUM_OF_LEDS+1);
 
-	if(!Adapter->pstargetparams || IS_ERR(Adapter->pstargetparams))
+	if (!Adapter->pstargetparams || IS_ERR(Adapter->pstargetparams))
 	{
-		BCM_DEBUG_PRINT (Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "Target Params not Avail.\n");
+		BCM_DEBUG_PRINT (Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "Target Params not Avail.\n");
 		return -ENOENT;
 	}
 
 	/*Populate GPIO_Array with GPIO numbers for LED functions*/
 	/*Read the GPIO numbers from EEPROM*/
 	Status = ReadLEDInformationFromEEPROM(Adapter, GPIO_Array);
-	if(Status == STATUS_IMAGE_CHECKSUM_MISMATCH)
+	if (Status == STATUS_IMAGE_CHECKSUM_MISMATCH)
 	{
 		*bEnableThread = FALSE;
 		return STATUS_SUCCESS;
 	}
-	else if(Status)
+	else if (Status)
 	{
 		*bEnableThread = FALSE;
 		return Status;
@@ -488,21 +486,21 @@ static int ReadConfigFileStructure(PMINI_ADAPTER Adapter, BOOLEAN *bEnableThread
      * CONFIG file read successfully. Deallocate the memory of
      * uiFileNameBufferSize
      */
-	BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: Config file read successfully\n");
+	BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread: Config file read successfully\n");
 	puCFGData = (PUCHAR) &Adapter->pstargetparams->HostDrvrConfig1;
 
 	/*
- 	 * Offset for HostDrvConfig1, HostDrvConfig2, HostDrvConfig3 which
- 	 * will have the information of LED type, LED on state for different
- 	 * driver state and LED blink state.
- 	 */
+	 * Offset for HostDrvConfig1, HostDrvConfig2, HostDrvConfig3 which
+	 * will have the information of LED type, LED on state for different
+	 * driver state and LED blink state.
+	 */
 
-	for(uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
+	for (uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
 	{
 		bData = *puCFGData;
 
 		/*Check Bit 8 for polarity. If it is set, polarity is reverse polarity*/
-		if(bData & 0x80)
+		if (bData & 0x80)
 		{
 			Adapter->LEDInfo.LEDState[uiIndex].BitPolarity = 0;
 			/*unset the bit 8*/
@@ -510,7 +508,7 @@ static int ReadConfigFileStructure(PMINI_ADAPTER Adapter, BOOLEAN *bEnableThread
 		}
 
 		Adapter->LEDInfo.LEDState[uiIndex].LED_Type = bData;
-		if(bData <= NUM_OF_LEDS)
+		if (bData <= NUM_OF_LEDS)
 			Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num = GPIO_Array[bData];
 		else
 			Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num = DISABLE_GPIO_NUM;
@@ -520,19 +518,19 @@ static int ReadConfigFileStructure(PMINI_ADAPTER Adapter, BOOLEAN *bEnableThread
 		Adapter->LEDInfo.LEDState[uiIndex].LED_On_State = bData;
 		puCFGData++;
 		bData = *puCFGData;
-		Adapter->LEDInfo.LEDState[uiIndex].LED_Blink_State= bData;
+		Adapter->LEDInfo.LEDState[uiIndex].LED_Blink_State = bData;
 		puCFGData++;
 	}
 
 	/*Check if all the LED settings are disabled. If it is disabled, dont launch the LED control thread.*/
-	for(uiIndex = 0; uiIndex<NUM_OF_LEDS; uiIndex++)
+	for (uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
 	{
-		if((Adapter->LEDInfo.LEDState[uiIndex].LED_Type == DISABLE_GPIO_NUM) ||
-	 		(Adapter->LEDInfo.LEDState[uiIndex].LED_Type == 0x7f) ||
+		if ((Adapter->LEDInfo.LEDState[uiIndex].LED_Type == DISABLE_GPIO_NUM) ||
+			(Adapter->LEDInfo.LEDState[uiIndex].LED_Type == 0x7f) ||
 			(Adapter->LEDInfo.LEDState[uiIndex].LED_Type == 0))
 			uiNum_of_LED_Type++;
 	}
-	if(uiNum_of_LED_Type >= NUM_OF_LEDS)
+	if (uiNum_of_LED_Type >= NUM_OF_LEDS)
 		*bEnableThread = FALSE;
 
 	return Status;
@@ -556,40 +554,40 @@ static VOID LedGpioInit(PMINI_ADAPTER Adapter)
 	UINT uiIndex      = 0;
 
 	/* Set all LED GPIO Mode to output mode */
-	if(rdmalt(Adapter, GPIO_MODE_REGISTER, &uiResetValue, sizeof(uiResetValue)) <0)
-		BCM_DEBUG_PRINT (Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: RDM Failed\n");
-	for(uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
+	if (rdmalt(Adapter, GPIO_MODE_REGISTER, &uiResetValue, sizeof(uiResetValue)) < 0)
+		BCM_DEBUG_PRINT (Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread: RDM Failed\n");
+	for (uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
 	{
-		if(Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num != DISABLE_GPIO_NUM)
+		if (Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num != DISABLE_GPIO_NUM)
 			uiResetValue |= (1 << Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num);
-		TURN_OFF_LED(1<<Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num,uiIndex);
+		TURN_OFF_LED(1 << Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num, uiIndex);
 	}
-	if(wrmalt(Adapter, GPIO_MODE_REGISTER, &uiResetValue, sizeof(uiResetValue)) < 0)
-		BCM_DEBUG_PRINT (Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: WRM Failed\n");
+	if (wrmalt(Adapter, GPIO_MODE_REGISTER, &uiResetValue, sizeof(uiResetValue)) < 0)
+		BCM_DEBUG_PRINT (Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread: WRM Failed\n");
 
-	Adapter->LEDInfo.bIdle_led_off =  FALSE;
+	Adapter->LEDInfo.bIdle_led_off = FALSE;
 }
 //-----------------------------------------------------------------------------
 
-static INT BcmGetGPIOPinInfo(PMINI_ADAPTER Adapter, UCHAR *GPIO_num_tx, UCHAR *GPIO_num_rx ,UCHAR *uiLedTxIndex, UCHAR *uiLedRxIndex,LedEventInfo_t currdriverstate)
+static INT BcmGetGPIOPinInfo(PMINI_ADAPTER Adapter, UCHAR *GPIO_num_tx, UCHAR *GPIO_num_rx, UCHAR *uiLedTxIndex, UCHAR *uiLedRxIndex, LedEventInfo_t currdriverstate)
 {
 	UINT uiIndex = 0;
 
 	*GPIO_num_tx = DISABLE_GPIO_NUM;
 	*GPIO_num_rx = DISABLE_GPIO_NUM;
 
-	for(uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
+	for (uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
 	{
 
-		if((currdriverstate == NORMAL_OPERATION)||
-			(currdriverstate == IDLEMODE_EXIT)||
+		if ((currdriverstate == NORMAL_OPERATION) ||
+			(currdriverstate == IDLEMODE_EXIT) ||
 			(currdriverstate == FW_DOWNLOAD))
 		{
-			if(Adapter->LEDInfo.LEDState[uiIndex].LED_Blink_State & currdriverstate)
+			if (Adapter->LEDInfo.LEDState[uiIndex].LED_Blink_State & currdriverstate)
 			{
-				if(Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num != DISABLE_GPIO_NUM)
+				if (Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num != DISABLE_GPIO_NUM)
 				{
-					if(*GPIO_num_tx == DISABLE_GPIO_NUM)
+					if (*GPIO_num_tx == DISABLE_GPIO_NUM)
 					{
 						*GPIO_num_tx = Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num;
 						*uiLedTxIndex = uiIndex;
@@ -604,9 +602,9 @@ static INT BcmGetGPIOPinInfo(PMINI_ADAPTER Adapter, UCHAR *GPIO_num_tx, UCHAR *G
 		}
 		else
 		{
-			if(Adapter->LEDInfo.LEDState[uiIndex].LED_On_State & currdriverstate)
+			if (Adapter->LEDInfo.LEDState[uiIndex].LED_On_State & currdriverstate)
 			{
-				if(Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num != DISABLE_GPIO_NUM)
+				if (Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num != DISABLE_GPIO_NUM)
 				{
 					*GPIO_num_tx = Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num;
 					*uiLedTxIndex = uiIndex;
@@ -614,21 +612,21 @@ static INT BcmGetGPIOPinInfo(PMINI_ADAPTER Adapter, UCHAR *GPIO_num_tx, UCHAR *G
 			}
 		}
 	}
-	return STATUS_SUCCESS ;
+	return STATUS_SUCCESS;
 }
 static VOID LEDControlThread(PMINI_ADAPTER Adapter)
 {
 	UINT uiIndex = 0;
 	UCHAR GPIO_num = 0;
-	UCHAR uiLedIndex = 0 ;
+	UCHAR uiLedIndex = 0;
 	UINT uiResetValue = 0;
 	LedEventInfo_t currdriverstate = 0;
 	ulong timeout = 0;
 
 	INT Status = 0;
 
-	UCHAR  dummyGPIONum = 0;
-	UCHAR  dummyIndex = 0;
+	UCHAR dummyGPIONum = 0;
+	UCHAR dummyIndex = 0;
 
 	//currdriverstate = Adapter->DriverState;
 	Adapter->LEDInfo.bIdleMode_tx_from_host = FALSE;
@@ -637,75 +635,75 @@ static VOID LEDControlThread(PMINI_ADAPTER Adapter)
 	//wait_event(Adapter->LEDInfo.notify_led_event,
 			//	currdriverstate!= Adapter->DriverState);
 
-	GPIO_num = DISABLE_GPIO_NUM ;
+	GPIO_num = DISABLE_GPIO_NUM;
 
-	while(TRUE)
+	while (TRUE)
 	{
 		/*Wait till event is triggered*/
-		if( (GPIO_num == DISABLE_GPIO_NUM)
+		if ((GPIO_num == DISABLE_GPIO_NUM)
 						||
 			((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());
 		}
 
-		if(kthread_should_stop() || Adapter->device_removed )
+		if (kthread_should_stop() || Adapter->device_removed)
 		{
-			BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "Led thread got signal to exit..hence exiting");
+			BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "Led thread got signal to exit..hence exiting");
 			Adapter->LEDInfo.led_thread_running = BCM_LED_THREAD_DISABLED;
-			TURN_OFF_LED(1<<GPIO_num, uiLedIndex);
-			return ;//STATUS_FAILURE;
+			TURN_OFF_LED(1 << GPIO_num, uiLedIndex);
+			return;//STATUS_FAILURE;
 		}
 
-		if(GPIO_num != DISABLE_GPIO_NUM)
+		if (GPIO_num != DISABLE_GPIO_NUM)
 		{
-			TURN_OFF_LED(1<<GPIO_num, uiLedIndex);
+			TURN_OFF_LED(1 << GPIO_num, uiLedIndex);
 		}
 
-		if(Adapter->LEDInfo.bLedInitDone == FALSE)
+		if (Adapter->LEDInfo.bLedInitDone == FALSE)
 		{
 			LedGpioInit(Adapter);
 			Adapter->LEDInfo.bLedInitDone = TRUE;
 		}
 
-		switch(Adapter->DriverState)
+		switch (Adapter->DriverState)
 		{
 			case DRIVER_INIT:
 			{
 				currdriverstate = DRIVER_INIT;//Adapter->DriverState;
 				BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex, &dummyIndex, currdriverstate);
 
-				if(GPIO_num  != DISABLE_GPIO_NUM)
+				if (GPIO_num != DISABLE_GPIO_NUM)
 				{
-					TURN_ON_LED(1<<GPIO_num, uiLedIndex);
+					TURN_ON_LED(1 << GPIO_num, uiLedIndex);
 				}
 			}
 			break;
 			case FW_DOWNLOAD:
 			{
-				//BCM_DEBUG_PRINT (Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: FW_DN_DONE called\n");
+				//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);
+				BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex, &dummyIndex, currdriverstate);
 
-				if(GPIO_num != DISABLE_GPIO_NUM)
+				if (GPIO_num != DISABLE_GPIO_NUM)
 				{
 					timeout = 50;
-					LED_Blink(Adapter, 1<<GPIO_num, uiLedIndex, timeout, -1,currdriverstate);
+					LED_Blink(Adapter, 1 << GPIO_num, uiLedIndex, timeout, -1, currdriverstate);
 				}
 			}
 			break;
 			case FW_DOWNLOAD_DONE:
 			{
 				currdriverstate = FW_DOWNLOAD_DONE;
-				BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex, &dummyIndex,currdriverstate);
-				if(GPIO_num != DISABLE_GPIO_NUM)
+				BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex, &dummyIndex, currdriverstate);
+				if (GPIO_num != DISABLE_GPIO_NUM)
 				{
-					TURN_ON_LED(1<<GPIO_num, uiLedIndex);
+					TURN_ON_LED(1 << GPIO_num, uiLedIndex);
 				}
 			}
 			break;
@@ -716,10 +714,10 @@ static VOID LEDControlThread(PMINI_ADAPTER Adapter)
 			case NO_NETWORK_ENTRY:
 			{
 				currdriverstate = NO_NETWORK_ENTRY;
-				BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex,&dummyGPIONum,currdriverstate);
-				if(GPIO_num != DISABLE_GPIO_NUM)
+				BcmGetGPIOPinInfo(Adapter, &GPIO_num, &dummyGPIONum, &uiLedIndex, &dummyGPIONum, currdriverstate);
+				if (GPIO_num != DISABLE_GPIO_NUM)
 				{
-					TURN_ON_LED(1<<GPIO_num, uiLedIndex);
+					TURN_ON_LED(1 << GPIO_num, uiLedIndex);
 				}
 			}
 			break;
@@ -730,48 +728,48 @@ static VOID LEDControlThread(PMINI_ADAPTER Adapter)
 				UCHAR uiLEDTx = 0;
 				UCHAR uiLEDRx = 0;
 				currdriverstate = NORMAL_OPERATION;
-				Adapter->LEDInfo.bIdle_led_off =  FALSE;
+				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))
+				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 ;
+					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)
+					if (GPIO_num_tx == DISABLE_GPIO_NUM)
 					{
 						GPIO_num_tx = GPIO_num_rx;
 						uiLEDTx = uiLEDRx;
 					}
-					else if(GPIO_num_rx == DISABLE_GPIO_NUM)
+					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);
+					LED_Proportional_Blink(Adapter, GPIO_num_tx, uiLEDTx, GPIO_num_rx, uiLEDRx, currdriverstate);
 				}
 			}
 			break;
 			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++)
+					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;
+				Adapter->LEDInfo.bIdle_led_off = TRUE;
 				wake_up(&Adapter->LEDInfo.idleModeSyncEvent);
 				GPIO_num = DISABLE_GPIO_NUM;
 				break;
@@ -790,39 +788,39 @@ static VOID LEDControlThread(PMINI_ADAPTER Adapter)
 			{
 				currdriverstate = DRIVER_HALT;
 				GPIO_num = DISABLE_GPIO_NUM;
-				for(uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
+				for (uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
 				{
-					if(Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num !=
+					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);
 				}
 				//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...");
+				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 ;
+				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++)
+				for (uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++)
 				{
-					if(Adapter->LEDInfo.LEDState[uiIndex].GPIO_Num !=
+					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)
+				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;
@@ -842,21 +840,21 @@ int InitLedSettings(PMINI_ADAPTER Adapter)
 	/*Initially set BitPolarity to normal polarity. The bit 8 of LED type
  * 	  is used to change the polarity of the LED.*/
 
-	for(uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++) {
+	for (uiIndex = 0; uiIndex < NUM_OF_LEDS; uiIndex++) {
 		Adapter->LEDInfo.LEDState[uiIndex].BitPolarity = 1;
 	}
 
 	/*Read the LED settings of CONFIG file and map it to GPIO numbers in EEPROM*/
 	Status = ReadConfigFileStructure(Adapter, &bEnableThread);
-	if(STATUS_SUCCESS != Status)
+	if (STATUS_SUCCESS != Status)
 	{
-		BCM_DEBUG_PRINT(Adapter,DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL,"LED Thread: FAILED in ReadConfigFileStructure\n");
+		BCM_DEBUG_PRINT(Adapter, DBG_TYPE_OTHERS, LED_DUMP_INFO, DBG_LVL_ALL, "LED Thread: FAILED in ReadConfigFileStructure\n");
 		return Status;
 	}
 
-	if(Adapter->LEDInfo.led_thread_running)
+	if (Adapter->LEDInfo.led_thread_running)
 	{
-		if(bEnableThread)
+		if (bEnableThread)
 			;
 		else
 		{
@@ -867,21 +865,21 @@ int InitLedSettings(PMINI_ADAPTER Adapter)
 
 	}
 
-	else if(bEnableThread)
+	else if (bEnableThread)
 	{
 		/*Create secondary thread to handle the LEDs*/
 		init_waitqueue_head(&Adapter->LEDInfo.notify_led_event);
 		init_waitqueue_head(&Adapter->LEDInfo.idleModeSyncEvent);
 		Adapter->LEDInfo.led_thread_running = BCM_LED_THREAD_RUNNING_ACTIVELY;
-		Adapter->LEDInfo.bIdle_led_off =  FALSE;
+		Adapter->LEDInfo.bIdle_led_off = FALSE;
 		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");
+		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);
-    	}
+		return PTR_ERR(Adapter->LEDInfo.led_cntrl_threadid);
+	}
 	}
 	return Status;
 }
-- 
1.7.5.4

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