[PATCH] staging: winbond: phy_calibration.c Coding style fixes 1/2.

Lars Lindley lindley at coyote.org
Sun May 2 08:44:12 UTC 2010


On 2010-04-29 01:36, Greg KH wrote:
> On Mon, Mar 22, 2010 at 03:50:18PM +0100, Lars Lindley wrote:
>> On 2010-03-22 15:29, Dan Carpenter wrote:
>>> On Mon, Mar 22, 2010 at 03:17:26PM +0100, Lars Lindley wrote:
>>>> Whitespace and indentation fixes. Removed "commented away"
>>>> code and revision comments.
>>>> Checked with Dan Carpenters strip_whitespace.pl and diff.
>>>> Compiles fine and .o file is identical before and after.
>>>>
>>>
>>> 	[ snip ]
>>>
>>>> -#ifdef _DEBUG
>>>> +	/* e. The result are shown in "adc_dc_cal_i[8:0] and adc_dc_cal_q[8:0]" */
>>>> +	#ifdef _DEBUG
>>>>  	hw_get_dxx_reg(phw_data, REG_OFFSET_READ, &val);
>>>>  	PHY_DEBUG(("[CAL]    REG_OFFSET_READ = 0x%08X\n", val));
>>>>  
>>>>  	PHY_DEBUG(("[CAL]    ** adc_dc_cal_i = %d (0x%04X)\n",
>>>> -			   _s9_to_s32(val&0x000001FF), val&0x000001FF));
>>>> +			_s9_to_s32(val & 0x000001FF), val & 0x000001FF));
>>>>  	PHY_DEBUG(("[CAL]    ** adc_dc_cal_q = %d (0x%04X)\n",
>>>> -			   _s9_to_s32((val&0x0003FE00)>>9), (val&0x0003FE00)>>9));
>>>> -#endif
>>>> +			_s9_to_s32((val & 0x0003FE00) >> 9), (val & 0x0003FE00) >> 9));
>>>> +	#endif
>>>>  
>>>
>>> #ifdef and #endif shouldn't be indented.
>>>
>>> I'm really happy that you're using my script.  It feels more relaxing to 
>>> review these when I know that no bugs were introduced.
>>>
>>> regard,
>>> dan carpenter
>>>
>>
>> Hi Dan.
>>
>> It feels good to me to.
>> When you sit with repetitive editing for a couple of hours you're
>> bound to make a mistake or two. :)
>>
>> I made a new patch that applies after these two that fixes the indentation.
>> When we have acks for all the parts I can combine them into one patch.
> 
> Can you merge these together now?
> 
> thanks,
> 
> greg k-h
> 

Same here. Patch against phy-calibration.c including the other patches.


diff --git a/drivers/staging/winbond/phy_calibration.c b/drivers/staging/winbond/phy_calibration.c
index 8c56962..cfc2c3a 100644
--- a/drivers/staging/winbond/phy_calibration.c
+++ b/drivers/staging/winbond/phy_calibration.c
@@ -1,12 +1,7 @@
 /*
- * phy_302_calibration.c
+ * phy_calibration.c
  *
  * Copyright (C) 2002, 2005  Winbond Electronics Corp.
- *
- * modification history
- * ---------------------------------------------------------------------------
- * 0.01.001, 2003-04-16, Kevin      created
- *
  */
 
 /****************** INCLUDE FILES SECTION ***********************************/
@@ -18,326 +13,284 @@
 /****************** DEBUG CONSTANT AND MACRO SECTION ************************/
 
 /****************** LOCAL CONSTANT AND MACRO SECTION ************************/
-#define LOOP_TIMES      20
-#define US              1000//MICROSECOND
+#define LOOP_TIMES	20
+#define US		1000 /* MICROSECOND */
 
-#define AG_CONST        0.6072529350
-#define FIXED(X)        ((s32)((X) * 32768.0))
-#define DEG2RAD(X)      0.017453 * (X)
+#define AG_CONST	0.6072529350
+#define FIXED(X)	((s32)((X) * 32768.0))
+#define DEG2RAD(X)	(0.017453 * (X))
 
 /****************** LOCAL TYPE DEFINITION SECTION ***************************/
-typedef s32         fixed; /* 16.16 fixed-point */
-
-static const fixed Angles[]=
-{
-    FIXED(DEG2RAD(45.0)),    FIXED(DEG2RAD(26.565)),  FIXED(DEG2RAD(14.0362)),
-    FIXED(DEG2RAD(7.12502)), FIXED(DEG2RAD(3.57633)), FIXED(DEG2RAD(1.78991)),
-    FIXED(DEG2RAD(0.895174)),FIXED(DEG2RAD(0.447614)),FIXED(DEG2RAD(0.223811)),
-    FIXED(DEG2RAD(0.111906)),FIXED(DEG2RAD(0.055953)),FIXED(DEG2RAD(0.027977))
+typedef s32		fixed; /* 16.16 fixed-point */
+
+static const fixed Angles[] = {
+	FIXED(DEG2RAD(45.0)),
+	FIXED(DEG2RAD(26.565)),
+	FIXED(DEG2RAD(14.0362)),
+	FIXED(DEG2RAD(7.12502)),
+	FIXED(DEG2RAD(3.57633)),
+	FIXED(DEG2RAD(1.78991)),
+	FIXED(DEG2RAD(0.895174)),
+	FIXED(DEG2RAD(0.447614)),
+	FIXED(DEG2RAD(0.223811)),
+	FIXED(DEG2RAD(0.111906)),
+	FIXED(DEG2RAD(0.055953)),
+	FIXED(DEG2RAD(0.027977))
 };
 
-/****************** LOCAL FUNCTION DECLARATION SECTION **********************/
-//void    _phy_rf_write_delay(struct hw_data *phw_data);
-//void    phy_init_rf(struct hw_data *phw_data);
-
 /****************** FUNCTION DEFINITION SECTION *****************************/
 
 s32 _s13_to_s32(u32 data)
 {
-    u32     val;
+	u32	val;
 
-    val = (data & 0x0FFF);
+	val = (data & 0x0FFF);
 
-    if ((data & BIT(12)) != 0)
-    {
-        val |= 0xFFFFF000;
-    }
+	if ((data & BIT(12)) != 0)
+		val |= 0xFFFFF000;
 
-    return ((s32) val);
+	return (s32) val;
 }
 
 u32 _s32_to_s13(s32 data)
 {
-    u32     val;
+	u32	val;
 
-    if (data > 4095)
-    {
-        data = 4095;
-    }
-    else if (data < -4096)
-    {
-        data = -4096;
-    }
+	if (data > 4095)
+		data = 4095;
+	else if (data < -4096)
+		data = -4096;
 
-    val = data & 0x1FFF;
+	val = data & 0x1FFF;
 
-    return val;
+	return val;
 }
 
 /****************************************************************************/
 s32 _s4_to_s32(u32 data)
 {
-    s32     val;
+	s32	val;
 
-    val = (data & 0x0007);
+	val = (data & 0x0007);
 
-    if ((data & BIT(3)) != 0)
-    {
-        val |= 0xFFFFFFF8;
-    }
+	if ((data & BIT(3)) != 0)
+		val |= 0xFFFFFFF8;
 
-    return val;
+	return val;
 }
 
 u32 _s32_to_s4(s32 data)
 {
-    u32     val;
+	u32	val;
 
-    if (data > 7)
-    {
-        data = 7;
-    }
-    else if (data < -8)
-    {
-        data = -8;
-    }
+	if (data > 7)
+		data = 7;
+	else if (data < -8)
+		data = -8;
 
-    val = data & 0x000F;
+	val = data & 0x000F;
 
-    return val;
+	return val;
 }
 
 /****************************************************************************/
 s32 _s5_to_s32(u32 data)
 {
-    s32     val;
+	s32	val;
 
-    val = (data & 0x000F);
+	val = (data & 0x000F);
 
-    if ((data & BIT(4)) != 0)
-    {
-        val |= 0xFFFFFFF0;
-    }
+	if ((data & BIT(4)) != 0)
+		val |= 0xFFFFFFF0;
 
-    return val;
+	return val;
 }
 
 u32 _s32_to_s5(s32 data)
 {
-    u32     val;
+	u32	val;
 
-    if (data > 15)
-    {
-        data = 15;
-    }
-    else if (data < -16)
-    {
-        data = -16;
-    }
+	if (data > 15)
+		data = 15;
+	else if (data < -16)
+		data = -16;
 
-    val = data & 0x001F;
+	val = data & 0x001F;
 
-    return val;
+	return val;
 }
 
 /****************************************************************************/
 s32 _s6_to_s32(u32 data)
 {
-    s32     val;
+	s32	val;
 
-    val = (data & 0x001F);
+	val = (data & 0x001F);
 
-    if ((data & BIT(5)) != 0)
-    {
-        val |= 0xFFFFFFE0;
-    }
+	if ((data & BIT(5)) != 0)
+		val |= 0xFFFFFFE0;
 
-    return val;
+	return val;
 }
 
 u32 _s32_to_s6(s32 data)
 {
-    u32     val;
+	u32	val;
 
-    if (data > 31)
-    {
-        data = 31;
-    }
-    else if (data < -32)
-    {
-        data = -32;
-    }
+	if (data > 31)
+		data = 31;
+	else if (data < -32)
+		data = -32;
 
-    val = data & 0x003F;
+	val = data & 0x003F;
 
-    return val;
+	return val;
 }
 
 /****************************************************************************/
 s32 _s9_to_s32(u32 data)
 {
-    s32     val;
+	s32	val;
 
-    val = data & 0x00FF;
+	val = data & 0x00FF;
 
-    if ((data & BIT(8)) != 0)
-    {
-        val |= 0xFFFFFF00;
-    }
+	if ((data & BIT(8)) != 0)
+		val |= 0xFFFFFF00;
 
-    return val;
+	return val;
 }
 
 u32 _s32_to_s9(s32 data)
 {
-    u32     val;
+	u32	val;
 
-    if (data > 255)
-    {
-        data = 255;
-    }
-    else if (data < -256)
-    {
-        data = -256;
-    }
+	if (data > 255)
+		data = 255;
+	else if (data < -256)
+		data = -256;
 
-    val = data & 0x01FF;
+	val = data & 0x01FF;
 
-    return val;
+	return val;
 }
 
 /****************************************************************************/
 s32 _floor(s32 n)
 {
-    if (n > 0)
-    {
-        n += 5;
-    }
-    else
-    {
-        n -= 5;
-    }
-
-    return (n/10);
+	if (n > 0)
+		n += 5;
+	else
+		n -= 5;
+
+	return n / 10;
 }
 
-/****************************************************************************/
-// The following code is sqare-root function.
-// sqsum is the input and the output is sq_rt;
-// The maximum of sqsum = 2^27 -1;
+/*
+ * The following code is sqare-root function.
+ * sqsum is the input and the output is sq_rt;
+ * The maximum of sqsum = 2^27 -1;
+ */
 u32 _sqrt(u32 sqsum)
 {
-    u32     sq_rt;
-
-    int     g0, g1, g2, g3, g4;
-    int     seed;
-    int     next;
-    int     step;
-
-    g4 =  sqsum / 100000000;
-    g3 = (sqsum - g4*100000000) /1000000;
-    g2 = (sqsum - g4*100000000 - g3*1000000) /10000;
-    g1 = (sqsum - g4*100000000 - g3*1000000 - g2*10000) /100;
-    g0 = (sqsum - g4*100000000 - g3*1000000 - g2*10000 - g1*100);
-
-    next = g4;
-    step = 0;
-    seed = 0;
-    while (((seed+1)*(step+1)) <= next)
-    {
-    	step++;
-    	seed++;
-    }
-
-    sq_rt = seed * 10000;
-    next = (next-(seed*step))*100 + g3;
-
-    step = 0;
-    seed = 2 * seed * 10;
-    while (((seed+1)*(step+1)) <= next)
-    {
-        step++;
-    	seed++;
-    }
-
-    sq_rt = sq_rt + step * 1000;
-    next = (next - seed * step) * 100 + g2;
-    seed = (seed + step) * 10;
-    step = 0;
-    while (((seed+1)*(step+1)) <= next)
-    {
-        step++;
-    	seed++;
-    }
-
-    sq_rt = sq_rt + step * 100;
-    next = (next - seed * step) * 100 + g1;
-    seed = (seed + step) * 10;
-    step = 0;
-
-    while (((seed+1)*(step+1)) <= next)
-    {
-        step++;
-    	seed++;
-    }
-
-    sq_rt = sq_rt + step * 10;
-    next = (next - seed* step) * 100 + g0;
-    seed = (seed + step) * 10;
-    step = 0;
-
-    while (((seed+1)*(step+1)) <= next)
-    {
-        step++;
-    	seed++;
-    }
-
-    sq_rt = sq_rt + step;
-
-    return sq_rt;
+	u32	sq_rt;
+
+	int	g0, g1, g2, g3, g4;
+	int	seed;
+	int	next;
+	int	step;
+
+	g4 =  sqsum / 100000000;
+	g3 = (sqsum - g4 * 100000000) / 1000000;
+	g2 = (sqsum - g4 * 100000000 - g3 * 1000000) / 10000;
+	g1 = (sqsum - g4 * 100000000 - g3 * 1000000 - g2 * 10000) / 100;
+	g0 = (sqsum - g4 * 100000000 - g3 * 1000000 - g2 * 10000 - g1 * 100);
+
+	next = g4;
+	step = 0;
+	seed = 0;
+	while (((seed + 1) * (step + 1)) <= next) {
+		step++;
+		seed++;
+	}
+
+	sq_rt = seed * 10000;
+	next = (next-(seed*step))*100 + g3;
+
+	step = 0;
+	seed = 2 * seed * 10;
+	while (((seed + 1) * (step + 1)) <= next) {
+		step++;
+		seed++;
+	}
+
+	sq_rt = sq_rt + step * 1000;
+	next = (next - seed * step) * 100 + g2;
+	seed = (seed + step) * 10;
+	step = 0;
+	while (((seed + 1) * (step + 1)) <= next) {
+		step++;
+		seed++;
+	}
+
+	sq_rt = sq_rt + step * 100;
+	next = (next - seed * step) * 100 + g1;
+	seed = (seed + step) * 10;
+	step = 0;
+
+	while (((seed + 1) * (step + 1)) <= next) {
+		step++;
+		seed++;
+	}
+
+	sq_rt = sq_rt + step * 10;
+	next = (next - seed * step) * 100 + g0;
+	seed = (seed + step) * 10;
+	step = 0;
+
+	while (((seed + 1) * (step + 1)) <= next) {
+		step++;
+		seed++;
+	}
+
+	sq_rt = sq_rt + step;
+
+	return sq_rt;
 }
 
 /****************************************************************************/
 void _sin_cos(s32 angle, s32 *sin, s32 *cos)
 {
-    fixed       X, Y, TargetAngle, CurrAngle;
-    unsigned    Step;
-
-    X=FIXED(AG_CONST);      // AG_CONST * cos(0)
-    Y=0;                    // AG_CONST * sin(0)
-    TargetAngle=abs(angle);
-    CurrAngle=0;
-
-    for (Step=0; Step < 12; Step++)
-    {
-        fixed NewX;
-
-        if(TargetAngle > CurrAngle)
-        {
-            NewX=X - (Y >> Step);
-            Y=(X >> Step) + Y;
-            X=NewX;
-            CurrAngle += Angles[Step];
-        }
-        else
-        {
-            NewX=X + (Y >> Step);
-            Y=-(X >> Step) + Y;
-            X=NewX;
-            CurrAngle -= Angles[Step];
-        }
-    }
-
-    if (angle > 0)
-    {
-        *cos = X;
-        *sin = Y;
-    }
-    else
-    {
-        *cos = X;
-        *sin = -Y;
-    }
+	fixed		X, Y, TargetAngle, CurrAngle;
+	unsigned	Step;
+
+	X = FIXED(AG_CONST);	/* AG_CONST * cos(0) */
+	Y = 0;			/* AG_CONST * sin(0) */
+	TargetAngle = abs(angle);
+	CurrAngle = 0;
+
+	for (Step = 0; Step < 12; Step++) {
+		fixed NewX;
+
+		if (TargetAngle > CurrAngle) {
+			NewX = X - (Y >> Step);
+			Y = (X >> Step) + Y;
+			X = NewX;
+			CurrAngle += Angles[Step];
+		} else {
+			NewX = X + (Y >> Step);
+			Y = -(X >> Step) + Y;
+			X = NewX;
+			CurrAngle -= Angles[Step];
+		}
+	}
+
+	if (angle > 0) {
+		*cos = X;
+		*sin = Y;
+	} else {
+		*cos = X;
+		*sin = -Y;
+	}
 }
 
 static unsigned char hal_get_dxx_reg(struct hw_data *pHwData, u16 number, u32 * pValue)
@@ -346,7 +299,7 @@ static unsigned char hal_get_dxx_reg(struct hw_data *pHwData, u16 number, u32 *
 		number += 0x1000;
 	return Wb35Reg_ReadSync(pHwData, number, pValue);
 }
-#define hw_get_dxx_reg( _A, _B, _C ) hal_get_dxx_reg( _A, _B, (u32 *)_C )
+#define hw_get_dxx_reg(_A, _B, _C) hal_get_dxx_reg(_A, _B, (u32 *)_C)
 
 static unsigned char hal_set_dxx_reg(struct hw_data *pHwData, u16 number, u32 value)
 {
@@ -357,83 +310,69 @@ static unsigned char hal_set_dxx_reg(struct hw_data *pHwData, u16 number, u32 va
 	ret = Wb35Reg_WriteSync(pHwData, number, value);
 	return ret;
 }
-#define hw_set_dxx_reg( _A, _B, _C ) hal_set_dxx_reg( _A, _B, (u32)_C )
+#define hw_set_dxx_reg(_A, _B, _C) hal_set_dxx_reg(_A, _B, (u32)_C)
 
 
 void _reset_rx_cal(struct hw_data *phw_data)
 {
-	u32     val;
+	u32	val;
 
 	hw_get_dxx_reg(phw_data, 0x54, &val);
 
-	if (phw_data->revision == 0x2002) // 1st-cut
-	{
+	if (phw_data->revision == 0x2002) /* 1st-cut */
 		val &= 0xFFFF0000;
-	}
-	else // 2nd-cut
-	{
+	else /* 2nd-cut */
 		val &= 0x000003FF;
-	}
 
 	hw_set_dxx_reg(phw_data, 0x54, val);
 }
 
 
-// ************for winbond calibration*********
-//
+/**************for winbond calibration*********/
 
-//
-//
-// *********************************************
 void _rxadc_dc_offset_cancellation_winbond(struct hw_data *phw_data, u32 frequency)
 {
-    u32     reg_agc_ctrl3;
-    u32     reg_a_acq_ctrl;
-    u32     reg_b_acq_ctrl;
-    u32     val;
-
-    PHY_DEBUG(("[CAL] -> [1]_rxadc_dc_offset_cancellation()\n"));
-    phy_init_rf(phw_data);
-
-    // set calibration channel
-    if( (RF_WB_242 == phw_data->phy_type) ||
-		(RF_WB_242_1 == phw_data->phy_type) ) // 20060619.5 Add
-    {
-        if ((frequency >= 2412) && (frequency <= 2484))
-        {
-            // w89rf242 change frequency to 2390Mhz
-            PHY_DEBUG(("[CAL] W89RF242/11G/Channel=2390Mhz\n"));
-			phy_set_rf_data(phw_data, 3, (3<<24)|0x025586);
-
-        }
-    }
-    else
-	{
+	u32	reg_agc_ctrl3;
+	u32	reg_a_acq_ctrl;
+	u32	reg_b_acq_ctrl;
+	u32	val;
+
+	PHY_DEBUG(("[CAL] -> [1]_rxadc_dc_offset_cancellation()\n"));
+	phy_init_rf(phw_data);
 
+	/* set calibration channel */
+	if ((RF_WB_242 == phw_data->phy_type) ||
+		(RF_WB_242_1 == phw_data->phy_type)) {
+		if ((frequency >= 2412) && (frequency <= 2484)) {
+			/* w89rf242 change frequency to 2390Mhz */
+			PHY_DEBUG(("[CAL] W89RF242/11G/Channel=2390Mhz\n"));
+			phy_set_rf_data(phw_data, 3, (3 << 24)|0x025586);
+		}
+	} else {
 	}
 
-	// reset cancel_dc_i[9:5] and cancel_dc_q[4:0] in register DC_Cancel
+	/* reset cancel_dc_i[9:5] and cancel_dc_q[4:0] in register DC_Cancel */
 	hw_get_dxx_reg(phw_data, 0x5C, &val);
 	val &= ~(0x03FF);
 	hw_set_dxx_reg(phw_data, 0x5C, val);
 
-	// reset the TX and RX IQ calibration data
+	/* reset the TX and RX IQ calibration data */
 	hw_set_dxx_reg(phw_data, 0x3C, 0);
 	hw_set_dxx_reg(phw_data, 0x54, 0);
 
-	hw_set_dxx_reg(phw_data, 0x58, 0x30303030); // IQ_Alpha Changed
+	hw_set_dxx_reg(phw_data, 0x58, 0x30303030); /* IQ_Alpha Changed */
 
-	// a. Disable AGC
+	/* a. Disable AGC */
 	hw_get_dxx_reg(phw_data, REG_AGC_CTRL3, &reg_agc_ctrl3);
 	reg_agc_ctrl3 &= ~BIT(2);
-	reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN|MASK_AGC_FIX);
+	reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN | MASK_AGC_FIX);
 	hw_set_dxx_reg(phw_data, REG_AGC_CTRL3, reg_agc_ctrl3);
 
 	hw_get_dxx_reg(phw_data, REG_AGC_CTRL5, &val);
 	val |= MASK_AGC_FIX_GAIN;
 	hw_set_dxx_reg(phw_data, REG_AGC_CTRL5, val);
 
-	// b. Turn off BB RX
+	/* b. Turn off BB RX */
 	hw_get_dxx_reg(phw_data, REG_A_ACQ_CTRL, &reg_a_acq_ctrl);
 	reg_a_acq_ctrl |= MASK_AMER_OFF_REG;
 	hw_set_dxx_reg(phw_data, REG_A_ACQ_CTRL, reg_a_acq_ctrl);
@@ -442,9 +381,11 @@ void _rxadc_dc_offset_cancellation_winbond(struct hw_data *phw_data, u32 frequen
 	reg_b_acq_ctrl |= MASK_BMER_OFF_REG;
 	hw_set_dxx_reg(phw_data, REG_B_ACQ_CTRL, reg_b_acq_ctrl);
 
-	// c. Make sure MAC is in receiving mode
-	// d. Turn ON ADC calibration
-	//    - ADC calibrator is triggered by this signal rising from 0 to 1
+	/*
+	 * c. Make sure MAC is in receiving mode
+	 * d. Turn ON ADC calibration
+	 *     - ADC calibrator is triggered by this signal rising from 0 to 1
+	 */
 	hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &val);
 	val &= ~MASK_ADC_DC_CAL_STR;
 	hw_set_dxx_reg(phw_data, REG_MODE_CTRL, val);
@@ -452,105 +393,93 @@ void _rxadc_dc_offset_cancellation_winbond(struct hw_data *phw_data, u32 frequen
 	val |= MASK_ADC_DC_CAL_STR;
 	hw_set_dxx_reg(phw_data, REG_MODE_CTRL, val);
 
-	// e. The result are shown in "adc_dc_cal_i[8:0] and adc_dc_cal_q[8:0]"
+	/* e. The result are shown in "adc_dc_cal_i[8:0] and adc_dc_cal_q[8:0]" */
 #ifdef _DEBUG
 	hw_get_dxx_reg(phw_data, REG_OFFSET_READ, &val);
 	PHY_DEBUG(("[CAL]    REG_OFFSET_READ = 0x%08X\n", val));
 
 	PHY_DEBUG(("[CAL]    ** adc_dc_cal_i = %d (0x%04X)\n",
-			   _s9_to_s32(val&0x000001FF), val&0x000001FF));
+			_s9_to_s32(val & 0x000001FF), val & 0x000001FF));
 	PHY_DEBUG(("[CAL]    ** adc_dc_cal_q = %d (0x%04X)\n",
-			   _s9_to_s32((val&0x0003FE00)>>9), (val&0x0003FE00)>>9));
+			_s9_to_s32((val & 0x0003FE00) >> 9), (val & 0x0003FE00) >> 9));
 #endif
 
 	hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &val);
 	val &= ~MASK_ADC_DC_CAL_STR;
 	hw_set_dxx_reg(phw_data, REG_MODE_CTRL, val);
 
-	// f. Turn on BB RX
-	//hw_get_dxx_reg(phw_data, REG_A_ACQ_CTRL, &reg_a_acq_ctrl);
+	/* f. Turn on BB RX */
 	reg_a_acq_ctrl &= ~MASK_AMER_OFF_REG;
 	hw_set_dxx_reg(phw_data, REG_A_ACQ_CTRL, reg_a_acq_ctrl);
 
-	//hw_get_dxx_reg(phw_data, REG_B_ACQ_CTRL, &reg_b_acq_ctrl);
 	reg_b_acq_ctrl &= ~MASK_BMER_OFF_REG;
 	hw_set_dxx_reg(phw_data, REG_B_ACQ_CTRL, reg_b_acq_ctrl);
 
-	// g. Enable AGC
-	//hw_get_dxx_reg(phw_data, REG_AGC_CTRL3, &val);
+	/* g. Enable AGC */
 	reg_agc_ctrl3 |= BIT(2);
-	reg_agc_ctrl3 &= ~(MASK_LNA_FIX_GAIN|MASK_AGC_FIX);
+	reg_agc_ctrl3 &= ~(MASK_LNA_FIX_GAIN | MASK_AGC_FIX);
 	hw_set_dxx_reg(phw_data, REG_AGC_CTRL3, reg_agc_ctrl3);
 }
 
-////////////////////////////////////////////////////////
 void _txidac_dc_offset_cancellation_winbond(struct hw_data *phw_data)
 {
-	u32     reg_agc_ctrl3;
-	u32     reg_mode_ctrl;
-	u32     reg_dc_cancel;
-	s32     iqcal_image_i;
-	s32     iqcal_image_q;
-	u32     sqsum;
-	s32     mag_0;
-	s32     mag_1;
-	s32     fix_cancel_dc_i = 0;
-	u32     val;
-	int     loop;
+	u32	reg_agc_ctrl3;
+	u32	reg_mode_ctrl;
+	u32	reg_dc_cancel;
+	s32	iqcal_image_i;
+	s32	iqcal_image_q;
+	u32	sqsum;
+	s32	mag_0;
+	s32	mag_1;
+	s32	fix_cancel_dc_i = 0;
+	u32	val;
+	int	loop;
 
 	PHY_DEBUG(("[CAL] -> [2]_txidac_dc_offset_cancellation()\n"));
 
-	// a. Set to "TX calibration mode"
+	/* a. Set to "TX calibration mode" */
 
-	//0x01 0xEE3FC2  ; 3B8FF  ; Calibration (6a). enable TX IQ calibration loop circuits
-	phy_set_rf_data(phw_data, 1, (1<<24)|0xEE3FC2);
-	//0x0B 0x1905D6  ; 06417  ; Calibration (6b). enable TX I/Q cal loop squaring circuit
-	phy_set_rf_data(phw_data, 11, (11<<24)|0x1901D6);
-	//0x05 0x24C60A  ; 09318  ; Calibration (6c). setting TX-VGA gain: TXGCH=2 & GPK=110 --> to be optimized
-	phy_set_rf_data(phw_data, 5, (5<<24)|0x24C48A);
-    //0x06 0x06880C  ; 01A20  ; Calibration (6d). RXGCH=00; RXGCL=100 000 (RXVGA=32) --> to be optimized
-	phy_set_rf_data(phw_data, 6, (6<<24)|0x06890C);
-	//0x00 0xFDF1C0  ; 3F7C7  ; Calibration (6e). turn on IQ imbalance/Test mode
-	phy_set_rf_data(phw_data, 0, (0<<24)|0xFDF1C0);
+	/* 0x01 0xEE3FC2  ; 3B8FF  ; Calibration (6a). enable TX IQ calibration loop circuits */
+	phy_set_rf_data(phw_data, 1, (1 << 24) | 0xEE3FC2);
+	/*0x0B 0x1905D6  ; 06417  ; Calibration (6b). enable TX I/Q cal loop squaring circuit */
+	phy_set_rf_data(phw_data, 11, (11 << 24) | 0x1901D6);
+	/* 0x05 0x24C60A  ; 09318  ; Calibration (6c). setting TX-VGA gain: TXGCH=2 & GPK=110 --> to be optimized */
+	phy_set_rf_data(phw_data, 5, (5 << 24) | 0x24C48A);
+	/* 0x06 0x06880C  ; 01A20  ; Calibration (6d). RXGCH=00; RXGCL=100 000 (RXVGA=32) --> to be optimized */
+	phy_set_rf_data(phw_data, 6, (6 << 24) | 0x06890C);
+	/* 0x00 0xFDF1C0  ; 3F7C7  ; Calibration (6e). turn on IQ imbalance/Test mode */
+	phy_set_rf_data(phw_data, 0, (0 << 24) | 0xFDF1C0);
 
-	hw_set_dxx_reg(phw_data, 0x58, 0x30303030); // IQ_Alpha Changed
+	hw_set_dxx_reg(phw_data, 0x58, 0x30303030); /* IQ_Alpha Changed */
 
-	// a. Disable AGC
+	/* a. Disable AGC */
 	hw_get_dxx_reg(phw_data, REG_AGC_CTRL3, &reg_agc_ctrl3);
 	reg_agc_ctrl3 &= ~BIT(2);
-	reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN|MASK_AGC_FIX);
+	reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN | MASK_AGC_FIX);
 	hw_set_dxx_reg(phw_data, REG_AGC_CTRL3, reg_agc_ctrl3);
 
 	hw_get_dxx_reg(phw_data, REG_AGC_CTRL5, &val);
 	val |= MASK_AGC_FIX_GAIN;
 	hw_set_dxx_reg(phw_data, REG_AGC_CTRL5, val);
 
-	// b. set iqcal_mode[1:0] to 0x2 and set iqcal_tone[3:2] to 0
+	/* b. set iqcal_mode[1:0] to 0x2 and set iqcal_tone[3:2] to 0 */
 	hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &reg_mode_ctrl);
 
 	PHY_DEBUG(("[CAL]    MODE_CTRL (read) = 0x%08X\n", reg_mode_ctrl));
-	reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL|MASK_IQCAL_MODE);
+	reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL | MASK_IQCAL_MODE);
 
-	// mode=2, tone=0
-	//reg_mode_ctrl |= (MASK_CALIB_START|2);
-
-	// mode=2, tone=1
-	//reg_mode_ctrl |= (MASK_CALIB_START|2|(1<<2));
-
-	// mode=2, tone=2
-	reg_mode_ctrl |= (MASK_CALIB_START|2|(2<<2));
+	/* mode=2, tone=2 */
+	reg_mode_ctrl |= (MASK_CALIB_START | 2 | (2 << 2));
 	hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl);
 	PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
 
 	hw_get_dxx_reg(phw_data, 0x5C, &reg_dc_cancel);
 	PHY_DEBUG(("[CAL]    DC_CANCEL (read) = 0x%08X\n", reg_dc_cancel));
 
-	for (loop = 0; loop < LOOP_TIMES; loop++)
-	{
+	for (loop = 0; loop < LOOP_TIMES; loop++) {
 		PHY_DEBUG(("[CAL] [%d.] ==================================\n", loop));
 
-		// c.
-		// reset cancel_dc_i[9:5] and cancel_dc_q[4:0] in register DC_Cancel
+		/* c. reset cancel_dc_i[9:5] and cancel_dc_q[4:0] in register DC_Cancel */
 		reg_dc_cancel &= ~(0x03FF);
 		PHY_DEBUG(("[CAL]    DC_CANCEL (write) = 0x%08X\n", reg_dc_cancel));
 		hw_set_dxx_reg(phw_data, 0x5C, reg_dc_cancel);
@@ -560,12 +489,12 @@ void _txidac_dc_offset_cancellation_winbond(struct hw_data *phw_data)
 
 		iqcal_image_i = _s13_to_s32(val & 0x00001FFF);
 		iqcal_image_q = _s13_to_s32((val & 0x03FFE000) >> 13);
-		sqsum = iqcal_image_i*iqcal_image_i + iqcal_image_q*iqcal_image_q;
+		sqsum = iqcal_image_i * iqcal_image_i + iqcal_image_q * iqcal_image_q;
 		mag_0 = (s32) _sqrt(sqsum);
 		PHY_DEBUG(("[CAL]    mag_0=%d (iqcal_image_i=%d, iqcal_image_q=%d)\n",
-				   mag_0, iqcal_image_i, iqcal_image_q));
+					mag_0, iqcal_image_i, iqcal_image_q));
 
-		// d.
+		/* d. */
 		reg_dc_cancel |= (1 << CANCEL_DC_I_SHIFT);
 		PHY_DEBUG(("[CAL]    DC_CANCEL (write) = 0x%08X\n", reg_dc_cancel));
 		hw_set_dxx_reg(phw_data, 0x5C, reg_dc_cancel);
@@ -575,22 +504,17 @@ void _txidac_dc_offset_cancellation_winbond(struct hw_data *phw_data)
 
 		iqcal_image_i = _s13_to_s32(val & 0x00001FFF);
 		iqcal_image_q = _s13_to_s32((val & 0x03FFE000) >> 13);
-		sqsum = iqcal_image_i*iqcal_image_i + iqcal_image_q*iqcal_image_q;
+		sqsum = iqcal_image_i * iqcal_image_i + iqcal_image_q * iqcal_image_q;
 		mag_1 = (s32) _sqrt(sqsum);
 		PHY_DEBUG(("[CAL]    mag_1=%d (iqcal_image_i=%d, iqcal_image_q=%d)\n",
 				   mag_1, iqcal_image_i, iqcal_image_q));
 
-		// e. Calculate the correct DC offset cancellation value for I
-		if (mag_0 != mag_1)
-		{
-			fix_cancel_dc_i = (mag_0*10000) / (mag_0*10000 - mag_1*10000);
-		}
-		else
-		{
+		/* e. Calculate the correct DC offset cancellation value for I */
+		if (mag_0 != mag_1) {
+			fix_cancel_dc_i = (mag_0 * 10000) / (mag_0 * 10000 - mag_1 * 10000);
+		} else {
 			if (mag_0 == mag_1)
-			{
 				PHY_DEBUG(("[CAL]   ***** mag_0 = mag_1 !!\n"));
-			}
 
 			fix_cancel_dc_i = 0;
 		}
@@ -598,70 +522,66 @@ void _txidac_dc_offset_cancellation_winbond(struct hw_data *phw_data)
 		PHY_DEBUG(("[CAL]    ** fix_cancel_dc_i = %d (0x%04X)\n",
 				   fix_cancel_dc_i, _s32_to_s5(fix_cancel_dc_i)));
 
-		if ((abs(mag_1-mag_0)*6) > mag_0)
-		{
+		if ((abs(mag_1 - mag_0) * 6) > mag_0)
 			break;
-		}
 	}
 
-	if ( loop >= 19 )
-	   fix_cancel_dc_i = 0;
+	if (loop >= 19)
+		fix_cancel_dc_i = 0;
 
 	reg_dc_cancel &= ~(0x03FF);
 	reg_dc_cancel |= (_s32_to_s5(fix_cancel_dc_i) << CANCEL_DC_I_SHIFT);
 	hw_set_dxx_reg(phw_data, 0x5C, reg_dc_cancel);
 	PHY_DEBUG(("[CAL]    DC_CANCEL (write) = 0x%08X\n", reg_dc_cancel));
 
-	// g.
+	/* g. */
 	reg_mode_ctrl &= ~MASK_CALIB_START;
 	hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl);
 	PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
 }
 
-///////////////////////////////////////////////////////
 void _txqdac_dc_offset_cacellation_winbond(struct hw_data *phw_data)
 {
-	u32     reg_agc_ctrl3;
-	u32     reg_mode_ctrl;
-	u32     reg_dc_cancel;
-	s32     iqcal_image_i;
-	s32     iqcal_image_q;
-	u32     sqsum;
-	s32     mag_0;
-	s32     mag_1;
-	s32     fix_cancel_dc_q = 0;
-	u32     val;
-	int     loop;
+	u32	reg_agc_ctrl3;
+	u32	reg_mode_ctrl;
+	u32	reg_dc_cancel;
+	s32	iqcal_image_i;
+	s32	iqcal_image_q;
+	u32	sqsum;
+	s32	mag_0;
+	s32	mag_1;
+	s32	fix_cancel_dc_q = 0;
+	u32	val;
+	int	loop;
 
 	PHY_DEBUG(("[CAL] -> [3]_txqdac_dc_offset_cacellation()\n"));
-	//0x01 0xEE3FC2  ; 3B8FF  ; Calibration (6a). enable TX IQ calibration loop circuits
-	phy_set_rf_data(phw_data, 1, (1<<24)|0xEE3FC2);
-	//0x0B 0x1905D6  ; 06417  ; Calibration (6b). enable TX I/Q cal loop squaring circuit
-	phy_set_rf_data(phw_data, 11, (11<<24)|0x1901D6);
-	//0x05 0x24C60A  ; 09318  ; Calibration (6c). setting TX-VGA gain: TXGCH=2 & GPK=110 --> to be optimized
-	phy_set_rf_data(phw_data, 5, (5<<24)|0x24C48A);
-    //0x06 0x06880C  ; 01A20  ; Calibration (6d). RXGCH=00; RXGCL=100 000 (RXVGA=32) --> to be optimized
-	phy_set_rf_data(phw_data, 6, (6<<24)|0x06890C);
-	//0x00 0xFDF1C0  ; 3F7C7  ; Calibration (6e). turn on IQ imbalance/Test mode
-	phy_set_rf_data(phw_data, 0, (0<<24)|0xFDF1C0);
-
-	hw_set_dxx_reg(phw_data, 0x58, 0x30303030); // IQ_Alpha Changed
-
-	// a. Disable AGC
+	/* 0x01 0xEE3FC2  ; 3B8FF  ; Calibration (6a). enable TX IQ calibration loop circuits */
+	phy_set_rf_data(phw_data, 1, (1 << 24) | 0xEE3FC2);
+	/* 0x0B 0x1905D6  ; 06417  ; Calibration (6b). enable TX I/Q cal loop squaring circuit */
+	phy_set_rf_data(phw_data, 11, (11 << 24) | 0x1901D6);
+	/* 0x05 0x24C60A  ; 09318  ; Calibration (6c). setting TX-VGA gain: TXGCH=2 & GPK=110 --> to be optimized */
+	phy_set_rf_data(phw_data, 5, (5 << 24) | 0x24C48A);
+	/* 0x06 0x06880C  ; 01A20  ; Calibration (6d). RXGCH=00; RXGCL=100 000 (RXVGA=32) --> to be optimized */
+	phy_set_rf_data(phw_data, 6, (6 << 24) | 0x06890C);
+	/* 0x00 0xFDF1C0  ; 3F7C7  ; Calibration (6e). turn on IQ imbalance/Test mode */
+	phy_set_rf_data(phw_data, 0, (0 << 24) | 0xFDF1C0);
+
+	hw_set_dxx_reg(phw_data, 0x58, 0x30303030); /* IQ_Alpha Changed */
+
+	/* a. Disable AGC */
 	hw_get_dxx_reg(phw_data, REG_AGC_CTRL3, &reg_agc_ctrl3);
 	reg_agc_ctrl3 &= ~BIT(2);
-	reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN|MASK_AGC_FIX);
+	reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN | MASK_AGC_FIX);
 	hw_set_dxx_reg(phw_data, REG_AGC_CTRL3, reg_agc_ctrl3);
 
 	hw_get_dxx_reg(phw_data, REG_AGC_CTRL5, &val);
 	val |= MASK_AGC_FIX_GAIN;
 	hw_set_dxx_reg(phw_data, REG_AGC_CTRL5, val);
 
-	// a. set iqcal_mode[1:0] to 0x3 and set iqcal_tone[3:2] to 0
+	/* a. set iqcal_mode[1:0] to 0x3 and set iqcal_tone[3:2] to 0 */
 	hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &reg_mode_ctrl);
 	PHY_DEBUG(("[CAL]    MODE_CTRL (read) = 0x%08X\n", reg_mode_ctrl));
 
-	//reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL|MASK_IQCAL_MODE);
 	reg_mode_ctrl &= ~(MASK_IQCAL_MODE);
 	reg_mode_ctrl |= (MASK_CALIB_START|3);
 	hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl);
@@ -670,12 +590,10 @@ void _txqdac_dc_offset_cacellation_winbond(struct hw_data *phw_data)
 	hw_get_dxx_reg(phw_data, 0x5C, &reg_dc_cancel);
 	PHY_DEBUG(("[CAL]    DC_CANCEL (read) = 0x%08X\n", reg_dc_cancel));
 
-	for (loop = 0; loop < LOOP_TIMES; loop++)
-	{
+	for (loop = 0; loop < LOOP_TIMES; loop++) {
 		PHY_DEBUG(("[CAL] [%d.] ==================================\n", loop));
 
-		// b.
-		// reset cancel_dc_q[4:0] in register DC_Cancel
+		/* b. reset cancel_dc_q[4:0] in register DC_Cancel */
 		reg_dc_cancel &= ~(0x001F);
 		PHY_DEBUG(("[CAL]    DC_CANCEL (write) = 0x%08X\n", reg_dc_cancel));
 		hw_set_dxx_reg(phw_data, 0x5C, reg_dc_cancel);
@@ -685,12 +603,12 @@ void _txqdac_dc_offset_cacellation_winbond(struct hw_data *phw_data)
 
 		iqcal_image_i = _s13_to_s32(val & 0x00001FFF);
 		iqcal_image_q = _s13_to_s32((val & 0x03FFE000) >> 13);
-		sqsum = iqcal_image_i*iqcal_image_i + iqcal_image_q*iqcal_image_q;
+		sqsum = iqcal_image_i * iqcal_image_i + iqcal_image_q * iqcal_image_q;
 		mag_0 = _sqrt(sqsum);
 		PHY_DEBUG(("[CAL]    mag_0=%d (iqcal_image_i=%d, iqcal_image_q=%d)\n",
 				   mag_0, iqcal_image_i, iqcal_image_q));
 
-		// c.
+		/* c. */
 		reg_dc_cancel |= (1 << CANCEL_DC_Q_SHIFT);
 		PHY_DEBUG(("[CAL]    DC_CANCEL (write) = 0x%08X\n", reg_dc_cancel));
 		hw_set_dxx_reg(phw_data, 0x5C, reg_dc_cancel);
@@ -700,22 +618,17 @@ void _txqdac_dc_offset_cacellation_winbond(struct hw_data *phw_data)
 
 		iqcal_image_i = _s13_to_s32(val & 0x00001FFF);
 		iqcal_image_q = _s13_to_s32((val & 0x03FFE000) >> 13);
-		sqsum = iqcal_image_i*iqcal_image_i + iqcal_image_q*iqcal_image_q;
+		sqsum = iqcal_image_i * iqcal_image_i + iqcal_image_q * iqcal_image_q;
 		mag_1 = _sqrt(sqsum);
 		PHY_DEBUG(("[CAL]    mag_1=%d (iqcal_image_i=%d, iqcal_image_q=%d)\n",
 				   mag_1, iqcal_image_i, iqcal_image_q));
 
-		// d. Calculate the correct DC offset cancellation value for I
-		if (mag_0 != mag_1)
-		{
+		/* d. Calculate the correct DC offset cancellation value for I */
+		if (mag_0 != mag_1) {
 			fix_cancel_dc_q = (mag_0*10000) / (mag_0*10000 - mag_1*10000);
-		}
-		else
-		{
+		} else {
 			if (mag_0 == mag_1)
-			{
 				PHY_DEBUG(("[CAL]   ***** mag_0 = mag_1 !!\n"));
-			}
 
 			fix_cancel_dc_q = 0;
 		}
@@ -723,14 +636,12 @@ void _txqdac_dc_offset_cacellation_winbond(struct hw_data *phw_data)
 		PHY_DEBUG(("[CAL]    ** fix_cancel_dc_q = %d (0x%04X)\n",
 				   fix_cancel_dc_q, _s32_to_s5(fix_cancel_dc_q)));
 
-		if ((abs(mag_1-mag_0)*6) > mag_0)
-		{
+		if ((abs(mag_1 - mag_0) * 6) > mag_0)
 			break;
-		}
 	}
 
-	if ( loop >= 19 )
-	   fix_cancel_dc_q = 0;
+	if (loop >= 19)
+		fix_cancel_dc_q = 0;
 
 	reg_dc_cancel &= ~(0x001F);
 	reg_dc_cancel |= (_s32_to_s5(fix_cancel_dc_q) << CANCEL_DC_Q_SHIFT);
@@ -738,39 +649,38 @@ void _txqdac_dc_offset_cacellation_winbond(struct hw_data *phw_data)
 	PHY_DEBUG(("[CAL]    DC_CANCEL (write) = 0x%08X\n", reg_dc_cancel));
 
 
-	// f.
+	/* f. */
 	reg_mode_ctrl &= ~MASK_CALIB_START;
 	hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl);
 	PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
 }
 
-//20060612.1.a 20060718.1 Modify
 u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data,
 						   s32 a_2_threshold,
 						   s32 b_2_threshold)
 {
-	u32     reg_mode_ctrl;
-	s32     iq_mag_0_tx;
-	s32     iqcal_tone_i0;
-	s32     iqcal_tone_q0;
-	s32     iqcal_tone_i;
-	s32     iqcal_tone_q;
-	u32     sqsum;
-	s32     rot_i_b;
-	s32     rot_q_b;
-	s32     tx_cal_flt_b[4];
-	s32     tx_cal[4];
-	s32     tx_cal_reg[4];
-	s32     a_2, b_2;
-	s32     sin_b, sin_2b;
-	s32     cos_b, cos_2b;
-	s32     divisor;
-	s32     temp1, temp2;
-	u32     val;
-	u16     loop;
-	s32     iqcal_tone_i_avg,iqcal_tone_q_avg;
-	u8      verify_count;
-	int capture_time;
+	u32	reg_mode_ctrl;
+	s32	iq_mag_0_tx;
+	s32	iqcal_tone_i0;
+	s32	iqcal_tone_q0;
+	s32	iqcal_tone_i;
+	s32	iqcal_tone_q;
+	u32	sqsum;
+	s32	rot_i_b;
+	s32	rot_q_b;
+	s32	tx_cal_flt_b[4];
+	s32	tx_cal[4];
+	s32	tx_cal_reg[4];
+	s32	a_2, b_2;
+	s32	sin_b, sin_2b;
+	s32	cos_b, cos_2b;
+	s32	divisor;
+	s32	temp1, temp2;
+	u32	val;
+	u16	loop;
+	s32	iqcal_tone_i_avg, iqcal_tone_q_avg;
+	u8	verify_count;
+	int	capture_time;
 
 	PHY_DEBUG(("[CAL] -> _tx_iq_calibration_loop()\n"));
 	PHY_DEBUG(("[CAL]    ** a_2_threshold = %d\n", a_2_threshold));
@@ -783,26 +693,26 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data,
 
 	loop = LOOP_TIMES;
 
-	while (loop > 0)
-	{
-		PHY_DEBUG(("[CAL] [%d.] <_tx_iq_calibration_loop>\n", (LOOP_TIMES-loop+1)));
+	while (loop > 0) {
+		PHY_DEBUG(("[CAL] [%d.] <_tx_iq_calibration_loop>\n", (LOOP_TIMES - loop + 1)));
 
-		iqcal_tone_i_avg=0;
-		iqcal_tone_q_avg=0;
-		if( !hw_set_dxx_reg(phw_data, 0x3C, 0x00) ) // 20060718.1 modify
+		iqcal_tone_i_avg = 0;
+		iqcal_tone_q_avg = 0;
+		if (!hw_set_dxx_reg(phw_data, 0x3C, 0x00))
 			return 0;
-		for(capture_time=0;capture_time<10;capture_time++)
-		{
-			// a. Set iqcal_mode[1:0] to 0x2 and set "calib_start" to 0x1 to
-			//    enable "IQ alibration Mode II"
-			reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL|MASK_IQCAL_MODE);
+		for (capture_time = 0; capture_time < 10; capture_time++) {
+			/*
+			 * a. Set iqcal_mode[1:0] to 0x2 and set "calib_start" to 0x1 to
+			 *    enable "IQ alibration Mode II"
+			 */
+			reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL | MASK_IQCAL_MODE);
 			reg_mode_ctrl &= ~MASK_IQCAL_MODE;
-			reg_mode_ctrl |= (MASK_CALIB_START|0x02);
-			reg_mode_ctrl |= (MASK_CALIB_START|0x02|2<<2);
+			reg_mode_ctrl |= (MASK_CALIB_START | 0x02);
+			reg_mode_ctrl |= (MASK_CALIB_START | 0x02 | 2 << 2);
 			hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl);
 			PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
 
-			// b.
+			/* b. */
 			hw_get_dxx_reg(phw_data, REG_CALIB_READ1, &val);
 			PHY_DEBUG(("[CAL]    CALIB_READ1 = 0x%08X\n", val));
 
@@ -811,26 +721,26 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data,
 			PHY_DEBUG(("[CAL]    ** iqcal_tone_i0=%d, iqcal_tone_q0=%d\n",
 				   iqcal_tone_i0, iqcal_tone_q0));
 
-			sqsum = iqcal_tone_i0*iqcal_tone_i0 +
-			iqcal_tone_q0*iqcal_tone_q0;
+			sqsum = iqcal_tone_i0 * iqcal_tone_i0 + iqcal_tone_q0 * iqcal_tone_q0;
 			iq_mag_0_tx = (s32) _sqrt(sqsum);
 			PHY_DEBUG(("[CAL]    ** iq_mag_0_tx=%d\n", iq_mag_0_tx));
 
-			// c. Set "calib_start" to 0x0
+			/* c. Set "calib_start" to 0x0 */
 			reg_mode_ctrl &= ~MASK_CALIB_START;
 			hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl);
 			PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
 
-			// d. Set iqcal_mode[1:0] to 0x3 and set "calib_start" to 0x1 to
-			//    enable "IQ alibration Mode II"
-			//hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &val);
+			/*
+			 * d. Set iqcal_mode[1:0] to 0x3 and set "calib_start" to 0x1 to
+			 *    enable "IQ alibration Mode II"
+			 */
 			hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &reg_mode_ctrl);
 			reg_mode_ctrl &= ~MASK_IQCAL_MODE;
-			reg_mode_ctrl |= (MASK_CALIB_START|0x03);
+			reg_mode_ctrl |= (MASK_CALIB_START | 0x03);
 			hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl);
 			PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
 
-			// e.
+			/* e. */
 			hw_get_dxx_reg(phw_data, REG_CALIB_READ1, &val);
 			PHY_DEBUG(("[CAL]    CALIB_READ1 = 0x%08X\n", val));
 
@@ -838,14 +748,11 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data,
 			iqcal_tone_q = _s13_to_s32((val & 0x03FFE000) >> 13);
 			PHY_DEBUG(("[CAL]    ** iqcal_tone_i = %d, iqcal_tone_q = %d\n",
 			iqcal_tone_i, iqcal_tone_q));
-			if( capture_time == 0)
-			{
+			if (capture_time == 0) {
 				continue;
-			}
-			else
-			{
-				iqcal_tone_i_avg=( iqcal_tone_i_avg*(capture_time-1) +iqcal_tone_i)/capture_time;
-				iqcal_tone_q_avg=( iqcal_tone_q_avg*(capture_time-1) +iqcal_tone_q)/capture_time;
+			} else {
+				iqcal_tone_i_avg = (iqcal_tone_i_avg * (capture_time - 1) + iqcal_tone_i) / capture_time;
+				iqcal_tone_q_avg = (iqcal_tone_q_avg * (capture_time - 1) + iqcal_tone_q) / capture_time;
 			}
 		}
 
@@ -860,11 +767,10 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data,
 		PHY_DEBUG(("[CAL]    ** rot_i_b = %d, rot_q_b = %d\n",
 				   rot_i_b, rot_q_b));
 
-		// f.
-		divisor = ((iq_mag_0_tx * iq_mag_0_tx * 2)/1024 - rot_i_b) * 2;
+		/* f. */
+		divisor = ((iq_mag_0_tx * iq_mag_0_tx * 2) / 1024 - rot_i_b) * 2;
 
-		if (divisor == 0)
-		{
+		if (divisor == 0) {
 			PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> ERROR *******\n"));
 			PHY_DEBUG(("[CAL] ** divisor=0 to calculate EPS and THETA !!\n"));
 			PHY_DEBUG(("[CAL] ******************************************\n"));
@@ -879,105 +785,79 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data,
 		phw_data->iq_rsdl_gain_tx_d2 = a_2;
 		phw_data->iq_rsdl_phase_tx_d2 = b_2;
 
-		//if ((abs(a_2) < 150) && (abs(b_2) < 100))
-		//if ((abs(a_2) < 200) && (abs(b_2) < 200))
-		if ((abs(a_2) < a_2_threshold) && (abs(b_2) < b_2_threshold))
-		{
+		if ((abs(a_2) < a_2_threshold) && (abs(b_2) < b_2_threshold)) {
 			verify_count++;
 
 			PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> *************\n"));
 			PHY_DEBUG(("[CAL] ** VERIFY OK # %d !!\n", verify_count));
 			PHY_DEBUG(("[CAL] ******************************************\n"));
 
-			if (verify_count > 2)
-			{
+			if (verify_count > 2) {
 				PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> *********\n"));
 				PHY_DEBUG(("[CAL] ** TX_IQ_CALIBRATION (EPS,THETA) OK !!\n"));
 				PHY_DEBUG(("[CAL] **************************************\n"));
 				return 0;
 			}
-
 			continue;
-		}
-		else
-		{
+		} else {
 			verify_count = 0;
 		}
 
 		_sin_cos(b_2, &sin_b, &cos_b);
-		_sin_cos(b_2*2, &sin_2b, &cos_2b);
+		_sin_cos(b_2 * 2, &sin_2b, &cos_2b);
 		PHY_DEBUG(("[CAL]    ** sin(b/2)=%d, cos(b/2)=%d\n", sin_b, cos_b));
 		PHY_DEBUG(("[CAL]    ** sin(b)=%d, cos(b)=%d\n", sin_2b, cos_2b));
 
-		if (cos_2b == 0)
-		{
+		if (cos_2b == 0) {
 			PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> ERROR *******\n"));
 			PHY_DEBUG(("[CAL] ** cos(b)=0 !!\n"));
 			PHY_DEBUG(("[CAL] ******************************************\n"));
 			break;
 		}
 
-		// 1280 * 32768 = 41943040
-		temp1 = (41943040/cos_2b)*cos_b;
+		/* 1280 * 32768 = 41943040 */
+		temp1 = (41943040 / cos_2b) * cos_b;
 
-		//temp2 = (41943040/cos_2b)*sin_b*(-1);
-		if (phw_data->revision == 0x2002) // 1st-cut
-		{
-			temp2 = (41943040/cos_2b)*sin_b*(-1);
-		}
-		else // 2nd-cut
-		{
-			temp2 = (41943040*4/cos_2b)*sin_b*(-1);
-		}
+		if (phw_data->revision == 0x2002) /* 1st-cut */
+			temp2 = (41943040 / cos_2b) * sin_b * (-1);
+		else /* 2nd-cut */
+			temp2 = (41943040 * 4 / cos_2b) * sin_b * (-1);
 
-		tx_cal_flt_b[0] = _floor(temp1/(32768+a_2));
-		tx_cal_flt_b[1] = _floor(temp2/(32768+a_2));
-		tx_cal_flt_b[2] = _floor(temp2/(32768-a_2));
-		tx_cal_flt_b[3] = _floor(temp1/(32768-a_2));
+		tx_cal_flt_b[0] = _floor(temp1 / (32768 + a_2));
+		tx_cal_flt_b[1] = _floor(temp2 / (32768 + a_2));
+		tx_cal_flt_b[2] = _floor(temp2 / (32768 - a_2));
+		tx_cal_flt_b[3] = _floor(temp1 / (32768 - a_2));
 		PHY_DEBUG(("[CAL]    ** tx_cal_flt_b[0] = %d\n", tx_cal_flt_b[0]));
 		PHY_DEBUG(("[CAL]       tx_cal_flt_b[1] = %d\n", tx_cal_flt_b[1]));
 		PHY_DEBUG(("[CAL]       tx_cal_flt_b[2] = %d\n", tx_cal_flt_b[2]));
 		PHY_DEBUG(("[CAL]       tx_cal_flt_b[3] = %d\n", tx_cal_flt_b[3]));
 
 		tx_cal[2] = tx_cal_flt_b[2];
-		tx_cal[2] = tx_cal[2] +3;
+		tx_cal[2] = tx_cal[2] + 3;
 		tx_cal[1] = tx_cal[2];
 		tx_cal[3] = tx_cal_flt_b[3] - 128;
-		tx_cal[0] = -tx_cal[3]+1;
+		tx_cal[0] = -tx_cal[3] + 1;
 
 		PHY_DEBUG(("[CAL]       tx_cal[0] = %d\n", tx_cal[0]));
 		PHY_DEBUG(("[CAL]       tx_cal[1] = %d\n", tx_cal[1]));
 		PHY_DEBUG(("[CAL]       tx_cal[2] = %d\n", tx_cal[2]));
 		PHY_DEBUG(("[CAL]       tx_cal[3] = %d\n", tx_cal[3]));
 
-		//if ((tx_cal[0] == 0) && (tx_cal[1] == 0) &&
-		//    (tx_cal[2] == 0) && (tx_cal[3] == 0))
-		//{
-		//    PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> *************\n"));
-		//    PHY_DEBUG(("[CAL] ** TX_IQ_CALIBRATION COMPLETE !!\n"));
-		//    PHY_DEBUG(("[CAL] ******************************************\n"));
-		//    return 0;
-		//}
-
-		// g.
-		if (phw_data->revision == 0x2002) // 1st-cut
-		{
+		/* g. */
+		if (phw_data->revision == 0x2002) { /* 1st-cut */
 			hw_get_dxx_reg(phw_data, 0x54, &val);
 			PHY_DEBUG(("[CAL]    ** 0x54 = 0x%08X\n", val));
 			tx_cal_reg[0] = _s4_to_s32((val & 0xF0000000) >> 28);
 			tx_cal_reg[1] = _s4_to_s32((val & 0x0F000000) >> 24);
 			tx_cal_reg[2] = _s4_to_s32((val & 0x00F00000) >> 20);
 			tx_cal_reg[3] = _s4_to_s32((val & 0x000F0000) >> 16);
-		}
-		else // 2nd-cut
-		{
+		} else { /* 2nd-cut */
 			hw_get_dxx_reg(phw_data, 0x3C, &val);
 			PHY_DEBUG(("[CAL]    ** 0x3C = 0x%08X\n", val));
 			tx_cal_reg[0] = _s5_to_s32((val & 0xF8000000) >> 27);
 			tx_cal_reg[1] = _s6_to_s32((val & 0x07E00000) >> 21);
 			tx_cal_reg[2] = _s6_to_s32((val & 0x001F8000) >> 15);
 			tx_cal_reg[3] = _s5_to_s32((val & 0x00007C00) >> 10);
-
 		}
 
 		PHY_DEBUG(("[CAL]    ** tx_cal_reg[0] = %d\n", tx_cal_reg[0]));
@@ -985,22 +865,17 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data,
 		PHY_DEBUG(("[CAL]       tx_cal_reg[2] = %d\n", tx_cal_reg[2]));
 		PHY_DEBUG(("[CAL]       tx_cal_reg[3] = %d\n", tx_cal_reg[3]));
 
-		if (phw_data->revision == 0x2002) // 1st-cut
-		{
-			if (((tx_cal_reg[0]==7) || (tx_cal_reg[0]==(-8))) &&
-				((tx_cal_reg[3]==7) || (tx_cal_reg[3]==(-8))))
-			{
+		if (phw_data->revision == 0x2002) { /* 1st-cut */
+			if (((tx_cal_reg[0] == 7) || (tx_cal_reg[0] == (-8))) &&
+				((tx_cal_reg[3] == 7) || (tx_cal_reg[3] == (-8)))) {
 				PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> *********\n"));
 				PHY_DEBUG(("[CAL] ** TX_IQ_CALIBRATION SATUATION !!\n"));
 				PHY_DEBUG(("[CAL] **************************************\n"));
 				break;
 			}
-		}
-		else // 2nd-cut
-		{
-			if (((tx_cal_reg[0]==31) || (tx_cal_reg[0]==(-32))) &&
-				((tx_cal_reg[3]==31) || (tx_cal_reg[3]==(-32))))
-			{
+		} else { /* 2nd-cut */
+			if (((tx_cal_reg[0] == 31) || (tx_cal_reg[0] == (-32))) &&
+				((tx_cal_reg[3] == 31) || (tx_cal_reg[3] == (-32)))) {
 				PHY_DEBUG(("[CAL] ** <_tx_iq_calibration_loop> *********\n"));
 				PHY_DEBUG(("[CAL] ** TX_IQ_CALIBRATION SATUATION !!\n"));
 				PHY_DEBUG(("[CAL] **************************************\n"));
@@ -1017,30 +892,27 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data,
 		PHY_DEBUG(("[CAL]       apply tx_cal[2] = %d\n", tx_cal[2]));
 		PHY_DEBUG(("[CAL]       apply tx_cal[3] = %d\n", tx_cal[3]));
 
-		if (phw_data->revision == 0x2002) // 1st-cut
-		{
+		if (phw_data->revision == 0x2002) { /* 1st-cut */
 			val &= 0x0000FFFF;
-			val |= ((_s32_to_s4(tx_cal[0]) << 28)|
-					(_s32_to_s4(tx_cal[1]) << 24)|
-					(_s32_to_s4(tx_cal[2]) << 20)|
+			val |= ((_s32_to_s4(tx_cal[0]) << 28) |
+					(_s32_to_s4(tx_cal[1]) << 24) |
+					(_s32_to_s4(tx_cal[2]) << 20) |
 					(_s32_to_s4(tx_cal[3]) << 16));
 			hw_set_dxx_reg(phw_data, 0x54, val);
 			PHY_DEBUG(("[CAL]    ** CALIB_DATA = 0x%08X\n", val));
 			return 0;
-		}
-		else // 2nd-cut
-		{
+		} else { /* 2nd-cut */
 			val &= 0x000003FF;
-			val |= ((_s32_to_s5(tx_cal[0]) << 27)|
-					(_s32_to_s6(tx_cal[1]) << 21)|
-					(_s32_to_s6(tx_cal[2]) << 15)|
+			val |= ((_s32_to_s5(tx_cal[0]) << 27) |
+					(_s32_to_s6(tx_cal[1]) << 21) |
+					(_s32_to_s6(tx_cal[2]) << 15) |
 					(_s32_to_s5(tx_cal[3]) << 10));
 			hw_set_dxx_reg(phw_data, 0x3C, val);
 			PHY_DEBUG(("[CAL]    ** TX_IQ_CALIBRATION = 0x%08X\n", val));
 			return 0;
 		}
 
-		// i. Set "calib_start" to 0x0
+		/* i. Set "calib_start" to 0x0 */
 		reg_mode_ctrl &= ~MASK_CALIB_START;
 		hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl);
 		PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
@@ -1053,40 +925,41 @@ u8 _tx_iq_calibration_loop_winbond(struct hw_data *phw_data,
 
 void _tx_iq_calibration_winbond(struct hw_data *phw_data)
 {
-	u32     reg_agc_ctrl3;
+	u32	reg_agc_ctrl3;
 #ifdef _DEBUG
-	s32     tx_cal_reg[4];
+	s32	tx_cal_reg[4];
 
 #endif
-	u32     reg_mode_ctrl;
-	u32     val;
-	u8      result;
+	u32	reg_mode_ctrl;
+	u32	val;
+	u8	result;
 
 	PHY_DEBUG(("[CAL] -> [4]_tx_iq_calibration()\n"));
 
-	//0x01 0xEE3FC2  ; 3B8FF  ; Calibration (6a). enable TX IQ calibration loop circuits
-	phy_set_rf_data(phw_data, 1, (1<<24)|0xEE3FC2);
-	//0x0B 0x1905D6  ; 06417  ; Calibration (6b). enable TX I/Q cal loop squaring circuit
-	phy_set_rf_data(phw_data, 11, (11<<24)|0x19BDD6); // 20060612.1.a 0x1905D6);
-	//0x05 0x24C60A  ; 09318  ; Calibration (6c). setting TX-VGA gain: TXGCH=2 & GPK=110 --> to be optimized
-	phy_set_rf_data(phw_data, 5, (5<<24)|0x24C60A); //0x24C60A (high temperature)
-    //0x06 0x06880C  ; 01A20  ; Calibration (6d). RXGCH=00; RXGCL=100 000 (RXVGA=32) --> to be optimized
-	phy_set_rf_data(phw_data, 6, (6<<24)|0x34880C); // 20060612.1.a 0x06890C);
-	//0x00 0xFDF1C0  ; 3F7C7  ; Calibration (6e). turn on IQ imbalance/Test mode
-	phy_set_rf_data(phw_data, 0, (0<<24)|0xFDF1C0);
-	//; [BB-chip]: Calibration (6f).Send test pattern
-	//; [BB-chip]: Calibration (6g). Search RXGCL optimal value
-	//; [BB-chip]: Calibration (6h). Caculate TX-path IQ imbalance and setting TX path IQ compensation table
-	//phy_set_rf_data(phw_data, 3, (3<<24)|0x025586);
-
-	msleep(30); // 20060612.1.a 30ms delay. Add the follow 2 lines
-	//To adjust TXVGA to fit iq_mag_0 range from 1250 ~ 1750
-	adjust_TXVGA_for_iq_mag( phw_data );
-
-	// a. Disable AGC
+	/* 0x01 0xEE3FC2  ; 3B8FF  ; Calibration (6a). enable TX IQ calibration loop circuits */
+	phy_set_rf_data(phw_data, 1, (1 << 24) | 0xEE3FC2);
+	/* 0x0B 0x1905D6  ; 06417  ; Calibration (6b). enable TX I/Q cal loop squaring circuit */
+	phy_set_rf_data(phw_data, 11, (11 << 24) | 0x19BDD6);
+	/* 0x05 0x24C60A  ; 09318  ; Calibration (6c). setting TX-VGA gain: TXGCH=2 & GPK=110 --> to be optimized */
+	phy_set_rf_data(phw_data, 5, (5 << 24) | 0x24C60A); /* 0x24C60A (high temperature) */
+	/* 0x06 0x06880C  ; 01A20  ; Calibration (6d). RXGCH=00; RXGCL=100 000 (RXVGA=32) --> to be optimized */
+	phy_set_rf_data(phw_data, 6, (6 << 24) | 0x34880C);
+	/* 0x00 0xFDF1C0  ; 3F7C7  ; Calibration (6e). turn on IQ imbalance/Test mode */
+	phy_set_rf_data(phw_data, 0, (0 << 24) | 0xFDF1C0);
+	/*
+	 * [BB-chip]: Calibration (6f).Send test pattern
+	 * [BB-chip]: Calibration (6g). Search RXGCL optimal value
+	 * [BB-chip]: Calibration (6h). Caculate TX-path IQ imbalance and setting TX path IQ compensation table
+	 */
+
+	msleep(30); /* 30ms delay. */
+	/* To adjust TXVGA to fit iq_mag_0 range from 1250 ~ 1750 */
+	adjust_TXVGA_for_iq_mag(phw_data);
+
+	/* a. Disable AGC */
 	hw_get_dxx_reg(phw_data, REG_AGC_CTRL3, &reg_agc_ctrl3);
 	reg_agc_ctrl3 &= ~BIT(2);
-	reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN|MASK_AGC_FIX);
+	reg_agc_ctrl3 |= (MASK_LNA_FIX_GAIN | MASK_AGC_FIX);
 	hw_set_dxx_reg(phw_data, REG_AGC_CTRL3, reg_agc_ctrl3);
 
 	hw_get_dxx_reg(phw_data, REG_AGC_CTRL5, &val);
@@ -1095,16 +968,12 @@ void _tx_iq_calibration_winbond(struct hw_data *phw_data)
 
 	result = _tx_iq_calibration_loop_winbond(phw_data, 150, 100);
 
-	if (result > 0)
-	{
-		if (phw_data->revision == 0x2002) // 1st-cut
-		{
+	if (result > 0) {
+		if (phw_data->revision == 0x2002) { /* 1st-cut */
 			hw_get_dxx_reg(phw_data, 0x54, &val);
 			val &= 0x0000FFFF;
 			hw_set_dxx_reg(phw_data, 0x54, val);
-		}
-		else // 2nd-cut
-		{
+		} else { /* 2nd-cut */
 			hw_get_dxx_reg(phw_data, 0x3C, &val);
 			val &= 0x000003FF;
 			hw_set_dxx_reg(phw_data, 0x3C, val);
@@ -1112,54 +981,41 @@ void _tx_iq_calibration_winbond(struct hw_data *phw_data)
 
 		result = _tx_iq_calibration_loop_winbond(phw_data, 300, 200);
 
-		if (result > 0)
-		{
-			if (phw_data->revision == 0x2002) // 1st-cut
-			{
+		if (result > 0) {
+			if (phw_data->revision == 0x2002) { /* 1st-cut */
 				hw_get_dxx_reg(phw_data, 0x54, &val);
 				val &= 0x0000FFFF;
 				hw_set_dxx_reg(phw_data, 0x54, val);
-			}
-			else // 2nd-cut
-			{
+			} else { /* 2nd-cut */
 				hw_get_dxx_reg(phw_data, 0x3C, &val);
 				val &= 0x000003FF;
 				hw_set_dxx_reg(phw_data, 0x3C, val);
 			}
 
 			result = _tx_iq_calibration_loop_winbond(phw_data, 500, 400);
-			if (result > 0)
-			{
-				if (phw_data->revision == 0x2002) // 1st-cut
-				{
+			if (result > 0)	{
+				if (phw_data->revision == 0x2002) { /* 1st-cut */
 					hw_get_dxx_reg(phw_data, 0x54, &val);
 					val &= 0x0000FFFF;
 					hw_set_dxx_reg(phw_data, 0x54, val);
-				}
-				else // 2nd-cut
-				{
+				} else { /* 2nd-cut */
 					hw_get_dxx_reg(phw_data, 0x3C, &val);
 					val &= 0x000003FF;
 					hw_set_dxx_reg(phw_data, 0x3C, val);
 				}
 
-
 				result = _tx_iq_calibration_loop_winbond(phw_data, 700, 500);
 
-				if (result > 0)
-				{
+				if (result > 0)	{
 					PHY_DEBUG(("[CAL] ** <_tx_iq_calibration> **************\n"));
 					PHY_DEBUG(("[CAL] ** TX_IQ_CALIBRATION FAILURE !!\n"));
 					PHY_DEBUG(("[CAL] **************************************\n"));
 
-					if (phw_data->revision == 0x2002) // 1st-cut
-					{
+					if (phw_data->revision == 0x2002) { /* 1st-cut */
 						hw_get_dxx_reg(phw_data, 0x54, &val);
 						val &= 0x0000FFFF;
 						hw_set_dxx_reg(phw_data, 0x54, val);
-					}
-					else // 2nd-cut
-					{
+					} else { /* 2nd-cut */
 						hw_get_dxx_reg(phw_data, 0x3C, &val);
 						val &= 0x000003FF;
 						hw_set_dxx_reg(phw_data, 0x3C, val);
@@ -1169,30 +1025,26 @@ void _tx_iq_calibration_winbond(struct hw_data *phw_data)
 		}
 	}
 
-	// i. Set "calib_start" to 0x0
+	/* i. Set "calib_start" to 0x0 */
 	hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &reg_mode_ctrl);
 	reg_mode_ctrl &= ~MASK_CALIB_START;
 	hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl);
 	PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
 
-	// g. Enable AGC
-	//hw_get_dxx_reg(phw_data, REG_AGC_CTRL3, &val);
+	/* g. Enable AGC */
 	reg_agc_ctrl3 |= BIT(2);
-	reg_agc_ctrl3 &= ~(MASK_LNA_FIX_GAIN|MASK_AGC_FIX);
+	reg_agc_ctrl3 &= ~(MASK_LNA_FIX_GAIN | MASK_AGC_FIX);
 	hw_set_dxx_reg(phw_data, REG_AGC_CTRL3, reg_agc_ctrl3);
 
 #ifdef _DEBUG
-	if (phw_data->revision == 0x2002) // 1st-cut
-	{
+	if (phw_data->revision == 0x2002) { /* 1st-cut */
 		hw_get_dxx_reg(phw_data, 0x54, &val);
 		PHY_DEBUG(("[CAL]    ** 0x54 = 0x%08X\n", val));
 		tx_cal_reg[0] = _s4_to_s32((val & 0xF0000000) >> 28);
 		tx_cal_reg[1] = _s4_to_s32((val & 0x0F000000) >> 24);
 		tx_cal_reg[2] = _s4_to_s32((val & 0x00F00000) >> 20);
 		tx_cal_reg[3] = _s4_to_s32((val & 0x000F0000) >> 16);
-	}
-	else // 2nd-cut
-	{
+	} else { /* 2nd-cut */
 		hw_get_dxx_reg(phw_data, 0x3C, &val);
 		PHY_DEBUG(("[CAL]    ** 0x3C = 0x%08X\n", val));
 		tx_cal_reg[0] = _s5_to_s32((val & 0xF8000000) >> 27);
@@ -1208,126 +1060,116 @@ void _tx_iq_calibration_winbond(struct hw_data *phw_data)
 	PHY_DEBUG(("[CAL]       tx_cal_reg[3] = %d\n", tx_cal_reg[3]));
 #endif
 
-
-	// for test - BEN
-	// RF Control Override
+	/* for test - BEN */
+	/* RF Control Override */
 }
 
-/////////////////////////////////////////////////////////////////////////////////////////
 u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 frequency)
 {
-	u32     reg_mode_ctrl;
-	s32     iqcal_tone_i;
-	s32     iqcal_tone_q;
-	s32     iqcal_image_i;
-	s32     iqcal_image_q;
-	s32     rot_tone_i_b;
-	s32     rot_tone_q_b;
-	s32     rot_image_i_b;
-	s32     rot_image_q_b;
-	s32     rx_cal_flt_b[4];
-	s32     rx_cal[4];
-	s32     rx_cal_reg[4];
-	s32     a_2, b_2;
-	s32     sin_b, sin_2b;
-	s32     cos_b, cos_2b;
-	s32     temp1, temp2;
-	u32     val;
-	u16     loop;
-
-	u32     pwr_tone;
-	u32     pwr_image;
-	u8      verify_count;
-
-	s32     iqcal_tone_i_avg,iqcal_tone_q_avg;
-	s32     iqcal_image_i_avg,iqcal_image_q_avg;
-	u16		capture_time;
+	u32	reg_mode_ctrl;
+	s32	iqcal_tone_i;
+	s32	iqcal_tone_q;
+	s32	iqcal_image_i;
+	s32	iqcal_image_q;
+	s32	rot_tone_i_b;
+	s32	rot_tone_q_b;
+	s32	rot_image_i_b;
+	s32	rot_image_q_b;
+	s32	rx_cal_flt_b[4];
+	s32	rx_cal[4];
+	s32	rx_cal_reg[4];
+	s32	a_2, b_2;
+	s32	sin_b, sin_2b;
+	s32	cos_b, cos_2b;
+	s32	temp1, temp2;
+	u32	val;
+	u16	loop;
+
+	u32	pwr_tone;
+	u32	pwr_image;
+	u8	verify_count;
+
+	s32	iqcal_tone_i_avg, iqcal_tone_q_avg;
+	s32	iqcal_image_i_avg, iqcal_image_q_avg;
+	u16	capture_time;
 
 	PHY_DEBUG(("[CAL] -> [5]_rx_iq_calibration_loop()\n"));
 	PHY_DEBUG(("[CAL] ** factor = %d\n", factor));
 
 
-// RF Control Override
+	/* RF Control Override */
 	hw_get_cxx_reg(phw_data, 0x80, &val);
 	val |= BIT(19);
 	hw_set_cxx_reg(phw_data, 0x80, val);
 
-// RF_Ctrl
+	/* RF_Ctrl */
 	hw_get_cxx_reg(phw_data, 0xE4, &val);
 	val |= BIT(0);
 	hw_set_cxx_reg(phw_data, 0xE4, val);
 	PHY_DEBUG(("[CAL] ** RF_CTRL(0xE4) = 0x%08X", val));
 
-	hw_set_dxx_reg(phw_data, 0x58, 0x44444444); // IQ_Alpha
+	hw_set_dxx_reg(phw_data, 0x58, 0x44444444); /* IQ_Alpha */
 
-	// b.
+	/* b. */
 
 	hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &reg_mode_ctrl);
 	PHY_DEBUG(("[CAL]    MODE_CTRL (read) = 0x%08X\n", reg_mode_ctrl));
 
 	verify_count = 0;
 
-	//for (loop = 0; loop < 1; loop++)
-	//for (loop = 0; loop < LOOP_TIMES; loop++)
 	loop = LOOP_TIMES;
-	while (loop > 0)
-	{
-		PHY_DEBUG(("[CAL] [%d.] <_rx_iq_calibration_loop>\n", (LOOP_TIMES-loop+1)));
-		iqcal_tone_i_avg=0;
-		iqcal_tone_q_avg=0;
-		iqcal_image_i_avg=0;
-		iqcal_image_q_avg=0;
-		capture_time=0;
-
-		for(capture_time=0; capture_time<10; capture_time++)
-		{
-		// i. Set "calib_start" to 0x0
-		reg_mode_ctrl &= ~MASK_CALIB_START;
-		if( !hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl) )//20060718.1 modify
-			return 0;
-		PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
+	while (loop > 0) {
+		PHY_DEBUG(("[CAL] [%d.] <_rx_iq_calibration_loop>\n", (LOOP_TIMES - loop + 1)));
+		iqcal_tone_i_avg = 0;
+		iqcal_tone_q_avg = 0;
+		iqcal_image_i_avg = 0;
+		iqcal_image_q_avg = 0;
+		capture_time = 0;
+
+		for (capture_time = 0; capture_time < 10; capture_time++) {
+			/* i. Set "calib_start" to 0x0 */
+			reg_mode_ctrl &= ~MASK_CALIB_START;
+			if (!hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl))
+				return 0;
+			PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
 
-		reg_mode_ctrl &= ~MASK_IQCAL_MODE;
-		reg_mode_ctrl |= (MASK_CALIB_START|0x1);
-		hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl);
-		PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
+			reg_mode_ctrl &= ~MASK_IQCAL_MODE;
+			reg_mode_ctrl |= (MASK_CALIB_START | 0x1);
+			hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl);
+			PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
 
-		// c.
-		hw_get_dxx_reg(phw_data, REG_CALIB_READ1, &val);
-		PHY_DEBUG(("[CAL]    CALIB_READ1 = 0x%08X\n", val));
+			/* c. */
+			hw_get_dxx_reg(phw_data, REG_CALIB_READ1, &val);
+			PHY_DEBUG(("[CAL]    CALIB_READ1 = 0x%08X\n", val));
 
-		iqcal_tone_i = _s13_to_s32(val & 0x00001FFF);
-		iqcal_tone_q = _s13_to_s32((val & 0x03FFE000) >> 13);
-		PHY_DEBUG(("[CAL]    ** iqcal_tone_i = %d, iqcal_tone_q = %d\n",
-				   iqcal_tone_i, iqcal_tone_q));
+			iqcal_tone_i = _s13_to_s32(val & 0x00001FFF);
+			iqcal_tone_q = _s13_to_s32((val & 0x03FFE000) >> 13);
+			PHY_DEBUG(("[CAL]    ** iqcal_tone_i = %d, iqcal_tone_q = %d\n",
+						   iqcal_tone_i, iqcal_tone_q));
 
-		hw_get_dxx_reg(phw_data, REG_CALIB_READ2, &val);
-		PHY_DEBUG(("[CAL]    CALIB_READ2 = 0x%08X\n", val));
+			hw_get_dxx_reg(phw_data, REG_CALIB_READ2, &val);
+			PHY_DEBUG(("[CAL]    CALIB_READ2 = 0x%08X\n", val));
 
-		iqcal_image_i = _s13_to_s32(val & 0x00001FFF);
-		iqcal_image_q = _s13_to_s32((val & 0x03FFE000) >> 13);
-		PHY_DEBUG(("[CAL]    ** iqcal_image_i = %d, iqcal_image_q = %d\n",
-				   iqcal_image_i, iqcal_image_q));
-			if( capture_time == 0)
-			{
+			iqcal_image_i = _s13_to_s32(val & 0x00001FFF);
+			iqcal_image_q = _s13_to_s32((val & 0x03FFE000) >> 13);
+			PHY_DEBUG(("[CAL]    ** iqcal_image_i = %d, iqcal_image_q = %d\n",
+						   iqcal_image_i, iqcal_image_q));
+			if (capture_time == 0) {
 				continue;
-			}
-			else
-			{
-				iqcal_image_i_avg=( iqcal_image_i_avg*(capture_time-1) +iqcal_image_i)/capture_time;
-				iqcal_image_q_avg=( iqcal_image_q_avg*(capture_time-1) +iqcal_image_q)/capture_time;
-				iqcal_tone_i_avg=( iqcal_tone_i_avg*(capture_time-1) +iqcal_tone_i)/capture_time;
-				iqcal_tone_q_avg=( iqcal_tone_q_avg*(capture_time-1) +iqcal_tone_q)/capture_time;
+			} else {
+				iqcal_image_i_avg = (iqcal_image_i_avg * (capture_time - 1) + iqcal_image_i) / capture_time;
+				iqcal_image_q_avg = (iqcal_image_q_avg * (capture_time - 1) + iqcal_image_q) / capture_time;
+				iqcal_tone_i_avg = (iqcal_tone_i_avg * (capture_time - 1) + iqcal_tone_i) / capture_time;
+				iqcal_tone_q_avg = (iqcal_tone_q_avg * (capture_time - 1) + iqcal_tone_q) / capture_time;
 			}
 		}
 
-
 		iqcal_image_i = iqcal_image_i_avg;
 		iqcal_image_q = iqcal_image_q_avg;
 		iqcal_tone_i = iqcal_tone_i_avg;
 		iqcal_tone_q = iqcal_tone_q_avg;
 
-		// d.
+		/* d. */
 		rot_tone_i_b = (iqcal_tone_i * iqcal_tone_i +
 						iqcal_tone_q * iqcal_tone_q) / 1024;
 		rot_tone_q_b = (iqcal_tone_i * iqcal_tone_q * (-1) +
@@ -1342,9 +1184,8 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre
 		PHY_DEBUG(("[CAL]    ** rot_image_i_b = %d\n", rot_image_i_b));
 		PHY_DEBUG(("[CAL]    ** rot_image_q_b = %d\n", rot_image_q_b));
 
-		// f.
-		if (rot_tone_i_b == 0)
-		{
+		/* f. */
+		if (rot_tone_i_b == 0) {
 			PHY_DEBUG(("[CAL] ** <_rx_iq_calibration_loop> ERROR *******\n"));
 			PHY_DEBUG(("[CAL] ** rot_tone_i_b=0 to calculate EPS and THETA !!\n"));
 			PHY_DEBUG(("[CAL] ******************************************\n"));
@@ -1362,35 +1203,30 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre
 		PHY_DEBUG(("[CAL]    ***** THETA/2   = %d\n", b_2));
 
 		_sin_cos(b_2, &sin_b, &cos_b);
-		_sin_cos(b_2*2, &sin_2b, &cos_2b);
+		_sin_cos(b_2 * 2, &sin_2b, &cos_2b);
 		PHY_DEBUG(("[CAL]    ** sin(b/2)=%d, cos(b/2)=%d\n", sin_b, cos_b));
 		PHY_DEBUG(("[CAL]    ** sin(b)=%d, cos(b)=%d\n", sin_2b, cos_2b));
 
-		if (cos_2b == 0)
-		{
+		if (cos_2b == 0) {
 			PHY_DEBUG(("[CAL] ** <_rx_iq_calibration_loop> ERROR *******\n"));
 			PHY_DEBUG(("[CAL] ** cos(b)=0 !!\n"));
 			PHY_DEBUG(("[CAL] ******************************************\n"));
 			break;
 		}
 
-		// 1280 * 32768 = 41943040
-		temp1 = (41943040/cos_2b)*cos_b;
+		/* 1280 * 32768 = 41943040 */
+		temp1 = (41943040 / cos_2b) * cos_b;
 
-		//temp2 = (41943040/cos_2b)*sin_b*(-1);
-		if (phw_data->revision == 0x2002) // 1st-cut
-		{
-			temp2 = (41943040/cos_2b)*sin_b*(-1);
-		}
-		else // 2nd-cut
-		{
-			temp2 = (41943040*4/cos_2b)*sin_b*(-1);
+		if (phw_data->revision == 0x2002) { /* 1st-cut */
+			temp2 = (41943040 / cos_2b) * sin_b * (-1);
+		} else { /* 2nd-cut */
+			temp2 = (41943040 * 4 / cos_2b) * sin_b * (-1);
 		}
 
-		rx_cal_flt_b[0] = _floor(temp1/(32768+a_2));
-		rx_cal_flt_b[1] = _floor(temp2/(32768-a_2));
-		rx_cal_flt_b[2] = _floor(temp2/(32768+a_2));
-		rx_cal_flt_b[3] = _floor(temp1/(32768-a_2));
+		rx_cal_flt_b[0] = _floor(temp1 / (32768 + a_2));
+		rx_cal_flt_b[1] = _floor(temp2 / (32768 - a_2));
+		rx_cal_flt_b[2] = _floor(temp2 / (32768 + a_2));
+		rx_cal_flt_b[3] = _floor(temp1 / (32768 - a_2));
 
 		PHY_DEBUG(("[CAL]    ** rx_cal_flt_b[0] = %d\n", rx_cal_flt_b[0]));
 		PHY_DEBUG(("[CAL]       rx_cal_flt_b[1] = %d\n", rx_cal_flt_b[1]));
@@ -1406,23 +1242,21 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre
 		PHY_DEBUG(("[CAL]       rx_cal[2] = %d\n", rx_cal[2]));
 		PHY_DEBUG(("[CAL]       rx_cal[3] = %d\n", rx_cal[3]));
 
-		// e.
-		pwr_tone = (iqcal_tone_i*iqcal_tone_i + iqcal_tone_q*iqcal_tone_q);
-		pwr_image = (iqcal_image_i*iqcal_image_i + iqcal_image_q*iqcal_image_q)*factor;
+		/* e. */
+		pwr_tone = (iqcal_tone_i * iqcal_tone_i + iqcal_tone_q * iqcal_tone_q);
+		pwr_image = (iqcal_image_i * iqcal_image_i + iqcal_image_q * iqcal_image_q) * factor;
 
 		PHY_DEBUG(("[CAL]    ** pwr_tone  = %d\n", pwr_tone));
 		PHY_DEBUG(("[CAL]    ** pwr_image  = %d\n", pwr_image));
 
-		if (pwr_tone > pwr_image)
-		{
+		if (pwr_tone > pwr_image) {
 			verify_count++;
 
 			PHY_DEBUG(("[CAL] ** <_rx_iq_calibration_loop> *************\n"));
 			PHY_DEBUG(("[CAL] ** VERIFY OK # %d !!\n", verify_count));
 			PHY_DEBUG(("[CAL] ******************************************\n"));
 
-			if (verify_count > 2)
-			{
+			if (verify_count > 2) {
 				PHY_DEBUG(("[CAL] ** <_rx_iq_calibration_loop> *********\n"));
 				PHY_DEBUG(("[CAL] ** RX_IQ_CALIBRATION OK !!\n"));
 				PHY_DEBUG(("[CAL] **************************************\n"));
@@ -1431,19 +1265,16 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre
 
 			continue;
 		}
-		// g.
+		/* g. */
 		hw_get_dxx_reg(phw_data, 0x54, &val);
 		PHY_DEBUG(("[CAL]    ** 0x54 = 0x%08X\n", val));
 
-		if (phw_data->revision == 0x2002) // 1st-cut
-		{
+		if (phw_data->revision == 0x2002) { /* 1st-cut */
 			rx_cal_reg[0] = _s4_to_s32((val & 0x0000F000) >> 12);
 			rx_cal_reg[1] = _s4_to_s32((val & 0x00000F00) >>  8);
 			rx_cal_reg[2] = _s4_to_s32((val & 0x000000F0) >>  4);
 			rx_cal_reg[3] = _s4_to_s32((val & 0x0000000F));
-		}
-		else // 2nd-cut
-		{
+		} else { /* 2nd-cut */
 			rx_cal_reg[0] = _s5_to_s32((val & 0xF8000000) >> 27);
 			rx_cal_reg[1] = _s6_to_s32((val & 0x07E00000) >> 21);
 			rx_cal_reg[2] = _s6_to_s32((val & 0x001F8000) >> 15);
@@ -1455,22 +1286,17 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre
 		PHY_DEBUG(("[CAL]       rx_cal_reg[2] = %d\n", rx_cal_reg[2]));
 		PHY_DEBUG(("[CAL]       rx_cal_reg[3] = %d\n", rx_cal_reg[3]));
 
-		if (phw_data->revision == 0x2002) // 1st-cut
-		{
-			if (((rx_cal_reg[0]==7) || (rx_cal_reg[0]==(-8))) &&
-				((rx_cal_reg[3]==7) || (rx_cal_reg[3]==(-8))))
-			{
+		if (phw_data->revision == 0x2002) { /* 1st-cut */
+			if (((rx_cal_reg[0] == 7) || (rx_cal_reg[0] == (-8))) &&
+				((rx_cal_reg[3] == 7) || (rx_cal_reg[3] == (-8)))) {
 				PHY_DEBUG(("[CAL] ** <_rx_iq_calibration_loop> *********\n"));
 				PHY_DEBUG(("[CAL] ** RX_IQ_CALIBRATION SATUATION !!\n"));
 				PHY_DEBUG(("[CAL] **************************************\n"));
 				break;
 			}
-		}
-		else // 2nd-cut
-		{
-			if (((rx_cal_reg[0]==31) || (rx_cal_reg[0]==(-32))) &&
-				((rx_cal_reg[3]==31) || (rx_cal_reg[3]==(-32))))
-			{
+		} else { /* 2nd-cut */
+			if (((rx_cal_reg[0] == 31) || (rx_cal_reg[0] == (-32))) &&
+				((rx_cal_reg[3] == 31) || (rx_cal_reg[3] == (-32)))) {
 				PHY_DEBUG(("[CAL] ** <_rx_iq_calibration_loop> *********\n"));
 				PHY_DEBUG(("[CAL] ** RX_IQ_CALIBRATION SATUATION !!\n"));
 				PHY_DEBUG(("[CAL] **************************************\n"));
@@ -1488,26 +1314,23 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre
 		PHY_DEBUG(("[CAL]       apply rx_cal[3] = %d\n", rx_cal[3]));
 
 		hw_get_dxx_reg(phw_data, 0x54, &val);
-		if (phw_data->revision == 0x2002) // 1st-cut
-		{
+		if (phw_data->revision == 0x2002) { /* 1st-cut */
 			val &= 0x0000FFFF;
-			val |= ((_s32_to_s4(rx_cal[0]) << 12)|
-					(_s32_to_s4(rx_cal[1]) <<  8)|
-					(_s32_to_s4(rx_cal[2]) <<  4)|
+			val |= ((_s32_to_s4(rx_cal[0]) << 12) |
+					(_s32_to_s4(rx_cal[1]) <<  8) |
+					(_s32_to_s4(rx_cal[2]) <<  4) |
 					(_s32_to_s4(rx_cal[3])));
 			hw_set_dxx_reg(phw_data, 0x54, val);
-		}
-		else // 2nd-cut
-		{
+		} else { /* 2nd-cut */
 			val &= 0x000003FF;
-			val |= ((_s32_to_s5(rx_cal[0]) << 27)|
-					(_s32_to_s6(rx_cal[1]) << 21)|
-					(_s32_to_s6(rx_cal[2]) << 15)|
+			val |= ((_s32_to_s5(rx_cal[0]) << 27) |
+					(_s32_to_s6(rx_cal[1]) << 21) |
+					(_s32_to_s6(rx_cal[2]) << 15) |
 					(_s32_to_s5(rx_cal[3]) << 10));
 			hw_set_dxx_reg(phw_data, 0x54, val);
 
-			if( loop == 3 )
-			return 0;
+			if (loop == 3)
+				return 0;
 		}
 		PHY_DEBUG(("[CAL]    ** CALIB_DATA = 0x%08X\n", val));
 
@@ -1517,51 +1340,47 @@ u8 _rx_iq_calibration_loop_winbond(struct hw_data *phw_data, u16 factor, u32 fre
 	return 1;
 }
 
-//////////////////////////////////////////////////////////
-
-//////////////////////////////////////////////////////////////////////////
 void _rx_iq_calibration_winbond(struct hw_data *phw_data, u32 frequency)
 {
-// figo 20050523 marked thsi flag for can't compile for relesase
 #ifdef _DEBUG
-	s32     rx_cal_reg[4];
-	u32     val;
+	s32	rx_cal_reg[4];
+	u32	val;
 #endif
 
-	u8      result;
+	u8	result;
 
 	PHY_DEBUG(("[CAL] -> [5]_rx_iq_calibration()\n"));
-// a. Set RFIC to "RX calibration mode"
-	//; ----- Calibration (7). RX path IQ imbalance calibration loop
-	//	0x01 0xFFBFC2  ; 3FEFF  ; Calibration (7a). enable RX IQ calibration loop circuits
-	phy_set_rf_data(phw_data, 1, (1<<24)|0xEFBFC2);
-	//	0x0B 0x1A01D6  ; 06817  ; Calibration (7b). enable RX I/Q cal loop SW1 circuit
-	phy_set_rf_data(phw_data, 11, (11<<24)|0x1A05D6);
-	//0x05 0x24848A  ; 09212  ; Calibration (7c). setting TX-VGA gain (TXGCH) to 2 --> to be optimized
-	phy_set_rf_data(phw_data, 5, (5<<24)| phw_data->txvga_setting_for_cal);
-	//0x06 0x06840C  ; 01A10  ; Calibration (7d). RXGCH=00; RXGCL=010 000 (RXVGA) --> to be optimized
-	phy_set_rf_data(phw_data, 6, (6<<24)|0x06834C);
-	//0x00 0xFFF1C0  ; 3F7C7  ; Calibration (7e). turn on IQ imbalance/Test mode
-	phy_set_rf_data(phw_data, 0, (0<<24)|0xFFF1C0);
-
-	//  ; [BB-chip]: Calibration (7f). Send test pattern
-	//	; [BB-chip]: Calibration (7g). Search RXGCL optimal value
-	//	; [BB-chip]: Calibration (7h). Caculate RX-path IQ imbalance and setting RX path IQ compensation table
-
+	/*
+	 * a. Set RFIC to "RX calibration mode"
+	 * ----- Calibration (7). RX path IQ imbalance calibration loop
+	 * 0x01 0xFFBFC2  ; 3FEFF  ; Calibration (7a). enable RX IQ calibration loop circuits
+	 */
+	phy_set_rf_data(phw_data, 1, (1 << 24) | 0xEFBFC2);
+	/* 0x0B 0x1A01D6  ; 06817  ; Calibration (7b). enable RX I/Q cal loop SW1 circuit */
+	phy_set_rf_data(phw_data, 11, (11 << 24) | 0x1A05D6);
+	/* 0x05 0x24848A  ; 09212  ; Calibration (7c). setting TX-VGA gain (TXGCH) to 2 --> to be optimized */
+	phy_set_rf_data(phw_data, 5, (5 << 24) | phw_data->txvga_setting_for_cal);
+	/* 0x06 0x06840C  ; 01A10  ; Calibration (7d). RXGCH=00; RXGCL=010 000 (RXVGA) --> to be optimized */
+	phy_set_rf_data(phw_data, 6, (6 << 24) | 0x06834C);
+	/* 0x00 0xFFF1C0  ; 3F7C7  ; Calibration (7e). turn on IQ imbalance/Test mode */
+	phy_set_rf_data(phw_data, 0, (0 << 24) | 0xFFF1C0);
+
+	/*
+	 * [BB-chip]: Calibration (7f). Send test pattern
+	 * [BB-chip]: Calibration (7g). Search RXGCL optimal value
+	 * [BB-chip]: Calibration (7h). Caculate RX-path IQ imbalance and setting RX path IQ compensation table
+	 */
 	result = _rx_iq_calibration_loop_winbond(phw_data, 12589, frequency);
 
-	if (result > 0)
-	{
+	if (result > 0) {
 		_reset_rx_cal(phw_data);
 		result = _rx_iq_calibration_loop_winbond(phw_data, 7943, frequency);
 
-		if (result > 0)
-		{
+		if (result > 0)	{
 			_reset_rx_cal(phw_data);
 			result = _rx_iq_calibration_loop_winbond(phw_data, 5011, frequency);
 
-			if (result > 0)
-			{
+			if (result > 0) {
 				PHY_DEBUG(("[CAL] ** <_rx_iq_calibration> **************\n"));
 				PHY_DEBUG(("[CAL] ** RX_IQ_CALIBRATION FAILURE !!\n"));
 				PHY_DEBUG(("[CAL] **************************************\n"));
@@ -1574,15 +1393,12 @@ void _rx_iq_calibration_winbond(struct hw_data *phw_data, u32 frequency)
 	hw_get_dxx_reg(phw_data, 0x54, &val);
 	PHY_DEBUG(("[CAL]    ** 0x54 = 0x%08X\n", val));
 
-	if (phw_data->revision == 0x2002) // 1st-cut
-	{
+	if (phw_data->revision == 0x2002) { /* 1st-cut */
 		rx_cal_reg[0] = _s4_to_s32((val & 0x0000F000) >> 12);
 		rx_cal_reg[1] = _s4_to_s32((val & 0x00000F00) >>  8);
 		rx_cal_reg[2] = _s4_to_s32((val & 0x000000F0) >>  4);
 		rx_cal_reg[3] = _s4_to_s32((val & 0x0000000F));
-	}
-	else // 2nd-cut
-	{
+	} else { /* 2nd-cut */
 		rx_cal_reg[0] = _s5_to_s32((val & 0xF8000000) >> 27);
 		rx_cal_reg[1] = _s6_to_s32((val & 0x07E00000) >> 21);
 		rx_cal_reg[2] = _s6_to_s32((val & 0x001F8000) >> 15);
@@ -1594,163 +1410,138 @@ void _rx_iq_calibration_winbond(struct hw_data *phw_data, u32 frequency)
 	PHY_DEBUG(("[CAL]       rx_cal_reg[2] = %d\n", rx_cal_reg[2]));
 	PHY_DEBUG(("[CAL]       rx_cal_reg[3] = %d\n", rx_cal_reg[3]));
 #endif
-
 }
 
-////////////////////////////////////////////////////////////////////////
 void phy_calibration_winbond(struct hw_data *phw_data, u32 frequency)
 {
-	u32     reg_mode_ctrl;
-	u32     iq_alpha;
+	u32	reg_mode_ctrl;
+	u32	iq_alpha;
 
 	PHY_DEBUG(("[CAL] -> phy_calibration_winbond()\n"));
 
-	// 20040701 1.1.25.1000 kevin
 	hw_get_cxx_reg(phw_data, 0x80, &mac_ctrl);
 	hw_get_cxx_reg(phw_data, 0xE4, &rf_ctrl);
 	hw_get_dxx_reg(phw_data, 0x58, &iq_alpha);
 
-
-
 	_rxadc_dc_offset_cancellation_winbond(phw_data, frequency);
-	//_txidac_dc_offset_cancellation_winbond(phw_data);
-	//_txqdac_dc_offset_cacellation_winbond(phw_data);
 
 	_tx_iq_calibration_winbond(phw_data);
 	_rx_iq_calibration_winbond(phw_data, frequency);
 
-	//------------------------------------------------------------------------
 	hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &reg_mode_ctrl);
-	reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL|MASK_IQCAL_MODE|MASK_CALIB_START); // set when finish
+	reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL | MASK_IQCAL_MODE | MASK_CALIB_START); /* set when finish */
 	hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl);
 	PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
 
-	// i. Set RFIC to "Normal mode"
+	/* i. Set RFIC to "Normal mode" */
 	hw_set_cxx_reg(phw_data, 0x80, mac_ctrl);
 	hw_set_cxx_reg(phw_data, 0xE4, rf_ctrl);
 	hw_set_dxx_reg(phw_data, 0x58, iq_alpha);
 
-
-	//------------------------------------------------------------------------
 	phy_init_rf(phw_data);
-
 }
 
-//===========================
-void phy_set_rf_data(  struct hw_data * pHwData,  u32 index,  u32 value )
+void phy_set_rf_data(struct hw_data *pHwData, u32 index, u32 value)
 {
-   u32 ltmp=0;
-
-    switch( pHwData->phy_type )
-	{
-		case RF_MAXIM_2825:
-		case RF_MAXIM_V1: // 11g Winbond 2nd BB(with Phy board (v1) + Maxim 331)
-			ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse( value, 18 );
-			break;
-
-		case RF_MAXIM_2827:
-			ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse( value, 18 );
-			break;
-
-		case RF_MAXIM_2828:
-			ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse( value, 18 );
-			break;
-
-		case RF_MAXIM_2829:
-			ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse( value, 18 );
-			break;
-
-		case RF_AIROHA_2230:
-		case RF_AIROHA_2230S: // 20060420 Add this
-			ltmp = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse( value, 20 );
-			break;
-
-		case RF_AIROHA_7230:
-			ltmp = (1 << 31) | (0 << 30) | (24 << 24) | (value&0xffffff);
-			break;
-
-		case RF_WB_242:
-		case RF_WB_242_1: // 20060619.5 Add
-			ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse( value, 24 );
-			break;
+	u32	ltmp = 0;
+
+	switch (pHwData->phy_type) {
+	case RF_MAXIM_2825:
+	case RF_MAXIM_V1: /* 11g Winbond 2nd BB(with Phy board (v1) + Maxim 331) */
+		ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(value, 18);
+		break;
+	case RF_MAXIM_2827:
+		ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(value, 18);
+		break;
+	case RF_MAXIM_2828:
+		ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(value, 18);
+		break;
+	case RF_MAXIM_2829:
+		ltmp = (1 << 31) | (0 << 30) | (18 << 24) | BitReverse(value, 18);
+		break;
+	case RF_AIROHA_2230:
+	case RF_AIROHA_2230S:
+		ltmp = (1 << 31) | (0 << 30) | (20 << 24) | BitReverse(value, 20);
+		break;
+	case RF_AIROHA_7230:
+		ltmp = (1 << 31) | (0 << 30) | (24 << 24) | (value & 0xffffff);
+		break;
+	case RF_WB_242:
+	case RF_WB_242_1:
+		ltmp = (1 << 31) | (0 << 30) | (24 << 24) | BitReverse(value, 24);
+		break;
 	}
 
-	Wb35Reg_WriteSync( pHwData, 0x0864, ltmp );
+	Wb35Reg_WriteSync(pHwData, 0x0864, ltmp);
 }
 
-// 20060717 modify as Bruce's mail
 unsigned char adjust_TXVGA_for_iq_mag(struct hw_data *phw_data)
 {
-	int init_txvga = 0;
-	u32     reg_mode_ctrl;
-	u32     val;
-	s32     iqcal_tone_i0;
-	s32     iqcal_tone_q0;
-	u32     sqsum;
-	s32     iq_mag_0_tx;
-	u8		reg_state;
-	int		current_txvga;
-
+	int	init_txvga = 0;
+	u32	reg_mode_ctrl;
+	u32	val;
+	s32	iqcal_tone_i0;
+	s32	iqcal_tone_q0;
+	u32	sqsum;
+	s32	iq_mag_0_tx;
+	u8	reg_state;
+	int	current_txvga;
 
 	reg_state = 0;
-	for( init_txvga=0; init_txvga<10; init_txvga++)
-	{
-		current_txvga = ( 0x24C40A|(init_txvga<<6) );
-		phy_set_rf_data(phw_data, 5, ((5<<24)|current_txvga) );
+	for (init_txvga = 0; init_txvga < 10; init_txvga++) {
+		current_txvga = (0x24C40A | (init_txvga << 6));
+		phy_set_rf_data(phw_data, 5, ((5 << 24) | current_txvga));
 		phw_data->txvga_setting_for_cal = current_txvga;
 
-		msleep(30); // 20060612.1.a
+		msleep(30);
 
-		if( !hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &reg_mode_ctrl) ) // 20060718.1 modify
+		if (!hw_get_dxx_reg(phw_data, REG_MODE_CTRL, &reg_mode_ctrl))
 			return false;
 
 		PHY_DEBUG(("[CAL]    MODE_CTRL (read) = 0x%08X\n", reg_mode_ctrl));
 
-		// a. Set iqcal_mode[1:0] to 0x2 and set "calib_start" to 0x1 to
-		//    enable "IQ alibration Mode II"
-		reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL|MASK_IQCAL_MODE);
+		/*
+		 * a. Set iqcal_mode[1:0] to 0x2 and set "calib_start" to 0x1 to
+		 *    enable "IQ alibration Mode II"
+		 */
+		reg_mode_ctrl &= ~(MASK_IQCAL_TONE_SEL | MASK_IQCAL_MODE);
 		reg_mode_ctrl &= ~MASK_IQCAL_MODE;
-		reg_mode_ctrl |= (MASK_CALIB_START|0x02);
-		reg_mode_ctrl |= (MASK_CALIB_START|0x02|2<<2);
+		reg_mode_ctrl |= (MASK_CALIB_START | 0x02);
+		reg_mode_ctrl |= (MASK_CALIB_START | 0x02 | 2 << 2);
 		hw_set_dxx_reg(phw_data, REG_MODE_CTRL, reg_mode_ctrl);
 		PHY_DEBUG(("[CAL]    MODE_CTRL (write) = 0x%08X\n", reg_mode_ctrl));
 
-		udelay(1); // 20060612.1.a
+		udelay(1);
 
-		udelay(300); // 20060612.1.a
+		udelay(300);
 
-		// b.
+		/* b. */
 		hw_get_dxx_reg(phw_data, REG_CALIB_READ1, &val);
 
 		PHY_DEBUG(("[CAL]    CALIB_READ1 = 0x%08X\n", val));
-		udelay(300); // 20060612.1.a
+		udelay(300);
 
 		iqcal_tone_i0 = _s13_to_s32(val & 0x00001FFF);
 		iqcal_tone_q0 = _s13_to_s32((val & 0x03FFE000) >> 13);
 		PHY_DEBUG(("[CAL]    ** iqcal_tone_i0=%d, iqcal_tone_q0=%d\n",
 				   iqcal_tone_i0, iqcal_tone_q0));
 
-		sqsum = iqcal_tone_i0*iqcal_tone_i0 + iqcal_tone_q0*iqcal_tone_q0;
+		sqsum = iqcal_tone_i0 * iqcal_tone_i0 + iqcal_tone_q0 * iqcal_tone_q0;
 		iq_mag_0_tx = (s32) _sqrt(sqsum);
 		PHY_DEBUG(("[CAL]    ** auto_adjust_txvga_for_iq_mag_0_tx=%d\n", iq_mag_0_tx));
 
-		if( iq_mag_0_tx>=700 && iq_mag_0_tx<=1750 )
+		if (iq_mag_0_tx >= 700 && iq_mag_0_tx <= 1750)
 			break;
-		else if(iq_mag_0_tx > 1750)
-		{
-			init_txvga=-2;
+		else if (iq_mag_0_tx > 1750) {
+			init_txvga = -2;
 			continue;
-		}
-		else
+		} else
 			continue;
-
 	}
 
-	if( iq_mag_0_tx>=700 && iq_mag_0_tx<=1750 )
+	if (iq_mag_0_tx >= 700 && iq_mag_0_tx <= 1750)
 		return true;
 	else
 		return false;
 }
 
-
-



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