Commit 66be78f6 authored by H Hartley Sweeten's avatar H Hartley Sweeten Committed by Greg Kroah-Hartman

staging: comedi: addi_eeprom: cleanup v_EepromReadWord()

Add namespace to the function by renaming the CamelCase function to
addi_eeprom_readw().

Rename the CamelCase parameters and local variables.
Signed-off-by: default avatarH Hartley Sweeten <hsweeten@visionengravers.com>
Cc: Ian Abbott <abbotti@mev.co.uk>
Signed-off-by: default avatarGreg Kroah-Hartman <gregkh@linuxfoundation.org>
parent ed4d2b26
......@@ -60,7 +60,7 @@ static int i_ADDIDATA_InsnReadEeprom(struct comedi_device *dev,
unsigned short w_Address = CR_CHAN(insn->chanspec);
unsigned short w_Data;
w_Data = w_EepromReadWord(devpriv->i_IobaseAmcc,
w_Data = addi_eeprom_readw(devpriv->i_IobaseAmcc,
this_board->pc_EepromChip, 0x100 + (2 * w_Address));
data[0] = w_Data;
......
......@@ -223,20 +223,19 @@ static unsigned short addi_eeprom_readw_nvram(unsigned long iobase,
return val;
}
static unsigned short w_EepromReadWord(unsigned long iobase,
char *type,
unsigned short w_EepromStartAddress)
static unsigned short addi_eeprom_readw(unsigned long iobase,
char *type,
unsigned short addr)
{
unsigned short w_ReadWord = 0;
unsigned short val = 0;
/* Test the PCI chip type */
if (!strcmp(type, "S5920") || !strcmp(type, "S5933"))
w_ReadWord = addi_eeprom_readw_nvram(iobase, w_EepromStartAddress);
val = addi_eeprom_readw_nvram(iobase, addr);
if (!strcmp(type, "93C76"))
w_ReadWord = addi_eeprom_readw_93c76(iobase, w_EepromStartAddress);
val = addi_eeprom_readw_93c76(iobase, addr);
return w_ReadWord;
return val;
}
static int i_EepromReadDigitalInputHeader(unsigned long iobase,
......@@ -247,17 +246,17 @@ static int i_EepromReadDigitalInputHeader(unsigned long iobase,
unsigned short w_Temp;
/* read nbr of channels */
s_Header->w_Nchannel = w_EepromReadWord(iobase, type,
0x100 + w_Address + 6);
s_Header->w_Nchannel = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 6);
/* interruptible or not */
w_Temp = w_EepromReadWord(iobase, type,
0x100 + w_Address + 8);
w_Temp = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 8);
s_Header->b_Interruptible = (unsigned char) (w_Temp >> 7) & 0x01;
/* How many interruptible logic */
s_Header->w_NinterruptLogic = w_EepromReadWord(iobase, type,
0x100 + w_Address + 10);
s_Header->w_NinterruptLogic = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 10);
return 0;
}
......@@ -268,8 +267,8 @@ static int i_EepromReadDigitalOutputHeader(unsigned long iobase,
struct str_DigitalOutputHeader *s_Header)
{
/* Read Nbr channels */
s_Header->w_Nchannel = w_EepromReadWord(iobase, type,
0x100 + w_Address + 6);
s_Header->w_Nchannel = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 6);
return 0;
}
......@@ -283,15 +282,15 @@ static int i_EepromReadTimerHeader(unsigned long iobase,
unsigned short i, w_Size = 0, w_Temp;
/* Read No of Timer */
s_Header->w_Ntimer = w_EepromReadWord(iobase, type,
0x100 + w_Address + 6);
s_Header->w_Ntimer = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 6);
/* Read header size */
for (i = 0; i < s_Header->w_Ntimer; i++) {
s_Header->s_TimerDetails[i].w_HeaderSize =
w_EepromReadWord(iobase, type,
0x100 + w_Address + 8 + w_Size + 0);
w_Temp = w_EepromReadWord(iobase, type,
0x100 + w_Address + 8 + w_Size + 2);
addi_eeprom_readw(iobase, type,
0x100 + w_Address + 8 + w_Size + 0);
w_Temp = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 8 + w_Size + 2);
/* Read Resolution */
s_Header->s_TimerDetails[i].b_Resolution =
......@@ -301,8 +300,8 @@ static int i_EepromReadTimerHeader(unsigned long iobase,
s_Header->s_TimerDetails[i].b_Mode =
(unsigned char) (w_Temp >> 4) & 0x3F;
w_Temp = w_EepromReadWord(iobase, type,
0x100 + w_Address + 8 + w_Size + 4);
w_Temp = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 8 + w_Size + 4);
/* Read MinTiming */
s_Header->s_TimerDetails[i].w_MinTiming = (w_Temp >> 6) & 0x3FF;
......@@ -324,12 +323,12 @@ static int i_EepromReadAnlogOutputHeader(unsigned long iobase,
unsigned short w_Temp;
/* No of channels for 1st hard component */
w_Temp = w_EepromReadWord(iobase, type,
0x100 + w_Address + 10);
w_Temp = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 10);
s_Header->w_Nchannel = (w_Temp >> 4) & 0x03FF;
/* Resolution for 1st hard component */
w_Temp = w_EepromReadWord(iobase, type,
0x100 + w_Address + 16);
w_Temp = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 16);
s_Header->b_Resolution = (unsigned char) (w_Temp >> 8) & 0xFF;
return 0;
}
......@@ -341,19 +340,19 @@ static int i_EepromReadAnlogInputHeader(unsigned long iobase,
struct str_AnalogInputHeader *s_Header)
{
unsigned short w_Temp, w_Offset;
w_Temp = w_EepromReadWord(iobase, type,
0x100 + w_Address + 10);
w_Temp = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 10);
s_Header->w_Nchannel = (w_Temp >> 4) & 0x03FF;
s_Header->w_MinConvertTiming = w_EepromReadWord(iobase, type,
0x100 + w_Address + 16);
s_Header->w_MinDelayTiming = w_EepromReadWord(iobase, type,
0x100 + w_Address + 30);
w_Temp = w_EepromReadWord(iobase, type,
0x100 + w_Address + 20);
s_Header->w_MinConvertTiming = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 16);
s_Header->w_MinDelayTiming = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 30);
w_Temp = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 20);
s_Header->b_HasDma = (w_Temp >> 13) & 0x01; /* whether dma present or not */
w_Temp = w_EepromReadWord(iobase, type,
0x100 + w_Address + 72); /* reading Y */
w_Temp = addi_eeprom_readw(iobase, type,
0x100 + w_Address + 72); /* reading Y */
w_Temp = w_Temp & 0x00FF;
if (w_Temp) /* Y>0 */
{
......@@ -366,8 +365,8 @@ static int i_EepromReadAnlogInputHeader(unsigned long iobase,
}
/* read Resolution */
w_Temp = w_EepromReadWord(iobase, type,
0x100 + w_Address + w_Offset);
w_Temp = addi_eeprom_readw(iobase, type,
0x100 + w_Address + w_Offset);
s_Header->b_Resolution = w_Temp & 0x001F; /* last 5 bits */
return 0;
......@@ -389,25 +388,25 @@ static int i_EepromReadMainHeader(unsigned long iobase,
struct str_AnalogInputHeader s_AnalogInputHeader;
/* Read size */
s_MainHeader.w_HeaderSize = w_EepromReadWord(iobase, type,
0x100 + 8);
s_MainHeader.w_HeaderSize = addi_eeprom_readw(iobase, type,
0x100 + 8);
/* Read nbr of functionality */
w_Temp = w_EepromReadWord(iobase, type,
0x100 + 10);
w_Temp = addi_eeprom_readw(iobase, type,
0x100 + 10);
s_MainHeader.b_Nfunctions = (unsigned char) w_Temp & 0x00FF;
/* Read functionality details */
for (i = 0; i < s_MainHeader.b_Nfunctions; i++) {
/* Read Type */
w_Temp = w_EepromReadWord(iobase, type,
0x100 + 12 + w_Count);
w_Temp = addi_eeprom_readw(iobase, type,
0x100 + 12 + w_Count);
s_MainHeader.s_Functions[i].b_Type = (unsigned char) w_Temp & 0x3F;
w_Count = w_Count + 2;
/* Read Address */
s_MainHeader.s_Functions[i].w_Address =
w_EepromReadWord(iobase, type,
0x100 + 12 + w_Count);
addi_eeprom_readw(iobase, type,
0x100 + 12 + w_Count);
w_Count = w_Count + 2;
}
......
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