Staging: w35und: remove some typedefs

This patch removes some obfuscating typedefs from the driver code.

Cc: Pavel Machek <pavel@suse.cz>
Signed-off-by: Pekka Enberg <penberg@cs.helsinki.fi>
Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
This commit is contained in:
Pekka Enberg 2008-10-21 00:03:41 +03:00 committed by Greg Kroah-Hartman
parent 58be3fb09b
commit 8b384e0c3f
23 changed files with 119 additions and 124 deletions

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@ -24,7 +24,7 @@ void DesiredRate2InfoElement(PWB32_ADAPTER Adapter, u8 *addr, u16 *iFildOffset,
u8 *pBasicRateSet, u8 BasicRateCount,
u8 *pOperationRateSet, u8 OperationRateCount);
void BSSAddIBSSdata(PWB32_ADAPTER Adapter, PWB_BSSDESCRIPTION psDesData);
unsigned char boCmpMacAddr( PUCHAR, PUCHAR );
unsigned char boCmpMacAddr( u8 *, u8 *);
unsigned char boCmpSSID(struct SSID_Element *psSSID1, struct SSID_Element *psSSID2);
u16 wBSSfindSSID(PWB32_ADAPTER Adapter, struct SSID_Element *psSsid);
u16 wRoamingQuery(PWB32_ADAPTER Adapter);
@ -42,11 +42,11 @@ void RateReSortForSRate(PWB32_ADAPTER Adapter, u8 *RateArray, u8 num);
void Assemble_IE(PWB32_ADAPTER Adapter, u16 wBssIdx);
void SetMaxTxRate(PWB32_ADAPTER Adapter);
void CreateWpaIE(PWB32_ADAPTER Adapter, u16* iFildOffset, PUCHAR msg, struct Management_Frame* msgHeader,
void CreateWpaIE(PWB32_ADAPTER Adapter, u16* iFildOffset, u8 *msg, struct Management_Frame* msgHeader,
struct Association_Request_Frame_Body* msgBody, u16 iMSindex); //added by WS 05/14/05
#ifdef _WPA2_
void CreateRsnIE(PWB32_ADAPTER Adapter, u16* iFildOffset, PUCHAR msg, struct Management_Frame* msgHeader,
void CreateRsnIE(PWB32_ADAPTER Adapter, u16* iFildOffset, u8 *msg, struct Management_Frame* msgHeader,
struct Association_Request_Frame_Body* msgBody, u16 iMSindex);//added by WS 05/14/05
u16 SearchPmkid(PWB32_ADAPTER Adapter, struct Management_Frame* msgHeader,

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@ -25,9 +25,9 @@ typedef struct tkip
s32 bytes_in_M; // # bytes in M
} tkip_t;
//void _append_data( PUCHAR pData, u16 size, tkip_t *p );
void Mds_MicGet( void* Adapter, void* pRxLayer1, PUCHAR pKey, PUCHAR pMic );
void Mds_MicFill( void* Adapter, void* pDes, PUCHAR XmitBufAddress );
//void _append_data( u8 *pData, u16 size, tkip_t *p );
void Mds_MicGet( void* Adapter, void* pRxLayer1, u8 *pKey, u8 *pMic );
void Mds_MicFill( void* Adapter, void* pDes, u8 *XmitBufAddress );

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@ -39,14 +39,6 @@
// Common type definition
//===============================================================
typedef u8* PUCHAR;
typedef s8* PCHAR;
typedef u8* PBOOLEAN;
typedef u16* PUSHORT;
typedef u32* PULONG;
typedef s16* PSHORT;
//===========================================
#define IGNORE 2
#define SUCCESS 1
@ -110,7 +102,7 @@ typedef struct urb * PURB;
#define OS_ATOMIC_READ( _A, _V ) _V
#define OS_ATOMIC_INC( _A, _V ) EncapAtomicInc( _A, (void*)_V )
#define OS_ATOMIC_DEC( _A, _V ) EncapAtomicDec( _A, (void*)_V )
#define OS_MEMORY_CLEAR( _A, _S ) memset( (PUCHAR)_A,0,_S)
#define OS_MEMORY_CLEAR( _A, _S ) memset( (u8 *)_A,0,_S)
#define OS_MEMORY_COMPARE( _A, _B, _S ) (memcmp(_A,_B,_S)? 0 : 1) // Definition is reverse with Ndis 1: the same 0: different

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@ -10,7 +10,7 @@ extern void phy_calibration_winbond(hw_data_t *phw_data, u32 frequency);
// Flag : AUTO_INCREMENT - RegisterNo will auto increment 4
// NO_INCREMENT - Function will write data into the same register
unsigned char
Wb35Reg_BurstWrite(phw_data_t pHwData, u16 RegisterNo, PULONG pRegisterData, u8 NumberOfData, u8 Flag)
Wb35Reg_BurstWrite(phw_data_t pHwData, u16 RegisterNo, u32 * pRegisterData, u8 NumberOfData, u8 Flag)
{
PWB35REG pWb35Reg = &pHwData->Wb35Reg;
PURB pUrb = NULL;
@ -30,13 +30,13 @@ Wb35Reg_BurstWrite(phw_data_t pHwData, u16 RegisterNo, PULONG pRegisterData, u8
if( pUrb && pRegQueue ) {
pRegQueue->DIRECT = 2;// burst write register
pRegQueue->INDEX = RegisterNo;
pRegQueue->pBuffer = (PULONG)((PUCHAR)pRegQueue + sizeof(REG_QUEUE));
pRegQueue->pBuffer = (u32 *)((u8 *)pRegQueue + sizeof(REG_QUEUE));
memcpy( pRegQueue->pBuffer, pRegisterData, DataSize );
//the function for reversing register data from little endian to big endian
for( i=0; i<NumberOfData ; i++ )
pRegQueue->pBuffer[i] = cpu_to_le32( pRegQueue->pBuffer[i] );
dr = (struct usb_ctrlrequest *)((PUCHAR)pRegQueue + sizeof(REG_QUEUE) + DataSize);
dr = (struct usb_ctrlrequest *)((u8 *)pRegQueue + sizeof(REG_QUEUE) + DataSize);
dr->bRequestType = USB_TYPE_VENDOR | USB_DIR_OUT | USB_RECIP_DEVICE;
dr->bRequest = 0x04; // USB or vendor-defined request code, burst mode
dr->wValue = cpu_to_le16( Flag ); // 0: Register number auto-increment, 1: No auto increment
@ -181,7 +181,7 @@ Wb35Reg_Write( phw_data_t pHwData, u16 RegisterNo, u32 RegisterValue )
pRegQueue->INDEX = RegisterNo;
pRegQueue->VALUE = cpu_to_le32(RegisterValue);
pRegQueue->RESERVED_VALID = FALSE;
dr = (struct usb_ctrlrequest *)((PUCHAR)pRegQueue + sizeof(REG_QUEUE));
dr = (struct usb_ctrlrequest *)((u8 *)pRegQueue + sizeof(REG_QUEUE));
dr->bRequestType = USB_TYPE_VENDOR|USB_DIR_OUT |USB_RECIP_DEVICE;
dr->bRequest = 0x03; // USB or vendor-defined request code, burst mode
dr->wValue = cpu_to_le16(0x0);
@ -220,7 +220,7 @@ Wb35Reg_Write( phw_data_t pHwData, u16 RegisterNo, u32 RegisterValue )
// FALSE : register not support
unsigned char
Wb35Reg_WriteWithCallbackValue( phw_data_t pHwData, u16 RegisterNo, u32 RegisterValue,
PCHAR pValue, s8 Len)
s8 *pValue, s8 Len)
{
PWB35REG pWb35Reg = &pHwData->Wb35Reg;
struct usb_ctrlrequest *dr;
@ -243,7 +243,7 @@ Wb35Reg_WriteWithCallbackValue( phw_data_t pHwData, u16 RegisterNo, u32 Register
//NOTE : Users must guarantee the size of value will not exceed the buffer size.
memcpy(pRegQueue->RESERVED, pValue, Len);
pRegQueue->RESERVED_VALID = TRUE;
dr = (struct usb_ctrlrequest *)((PUCHAR)pRegQueue + sizeof(REG_QUEUE));
dr = (struct usb_ctrlrequest *)((u8 *)pRegQueue + sizeof(REG_QUEUE));
dr->bRequestType = USB_TYPE_VENDOR|USB_DIR_OUT |USB_RECIP_DEVICE;
dr->bRequest = 0x03; // USB or vendor-defined request code, burst mode
dr->wValue = cpu_to_le16(0x0);
@ -278,10 +278,10 @@ Wb35Reg_WriteWithCallbackValue( phw_data_t pHwData, u16 RegisterNo, u32 Register
// FALSE : register not support
// pRegisterValue : It must be a resident buffer due to asynchronous read register.
unsigned char
Wb35Reg_ReadSync( phw_data_t pHwData, u16 RegisterNo, PULONG pRegisterValue )
Wb35Reg_ReadSync( phw_data_t pHwData, u16 RegisterNo, u32 * pRegisterValue )
{
PWB35REG pWb35Reg = &pHwData->Wb35Reg;
PULONG pltmp = pRegisterValue;
u32 * pltmp = pRegisterValue;
int ret = -1;
// Module shutdown
@ -327,7 +327,7 @@ Wb35Reg_ReadSync( phw_data_t pHwData, u16 RegisterNo, PULONG pRegisterValue
// FALSE : register not support
// pRegisterValue : It must be a resident buffer due to asynchronous read register.
unsigned char
Wb35Reg_Read(phw_data_t pHwData, u16 RegisterNo, PULONG pRegisterValue )
Wb35Reg_Read(phw_data_t pHwData, u16 RegisterNo, u32 * pRegisterValue )
{
PWB35REG pWb35Reg = &pHwData->Wb35Reg;
struct usb_ctrlrequest * dr;
@ -348,7 +348,7 @@ Wb35Reg_Read(phw_data_t pHwData, u16 RegisterNo, PULONG pRegisterValue )
pRegQueue->DIRECT = 0;// read register
pRegQueue->INDEX = RegisterNo;
pRegQueue->pBuffer = pRegisterValue;
dr = (struct usb_ctrlrequest *)((PUCHAR)pRegQueue + sizeof(REG_QUEUE));
dr = (struct usb_ctrlrequest *)((u8 *)pRegQueue + sizeof(REG_QUEUE));
dr->bRequestType = USB_TYPE_VENDOR|USB_RECIP_DEVICE|USB_DIR_IN;
dr->bRequest = 0x01; // USB or vendor-defined request code, burst mode
dr->wValue = cpu_to_le16(0x0);
@ -399,7 +399,7 @@ Wb35Reg_EP0VM(phw_data_t pHwData )
PWB35REG pWb35Reg = &pHwData->Wb35Reg;
PURB pUrb;
struct usb_ctrlrequest *dr;
PULONG pBuffer;
u32 * pBuffer;
int ret = -1;
PREG_QUEUE pRegQueue;
@ -429,7 +429,7 @@ Wb35Reg_EP0VM(phw_data_t pHwData )
usb_fill_control_urb( pUrb, pHwData->WbUsb.udev,
REG_DIRECTION(pHwData->WbUsb.udev,pRegQueue),
(PUCHAR)dr,pBuffer,cpu_to_le16(dr->wLength),
(u8 *)dr,pBuffer,cpu_to_le16(dr->wLength),
Wb35Reg_EP0VM_complete, (void*)pHwData);
pWb35Reg->EP0vm_state = VM_RUNNING;
@ -655,7 +655,7 @@ unsigned char Wb35Reg_initial(phw_data_t pHwData)
// version in _GENREQ.ASM of the DWB NE1000/2000 driver.
//==================================================================================
u32
CardComputeCrc(PUCHAR Buffer, u32 Length)
CardComputeCrc(u8 * Buffer, u32 Length)
{
u32 Crc, Carry;
u32 i, j;

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@ -29,16 +29,16 @@ void EEPROMTxVgaAdjust( phw_data_t pHwData ); // 20060619.5 Add
void Wb35Reg_destroy( phw_data_t pHwData );
unsigned char Wb35Reg_Read( phw_data_t pHwData, u16 RegisterNo, PULONG pRegisterValue );
unsigned char Wb35Reg_ReadSync( phw_data_t pHwData, u16 RegisterNo, PULONG pRegisterValue );
unsigned char Wb35Reg_Read( phw_data_t pHwData, u16 RegisterNo, u32 * pRegisterValue );
unsigned char Wb35Reg_ReadSync( phw_data_t pHwData, u16 RegisterNo, u32 * pRegisterValue );
unsigned char Wb35Reg_Write( phw_data_t pHwData, u16 RegisterNo, u32 RegisterValue );
unsigned char Wb35Reg_WriteSync( phw_data_t pHwData, u16 RegisterNo, u32 RegisterValue );
unsigned char Wb35Reg_WriteWithCallbackValue( phw_data_t pHwData,
u16 RegisterNo,
u32 RegisterValue,
PCHAR pValue,
s8 Len);
unsigned char Wb35Reg_BurstWrite( phw_data_t pHwData, u16 RegisterNo, PULONG pRegisterData, u8 NumberOfData, u8 Flag );
s8 *pValue,
s8 Len);
unsigned char Wb35Reg_BurstWrite( phw_data_t pHwData, u16 RegisterNo, u32 * pRegisterData, u8 NumberOfData, u8 Flag );
void Wb35Reg_EP0VM( phw_data_t pHwData );
void Wb35Reg_EP0VM_start( phw_data_t pHwData );
@ -47,7 +47,7 @@ void Wb35Reg_EP0VM_complete( PURB pUrb );
u32 BitReverse( u32 dwData, u32 DataLength);
void CardGetMulticastBit( u8 Address[MAC_ADDR_LENGTH], u8 *Byte, u8 *Value );
u32 CardComputeCrc( PUCHAR Buffer, u32 Length );
u32 CardComputeCrc( u8 * Buffer, u32 Length );
void Wb35Reg_phy_calibration( phw_data_t pHwData );
void Wb35Reg_Update( phw_data_t pHwData, u16 RegisterNo, u32 RegisterValue );

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@ -75,7 +75,7 @@ typedef struct _REG_QUEUE
union
{
u32 VALUE;
PULONG pBuffer;
u32 * pBuffer;
};
u8 RESERVED[4];// space reserved for communication

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@ -27,7 +27,7 @@ void Wb35Rx_start(phw_data_t pHwData)
void Wb35Rx( phw_data_t pHwData )
{
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
PUCHAR pRxBufferAddress;
u8 * pRxBufferAddress;
PURB pUrb = (PURB)pWb35Rx->RxUrb;
int retv;
u32 RxBufferId;
@ -89,7 +89,7 @@ void Wb35Rx_Complete(PURB pUrb)
{
phw_data_t pHwData = pUrb->context;
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
PUCHAR pRxBufferAddress;
u8 * pRxBufferAddress;
u32 SizeCheck;
u16 BulkLength;
u32 RxBufferId;
@ -116,7 +116,7 @@ void Wb35Rx_Complete(PURB pUrb)
// Start to process the data only in successful condition
pWb35Rx->RxOwner[ RxBufferId ] = 0; // Set the owner to driver
R00.value = le32_to_cpu(*(PULONG)pRxBufferAddress);
R00.value = le32_to_cpu(*(u32 *)pRxBufferAddress);
// The URB is completed, check the result
if (pWb35Rx->EP3VM_status != 0) {
@ -223,7 +223,7 @@ void Wb35Rx_reset_descriptor( phw_data_t pHwData )
void Wb35Rx_adjust(PDESCRIPTOR pRxDes)
{
PULONG pRxBufferAddress;
u32 * pRxBufferAddress;
u32 DecryptionMethod;
u32 i;
u16 BufferSize;
@ -264,7 +264,7 @@ u16 Wb35Rx_indicate(phw_data_t pHwData)
{
DESCRIPTOR RxDes;
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
PUCHAR pRxBufferAddress;
u8 * pRxBufferAddress;
u16 PacketSize;
u16 stmp, BufferSize, stmp2 = 0;
u32 RxBufferId;
@ -283,13 +283,13 @@ u16 Wb35Rx_indicate(phw_data_t pHwData)
// Parse the bulkin buffer
while (BufferSize >= 4) {
if ((cpu_to_le32(*(PULONG)pRxBufferAddress) & 0x0fffffff) == RX_END_TAG) //Is ending? 921002.9.a
if ((cpu_to_le32(*(u32 *)pRxBufferAddress) & 0x0fffffff) == RX_END_TAG) //Is ending? 921002.9.a
break;
// Get the R00 R01 first
RxDes.R00.value = le32_to_cpu(*(PULONG)pRxBufferAddress);
RxDes.R00.value = le32_to_cpu(*(u32 *)pRxBufferAddress);
PacketSize = (u16)RxDes.R00.R00_receive_byte_count;
RxDes.R01.value = le32_to_cpu(*((PULONG)(pRxBufferAddress+4)));
RxDes.R01.value = le32_to_cpu(*((u32 *)(pRxBufferAddress+4)));
// For new DMA 4k
if ((PacketSize & 0x03) > 0)
PacketSize -= 4;

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@ -41,7 +41,7 @@ typedef struct _WB35RX
u32 Ep3ErrorCount2; // 20060625.1 Usbd for Rx DMA error count
int EP3VM_status;
PUCHAR pDRx;
u8 * pDRx;
} WB35RX, *PWB35RX;

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@ -12,7 +12,7 @@
unsigned char
Wb35Tx_get_tx_buffer(phw_data_t pHwData, PUCHAR *pBuffer )
Wb35Tx_get_tx_buffer(phw_data_t pHwData, u8 **pBuffer)
{
PWB35TX pWb35Tx = &pHwData->Wb35Tx;
@ -37,7 +37,7 @@ void Wb35Tx(phw_data_t pHwData)
{
PWB35TX pWb35Tx = &pHwData->Wb35Tx;
PADAPTER Adapter = pHwData->Adapter;
PUCHAR pTxBufferAddress;
u8 *pTxBufferAddress;
PMDS pMds = &Adapter->Mds;
struct urb * pUrb = (struct urb *)pWb35Tx->Tx4Urb;
int retv;
@ -225,7 +225,7 @@ void Wb35Tx_EP2VM(phw_data_t pHwData)
{
PWB35TX pWb35Tx = &pHwData->Wb35Tx;
struct urb * pUrb = (struct urb *)pWb35Tx->Tx2Urb;
PULONG pltmp = (PULONG)pWb35Tx->EP2_buf;
u32 * pltmp = (u32 *)pWb35Tx->EP2_buf;
int retv;
do {
@ -266,7 +266,7 @@ void Wb35Tx_EP2VM_complete(struct urb * pUrb)
T02_DESCRIPTOR T02, TSTATUS;
PADAPTER Adapter = (PADAPTER)pHwData->Adapter;
PWB35TX pWb35Tx = &pHwData->Wb35Tx;
PULONG pltmp = (PULONG)pWb35Tx->EP2_buf;
u32 * pltmp = (u32 *)pWb35Tx->EP2_buf;
u32 i;
u16 InterruptInLength;

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@ -3,7 +3,7 @@
//====================================
unsigned char Wb35Tx_initial( phw_data_t pHwData );
void Wb35Tx_destroy( phw_data_t pHwData );
unsigned char Wb35Tx_get_tx_buffer( phw_data_t pHwData, PUCHAR *pBuffer );
unsigned char Wb35Tx_get_tx_buffer( phw_data_t pHwData, u8 **pBuffer );
void Wb35Tx_EP2VM( phw_data_t pHwData );
void Wb35Tx_EP2VM_start( phw_data_t pHwData );

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@ -136,7 +136,7 @@ static int wbsoft_config(struct ieee80211_hw *dev, struct ieee80211_conf *conf)
hal_set_current_channel(&my_adapter->sHwData, ch);
hal_set_beacon_period(&my_adapter->sHwData, conf->beacon_int);
// hal_set_cap_info(&my_adapter->sHwData, ?? );
// hal_set_ssid(phw_data_t pHwData, PUCHAR pssid, u8 ssid_len); ??
// hal_set_ssid(phw_data_t pHwData, u8 * pssid, u8 ssid_len); ??
hal_set_accept_broadcast(&my_adapter->sHwData, 1);
hal_set_accept_promiscuous(&my_adapter->sHwData, 1);
hal_set_accept_multicast(&my_adapter->sHwData, 1);
@ -148,7 +148,7 @@ static int wbsoft_config(struct ieee80211_hw *dev, struct ieee80211_conf *conf)
// hal_start_bss(&my_adapter->sHwData, WLAN_BSSTYPE_INFRASTRUCTURE); ??
//void hal_set_rates(phw_data_t pHwData, PUCHAR pbss_rates,
//void hal_set_rates(phw_data_t pHwData, u8 * pbss_rates,
// u8 length, unsigned char basic_rate_set)
return 0;

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@ -40,7 +40,7 @@ Mds_Tx(PADAPTER Adapter)
PMDS pMds = &Adapter->Mds;
DESCRIPTOR TxDes;
PDESCRIPTOR pTxDes = &TxDes;
PUCHAR XmitBufAddress;
u8 *XmitBufAddress;
u16 XmitBufSize, PacketSize, stmp, CurrentSize, FragmentThreshold;
u8 FillIndex, TxDesIndex, FragmentCount, FillCount;
unsigned char BufferFilled = FALSE, MICAdd = 0;
@ -90,7 +90,7 @@ Mds_Tx(PADAPTER Adapter)
BufferFilled = TRUE;
/* Leaves first u8 intact */
memset((PUCHAR)pTxDes + 1, 0, sizeof(DESCRIPTOR) - 1);
memset((u8 *)pTxDes + 1, 0, sizeof(DESCRIPTOR) - 1);
TxDesIndex = pMds->TxDesIndex;//Get the current ID
pTxDes->Descriptor_ID = TxDesIndex;
@ -229,10 +229,10 @@ Mds_SendComplete(PADAPTER Adapter, PT02_DESCRIPTOR pT02)
}
void
Mds_HeaderCopy(PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR TargetBuffer)
Mds_HeaderCopy(PADAPTER Adapter, PDESCRIPTOR pDes, u8 *TargetBuffer)
{
PMDS pMds = &Adapter->Mds;
PUCHAR src_buffer = pDes->buffer_address[0];//931130.5.g
u8 *src_buffer = pDes->buffer_address[0];//931130.5.g
PT00_DESCRIPTOR pT00;
PT01_DESCRIPTOR pT01;
u16 stmp;
@ -276,7 +276,7 @@ Mds_HeaderCopy(PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR TargetBuffer)
//
// Set tx rate
//
stmp = *(PUSHORT)(TargetBuffer+30); // 2n alignment address
stmp = *(u16 *)(TargetBuffer+30); // 2n alignment address
//Use basic rate
ctmp1 = ctmpf = CURRENT_TX_RATE_FOR_MNG;
@ -326,11 +326,13 @@ Mds_HeaderCopy(PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR TargetBuffer)
// The function return the 4n size of usb pk
u16
Mds_BodyCopy(PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR TargetBuffer)
Mds_BodyCopy(PADAPTER Adapter, PDESCRIPTOR pDes, u8 *TargetBuffer)
{
PT00_DESCRIPTOR pT00;
PMDS pMds = &Adapter->Mds;
PUCHAR buffer, src_buffer, pctmp;
u8 *buffer;
u8 *src_buffer;
u8 *pctmp;
u16 Size = 0;
u16 SizeLeft, CopySize, CopyLeft, stmp;
u8 buf_index, FragmentCount = 0;
@ -354,7 +356,7 @@ Mds_BodyCopy(PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR TargetBuffer)
SizeLeft -= CopySize;
// 1 Byte operation
pctmp = (PUCHAR)( buffer + 8 + DOT_11_SEQUENCE_OFFSET );
pctmp = (u8 *)( buffer + 8 + DOT_11_SEQUENCE_OFFSET );
*pctmp &= 0xf0;
*pctmp |= FragmentCount;//931130.5.m
if( !FragmentCount )
@ -379,7 +381,7 @@ Mds_BodyCopy(PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR TargetBuffer)
buf_index++;
buf_index %= MAX_DESCRIPTOR_BUFFER_INDEX;
} else {
PUCHAR pctmp = pDes->buffer_address[buf_index];
u8 *pctmp = pDes->buffer_address[buf_index];
pctmp += CopySize;
pDes->buffer_address[buf_index] = pctmp;
pDes->buffer_size[buf_index] -= CopySize;
@ -419,7 +421,7 @@ Mds_BodyCopy(PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR TargetBuffer)
pT00->T00_last_mpdu = 1;
pT00->T00_IsLastMpdu = 1;
buffer = (PUCHAR)pT00 + 8; // +8 for USB hdr
buffer = (u8 *)pT00 + 8; // +8 for USB hdr
buffer[1] &= ~0x04; // Clear more frag bit of 802.11 frame control
pDes->FragmentCount = FragmentCount; // Update the correct fragment number
return Size;
@ -427,7 +429,7 @@ Mds_BodyCopy(PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR TargetBuffer)
void
Mds_DurationSet( PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR buffer )
Mds_DurationSet( PADAPTER Adapter, PDESCRIPTOR pDes, u8 *buffer )
{
PT00_DESCRIPTOR pT00;
PT01_DESCRIPTOR pT01;
@ -574,7 +576,7 @@ Mds_DurationSet( PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR buffer )
DEFAULT_SIFSTIME*3 );
}
((PUSHORT)buffer)[5] = cpu_to_le16(Duration);// 4 USHOR for skip 8B USB, 2USHORT=FC + Duration
((u16 *)buffer)[5] = cpu_to_le16(Duration);// 4 USHOR for skip 8B USB, 2USHORT=FC + Duration
//----20061009 add by anson's endian
pNextT00->value = cpu_to_le32(pNextT00->value);
@ -615,7 +617,7 @@ Mds_DurationSet( PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR buffer )
}
}
((PUSHORT)buffer)[5] = cpu_to_le16(Duration);// 4 USHOR for skip 8B USB, 2USHORT=FC + Duration
((u16 *)buffer)[5] = cpu_to_le16(Duration);// 4 USHOR for skip 8B USB, 2USHORT=FC + Duration
pT00->value = cpu_to_le32(pT00->value);
pT01->value = cpu_to_le32(pT01->value);
//--end 20061009 add

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@ -1,9 +1,9 @@
unsigned char Mds_initial( PADAPTER Adapter );
void Mds_Destroy( PADAPTER Adapter );
void Mds_Tx( PADAPTER Adapter );
void Mds_HeaderCopy( PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR TargetBuffer );
u16 Mds_BodyCopy( PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR TargetBuffer );
void Mds_DurationSet( PADAPTER Adapter, PDESCRIPTOR pDes, PUCHAR TargetBuffer );
void Mds_HeaderCopy( PADAPTER Adapter, PDESCRIPTOR pDes, u8 *TargetBuffer );
u16 Mds_BodyCopy( PADAPTER Adapter, PDESCRIPTOR pDes, u8 *TargetBuffer );
void Mds_DurationSet( PADAPTER Adapter, PDESCRIPTOR pDes, u8 *TargetBuffer );
void Mds_SendComplete( PADAPTER Adapter, PT02_DESCRIPTOR pT02 );
void Mds_MpduProcess( PADAPTER Adapter, PDESCRIPTOR pRxDes );
void Mds_reset_descriptor( PADAPTER Adapter );

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@ -86,7 +86,7 @@ typedef struct _MDS
{
// For Tx usage
u8 TxOwner[ ((MAX_USB_TX_BUFFER_NUMBER + 3) & ~0x03) ];
PUCHAR pTxBuffer;
u8 *pTxBuffer;
u16 TxBufferSize[ ((MAX_USB_TX_BUFFER_NUMBER + 1) & ~0x01) ];
u8 TxDesFrom[ ((MAX_USB_TX_DESCRIPTOR + 3) & ~0x03) ];//931130.4.u // 1: MLME 2: NDIS control 3: NDIS data
u8 TxCountInBuffer[ ((MAX_USB_TX_DESCRIPTOR + 3) & ~0x03) ]; // 20060928
@ -103,7 +103,7 @@ typedef struct _MDS
u16 TxResult[ ((MAX_USB_TX_DESCRIPTOR + 1) & ~0x01) ];//Collect the sending result of Mpdu
u8 MicRedundant[8]; // For tmp use
PUCHAR MicWriteAddress[2]; //The start address to fill the Mic, use 2 point due to Mic maybe fragment
u8 *MicWriteAddress[2]; //The start address to fill the Mic, use 2 point due to Mic maybe fragment
u16 MicWriteSize[2]; //931130.4.x
@ -144,7 +144,7 @@ typedef struct _MDS
typedef struct _RxBuffer
{
PUCHAR pBufferAddress; // Pointer the received data buffer.
u8 * pBufferAddress; // Pointer the received data buffer.
u16 BufferSize;
u8 RESERVED;
u8 BufferIndex;// Only 1 byte
@ -176,7 +176,7 @@ typedef struct _RXLAYER1
/////////////////////////////////////////////////////////////////////////////////////////////
// For brand-new Rx system
u8 ReservedBuffer[ 2400 ];//If Buffer ID is reserved one, it must copy the data into this area
PUCHAR ReservedBufferPoint;// Point to the next availabe address of reserved buffer
u8 *ReservedBufferPoint;// Point to the next availabe address of reserved buffer
}RXLAYER1, * PRXLAYER1;

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@ -125,7 +125,7 @@
typedef struct _MLME_FRAME
{
//NDIS_PACKET MLME_Packet;
PCHAR pMMPDU;
s8 * pMMPDU;
u16 len;
u8 DataType;
u8 IsInUsed;

View File

@ -113,13 +113,13 @@ MLME_GetNextPacket(PADAPTER Adapter, PDESCRIPTOR pDes)
pDes->Type = Adapter->sMlmeFrame.DataType;
}
void MLMEfreeMMPDUBuffer(PWB32_ADAPTER Adapter, PCHAR pData)
void MLMEfreeMMPDUBuffer(PWB32_ADAPTER Adapter, s8 *pData)
{
int i;
// Reclaim the data buffer
for (i = 0; i < MAX_NUM_TX_MMPDU; i++) {
if (pData == (PCHAR)&(Adapter->sMlmeFrame.TxMMPDU[i]))
if (pData == (s8 *)&(Adapter->sMlmeFrame.TxMMPDU[i]))
break;
}
if (Adapter->sMlmeFrame.TxMMPDUInUse[i])

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@ -20,7 +20,7 @@ MLMEGetMMPDUBuffer(
PWB32_ADAPTER Adapter
);
void MLMEfreeMMPDUBuffer( PWB32_ADAPTER Adapter, PCHAR pData);
void MLMEfreeMMPDUBuffer( PWB32_ADAPTER Adapter, s8 * pData);
void MLME_GetNextPacket( PADAPTER Adapter, PDESCRIPTOR pDes );
u8 MLMESendFrame( PWB32_ADAPTER Adapter,
@ -42,7 +42,7 @@ MLMERcvFrame(
void
MLMEReturnPacket(
PWB32_ADAPTER Adapter,
PUCHAR pRxBufer
u8 * pRxBufer
);
#ifdef _IBSS_BEACON_SEQ_STICK_
s8 SendBCNullData(PWB32_ADAPTER Adapter, u16 wIdx);

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@ -922,16 +922,16 @@ Uxx_ReadEthernetAddress( phw_data_t pHwData )
// Only unplug and plug again can make hardware read EEPROM again. 20060727
Wb35Reg_WriteSync( pHwData, 0x03b4, 0x08000000 ); // Start EEPROM access + Read + address(0x0d)
Wb35Reg_ReadSync( pHwData, 0x03b4, &ltmp );
*(PUSHORT)pHwData->PermanentMacAddress = cpu_to_le16((u16)ltmp); //20060926 anson's endian
*(u16 *)pHwData->PermanentMacAddress = cpu_to_le16((u16)ltmp); //20060926 anson's endian
Wb35Reg_WriteSync( pHwData, 0x03b4, 0x08010000 ); // Start EEPROM access + Read + address(0x0d)
Wb35Reg_ReadSync( pHwData, 0x03b4, &ltmp );
*(PUSHORT)(pHwData->PermanentMacAddress + 2) = cpu_to_le16((u16)ltmp); //20060926 anson's endian
*(u16 *)(pHwData->PermanentMacAddress + 2) = cpu_to_le16((u16)ltmp); //20060926 anson's endian
Wb35Reg_WriteSync( pHwData, 0x03b4, 0x08020000 ); // Start EEPROM access + Read + address(0x0d)
Wb35Reg_ReadSync( pHwData, 0x03b4, &ltmp );
*(PUSHORT)(pHwData->PermanentMacAddress + 4) = cpu_to_le16((u16)ltmp); //20060926 anson's endian
*(PUSHORT)(pHwData->PermanentMacAddress + 6) = 0;
Wb35Reg_WriteSync( pHwData, 0x03e8, cpu_to_le32(*(PULONG)pHwData->PermanentMacAddress) ); //20060926 anson's endian
Wb35Reg_WriteSync( pHwData, 0x03ec, cpu_to_le32(*(PULONG)(pHwData->PermanentMacAddress+4)) ); //20060926 anson's endian
*(u16 *)(pHwData->PermanentMacAddress + 4) = cpu_to_le16((u16)ltmp); //20060926 anson's endian
*(u16 *)(pHwData->PermanentMacAddress + 6) = 0;
Wb35Reg_WriteSync( pHwData, 0x03e8, cpu_to_le32(*(u32 *)pHwData->PermanentMacAddress) ); //20060926 anson's endian
Wb35Reg_WriteSync( pHwData, 0x03ec, cpu_to_le32(*(u32 *)(pHwData->PermanentMacAddress+4)) ); //20060926 anson's endian
}
@ -1038,7 +1038,7 @@ void
RFSynthesizer_initial(phw_data_t pHwData)
{
u32 altmp[32];
PULONG pltmp = altmp;
u32 * pltmp = altmp;
u32 ltmp;
u8 number=0x00; // The number of register vale
u8 i;
@ -2358,11 +2358,11 @@ void Mxx_initial( phw_data_t pHwData )
pltmp[2] = pWb35Reg->M2C_MacControl;
// M30 BSSID
pltmp[3] = *(PULONG)pHwData->bssid;
pltmp[3] = *(u32 *)pHwData->bssid;
// M34
pHwData->AID = DEFAULT_AID;
tmp = *(PUSHORT)(pHwData->bssid+4);
tmp = *(u16 *)(pHwData->bssid+4);
tmp |= DEFAULT_AID << 16;
pltmp[4] = tmp;
@ -2428,7 +2428,7 @@ void GetTxVgaFromEEPROM( phw_data_t pHwData )
{
u32 i, j, ltmp;
u16 Value[MAX_TXVGA_EEPROM];
PUCHAR pctmp;
u8 *pctmp;
u8 ctmp=0;
// Get the entire TxVga setting in EEPROM
@ -2441,7 +2441,7 @@ void GetTxVgaFromEEPROM( phw_data_t pHwData )
}
// Adjust the filed which fills with reserved value.
pctmp = (PUCHAR)Value;
pctmp = (u8 *)Value;
for( i=0; i<(MAX_TXVGA_EEPROM*2); i++ )
{
if( pctmp[i] != 0xff )
@ -2480,7 +2480,7 @@ void GetTxVgaFromEEPROM( phw_data_t pHwData )
// This function will use default TxVgaSettingInEEPROM data to calculate new TxVga.
void EEPROMTxVgaAdjust( phw_data_t pHwData ) // 20060619.5 Add
{
PUCHAR pTxVga = pHwData->TxVgaSettingInEEPROM;
u8 * pTxVga = pHwData->TxVgaSettingInEEPROM;
s16 i, stmp;
//-- 2.4G -- 20060704.2 Request from Tiger

View File

@ -208,7 +208,7 @@ s8 sme_set_tx_antenna(void *pcore_data, u32 TxAntenna);
s8 sme_set_IBSS_chan(void *pcore_data, ChanInfo chan);
//20061108 WPS
s8 sme_set_IE_append(void *pcore_data, PUCHAR buffer, u16 buf_len);
s8 sme_set_IE_append(void *pcore_data, u8 *buffer, u16 buf_len);

View File

@ -1,13 +1,13 @@
#include "os_common.h"
void hal_get_ethernet_address( phw_data_t pHwData, PUCHAR current_address )
void hal_get_ethernet_address( phw_data_t pHwData, u8 *current_address )
{
if( pHwData->SurpriseRemove ) return;
memcpy( current_address, pHwData->CurrentMacAddress, ETH_LENGTH_OF_ADDRESS );
}
void hal_set_ethernet_address( phw_data_t pHwData, PUCHAR current_address )
void hal_set_ethernet_address( phw_data_t pHwData, u8 *current_address )
{
u32 ltmp[2];
@ -15,13 +15,13 @@ void hal_set_ethernet_address( phw_data_t pHwData, PUCHAR current_address )
memcpy( pHwData->CurrentMacAddress, current_address, ETH_LENGTH_OF_ADDRESS );
ltmp[0]= cpu_to_le32( *(PULONG)pHwData->CurrentMacAddress );
ltmp[1]= cpu_to_le32( *(PULONG)(pHwData->CurrentMacAddress + 4) ) & 0xffff;
ltmp[0]= cpu_to_le32( *(u32 *)pHwData->CurrentMacAddress );
ltmp[1]= cpu_to_le32( *(u32 *)(pHwData->CurrentMacAddress + 4) ) & 0xffff;
Wb35Reg_BurstWrite( pHwData, 0x03e8, ltmp, 2, AUTO_INCREMENT );
}
void hal_get_permanent_address( phw_data_t pHwData, PUCHAR pethernet_address )
void hal_get_permanent_address( phw_data_t pHwData, u8 *pethernet_address )
{
if( pHwData->SurpriseRemove ) return;
@ -89,7 +89,7 @@ void hal_halt(phw_data_t pHwData, void *ppa_data)
}
//---------------------------------------------------------------------------------------------------
void hal_set_rates(phw_data_t pHwData, PUCHAR pbss_rates,
void hal_set_rates(phw_data_t pHwData, u8 *pbss_rates,
u8 length, unsigned char basic_rate_set)
{
PWB35REG pWb35Reg = &pHwData->Wb35Reg;
@ -158,13 +158,13 @@ void hal_set_rates(phw_data_t pHwData, PUCHAR pbss_rates,
// Fill data into support rate until buffer full
//---20060926 add by anson's endian
for (i=0; i<4; i++)
*(PULONG)(SupportedRate+(i<<2)) = cpu_to_le32( *(PULONG)(SupportedRate+(i<<2)) );
*(u32 *)(SupportedRate+(i<<2)) = cpu_to_le32( *(u32 *)(SupportedRate+(i<<2)) );
//--- end 20060926 add by anson's endian
Wb35Reg_BurstWrite( pHwData,0x087c, (PULONG)SupportedRate, 4, AUTO_INCREMENT );
pWb35Reg->M7C_MacControl = ((PULONG)SupportedRate)[0];
pWb35Reg->M80_MacControl = ((PULONG)SupportedRate)[1];
pWb35Reg->M84_MacControl = ((PULONG)SupportedRate)[2];
pWb35Reg->M88_MacControl = ((PULONG)SupportedRate)[3];
Wb35Reg_BurstWrite( pHwData,0x087c, (u32 *)SupportedRate, 4, AUTO_INCREMENT );
pWb35Reg->M7C_MacControl = ((u32 *)SupportedRate)[0];
pWb35Reg->M80_MacControl = ((u32 *)SupportedRate)[1];
pWb35Reg->M84_MacControl = ((u32 *)SupportedRate)[2];
pWb35Reg->M88_MacControl = ((u32 *)SupportedRate)[3];
// Fill length
tmp = Count1<<28 | Count2<<24;
@ -206,7 +206,7 @@ void hal_set_current_channel_ex( phw_data_t pHwData, ChanInfo channel )
pWb35Reg->M28_MacControl &= ~0xff; // Clean channel information field
pWb35Reg->M28_MacControl |= channel.ChanNo;
Wb35Reg_WriteWithCallbackValue( pHwData, 0x0828, pWb35Reg->M28_MacControl,
(PCHAR)&channel, sizeof(ChanInfo));
(s8 *)&channel, sizeof(ChanInfo));
}
//---------------------------------------------------------------------------------------------------
void hal_set_current_channel( phw_data_t pHwData, ChanInfo channel )
@ -277,7 +277,7 @@ void hal_set_accept_beacon( phw_data_t pHwData, u8 enable )
Wb35Reg_Write( pHwData, 0x0800, pWb35Reg->M00_MacControl );
}
//---------------------------------------------------------------------------------------------------
void hal_set_multicast_address( phw_data_t pHwData, PUCHAR address, u8 number )
void hal_set_multicast_address( phw_data_t pHwData, u8 *address, u8 number )
{
PWB35REG pWb35Reg = &pHwData->Wb35Reg;
u8 Byte, Bit;
@ -297,7 +297,7 @@ void hal_set_multicast_address( phw_data_t pHwData, PUCHAR address, u8 number )
}
// Updating register
Wb35Reg_BurstWrite( pHwData, 0x0804, (PULONG)pWb35Reg->Multicast, 2, AUTO_INCREMENT );
Wb35Reg_BurstWrite( pHwData, 0x0804, (u32 *)pWb35Reg->Multicast, 2, AUTO_INCREMENT );
}
//---------------------------------------------------------------------------------------------------
u8 hal_get_accept_beacon( phw_data_t pHwData )
@ -806,7 +806,7 @@ u8 hal_get_hw_radio_off( phw_data_t pHwData )
}
}
unsigned char hal_get_dxx_reg( phw_data_t pHwData, u16 number, PULONG pValue )
unsigned char hal_get_dxx_reg( phw_data_t pHwData, u16 number, u32 * pValue )
{
if( number < 0x1000 )
number += 0x1000;

View File

@ -16,23 +16,23 @@
//====================================================================================
// Function declaration
//====================================================================================
void hal_remove_mapping_key( phw_data_t pHwData, PUCHAR pmac_addr );
void hal_remove_mapping_key( phw_data_t pHwData, u8 *pmac_addr );
void hal_remove_default_key( phw_data_t pHwData, u32 index );
unsigned char hal_set_mapping_key( phw_data_t Adapter, PUCHAR pmac_addr, u8 null_key, u8 wep_on, PUCHAR ptx_tsc, PUCHAR prx_tsc, u8 key_type, u8 key_len, PUCHAR pkey_data );
unsigned char hal_set_default_key( phw_data_t Adapter, u8 index, u8 null_key, u8 wep_on, PUCHAR ptx_tsc, PUCHAR prx_tsc, u8 key_type, u8 key_len, PUCHAR pkey_data );
unsigned char hal_set_mapping_key( phw_data_t Adapter, u8 *pmac_addr, u8 null_key, u8 wep_on, u8 *ptx_tsc, u8 *prx_tsc, u8 key_type, u8 key_len, u8 *pkey_data );
unsigned char hal_set_default_key( phw_data_t Adapter, u8 index, u8 null_key, u8 wep_on, u8 *ptx_tsc, u8 *prx_tsc, u8 key_type, u8 key_len, u8 *pkey_data );
void hal_clear_all_default_key( phw_data_t pHwData );
void hal_clear_all_group_key( phw_data_t pHwData );
void hal_clear_all_mapping_key( phw_data_t pHwData );
void hal_clear_all_key( phw_data_t pHwData );
void hal_get_ethernet_address( phw_data_t pHwData, PUCHAR current_address );
void hal_set_ethernet_address( phw_data_t pHwData, PUCHAR current_address );
void hal_get_permanent_address( phw_data_t pHwData, PUCHAR pethernet_address );
void hal_get_ethernet_address( phw_data_t pHwData, u8 *current_address );
void hal_set_ethernet_address( phw_data_t pHwData, u8 *current_address );
void hal_get_permanent_address( phw_data_t pHwData, u8 *pethernet_address );
unsigned char hal_init_hardware( phw_data_t pHwData, PADAPTER Adapter );
void hal_set_power_save_mode( phw_data_t pHwData, unsigned char power_save, unsigned char wakeup, unsigned char dtim );
void hal_get_power_save_mode( phw_data_t pHwData, PBOOLEAN pin_pwr_save );
void hal_get_power_save_mode( phw_data_t pHwData, u8 *pin_pwr_save );
void hal_set_slot_time( phw_data_t pHwData, u8 type );
#define hal_set_atim_window( _A, _ATM )
void hal_set_rates( phw_data_t pHwData, PUCHAR pbss_rates, u8 length, unsigned char basic_rate_set );
void hal_set_rates( phw_data_t pHwData, u8 *pbss_rates, u8 length, unsigned char basic_rate_set );
#define hal_set_basic_rates( _A, _R, _L ) hal_set_rates( _A, _R, _L, TRUE )
#define hal_set_op_rates( _A, _R, _L ) hal_set_rates( _A, _R, _L, FALSE )
void hal_start_bss( phw_data_t pHwData, u8 mac_op_mode );
@ -40,19 +40,19 @@ void hal_join_request( phw_data_t pHwData, u8 bss_type ); // 0:BSS STA 1:IBSS
void hal_stop_sync_bss( phw_data_t pHwData );
void hal_resume_sync_bss( phw_data_t pHwData);
void hal_set_aid( phw_data_t pHwData, u16 aid );
void hal_set_bssid( phw_data_t pHwData, PUCHAR pbssid );
void hal_get_bssid( phw_data_t pHwData, PUCHAR pbssid );
void hal_set_bssid( phw_data_t pHwData, u8 *pbssid );
void hal_get_bssid( phw_data_t pHwData, u8 *pbssid );
void hal_set_beacon_period( phw_data_t pHwData, u16 beacon_period );
void hal_set_listen_interval( phw_data_t pHwData, u16 listen_interval );
void hal_set_cap_info( phw_data_t pHwData, u16 capability_info );
void hal_set_ssid( phw_data_t pHwData, PUCHAR pssid, u8 ssid_len );
void hal_set_ssid( phw_data_t pHwData, u8 *pssid, u8 ssid_len );
void hal_set_current_channel( phw_data_t pHwData, ChanInfo channel );
void hal_set_current_channel_ex( phw_data_t pHwData, ChanInfo channel );
void hal_get_current_channel( phw_data_t pHwData, ChanInfo *channel );
void hal_set_accept_broadcast( phw_data_t pHwData, u8 enable );
void hal_set_accept_multicast( phw_data_t pHwData, u8 enable );
void hal_set_accept_beacon( phw_data_t pHwData, u8 enable );
void hal_set_multicast_address( phw_data_t pHwData, PUCHAR address, u8 number );
void hal_set_multicast_address( phw_data_t pHwData, u8 *address, u8 number );
u8 hal_get_accept_beacon( phw_data_t pHwData );
void hal_stop( phw_data_t pHwData );
void hal_halt( phw_data_t pHwData, void *ppa_data );
@ -97,7 +97,7 @@ void hal_surprise_remove( phw_data_t pHwData );
void hal_rate_change( phw_data_t pHwData ); // Notify the HAL rate is changing 20060613.1
unsigned char hal_get_dxx_reg( phw_data_t pHwData, u16 number, PULONG pValue );
unsigned char hal_get_dxx_reg( phw_data_t pHwData, u16 number, u32 * pValue );
unsigned char hal_set_dxx_reg( phw_data_t pHwData, u16 number, u32 value );
#define hal_get_time_count( _P ) (_P->time_count/10) // return 100ms count
#define hal_detect_error( _P ) (_P->WbUsb.DetectCount)
@ -116,7 +116,7 @@ unsigned char hal_idle( phw_data_t pHwData );
#define pa_stall_execution( _A ) //OS_SLEEP( 1 )
#define hw_get_cxx_reg( _A, _B, _C )
#define hw_set_cxx_reg( _A, _B, _C )
#define hw_get_dxx_reg( _A, _B, _C ) hal_get_dxx_reg( _A, _B, (PULONG)_C )
#define hw_get_dxx_reg( _A, _B, _C ) hal_get_dxx_reg( _A, _B, (u32 *)_C )
#define hw_set_dxx_reg( _A, _B, _C ) hal_set_dxx_reg( _A, _B, (u32)_C )

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@ -461,7 +461,7 @@ typedef struct _HW_DATA_T
//=====================================================================
// Definition for 802.11
//=====================================================================
PUCHAR bssid_pointer; // Used by hal_get_bssid for return value
u8 *bssid_pointer; // Used by hal_get_bssid for return value
u8 bssid[8];// Only 6 byte will be used. 8 byte is required for read buffer
u8 ssid[32];// maximum ssid length is 32 byte
@ -486,7 +486,7 @@ typedef struct _HW_DATA_T
u32 CurrentRadioSw; // 20060320.2 0:On 1:Off
u32 CurrentRadioHw; // 20060825 0:On 1:Off
PUCHAR power_save_point; // Used by hal_get_power_save_mode for return value
u8 *power_save_point; // Used by hal_get_power_save_mode for return value
u8 cwmin;
u8 desired_power_save;
u8 dtim;// Is running dtim

View File

@ -25,7 +25,7 @@ EncapAtomicInc(PADAPTER Adapter, void* pAtomic)
{
PWBLINUX pWbLinux = &Adapter->WbLinux;
u32 ltmp;
PULONG pltmp = (PULONG)pAtomic;
u32 * pltmp = (u32 *)pAtomic;
OS_SPIN_LOCK_ACQUIRED( &pWbLinux->AtomicSpinLock );
(*pltmp)++;
ltmp = (*pltmp);
@ -38,7 +38,7 @@ EncapAtomicDec(PADAPTER Adapter, void* pAtomic)
{
PWBLINUX pWbLinux = &Adapter->WbLinux;
u32 ltmp;
PULONG pltmp = (PULONG)pAtomic;
u32 * pltmp = (u32 *)pAtomic;
OS_SPIN_LOCK_ACQUIRED( &pWbLinux->AtomicSpinLock );
(*pltmp)--;
ltmp = (*pltmp);
@ -142,7 +142,8 @@ unsigned char
WbWLanInitialize(PADAPTER Adapter)
{
phw_data_t pHwData;
PUCHAR pMacAddr, pMacAddr2;
u8 *pMacAddr;
u8 *pMacAddr2;
u32 InitStep = 0;
u8 EEPROM_region;
u8 HwRadioOff;