Commit c139a814 authored by Pekka Enberg's avatar Pekka Enberg Committed by Greg Kroah-Hartman

Staging: w35und: make functions local to wb35rx.c static

While there are no functional changes, the diff is quite large because we need
to shuffle code around to avoid forward declarations.
Acked-by: default avatarPavel Machek <pavel@suse.cz>
Signed-off-by: default avatarPekka Enberg <penberg@cs.helsinki.fi>
Signed-off-by: default avatarGreg Kroah-Hartman <gregkh@suse.de>
parent a22517fe
......@@ -14,85 +14,150 @@
#include "sysdef.h"
#include "wb35rx_f.h"
void Wb35Rx_start(struct ieee80211_hw *hw)
static void packet_came(struct ieee80211_hw *hw, char *pRxBufferAddress, int PacketSize)
{
struct wbsoft_priv *priv = hw->priv;
phw_data_t pHwData = &priv->sHwData;
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
struct sk_buff *skb;
struct ieee80211_rx_status rx_status = {0};
// Allow only one thread to run into the Wb35Rx() function
if (atomic_inc_return(&pWb35Rx->RxFireCounter) == 1) {
pWb35Rx->EP3vm_state = VM_RUNNING;
Wb35Rx(hw);
} else
atomic_dec(&pWb35Rx->RxFireCounter);
if (!priv->enabled)
return;
skb = dev_alloc_skb(PacketSize);
if (!skb) {
printk("Not enough memory for packet, FIXME\n");
return;
}
memcpy(skb_put(skb, PacketSize),
pRxBufferAddress,
PacketSize);
/*
rx_status.rate = 10;
rx_status.channel = 1;
rx_status.freq = 12345;
rx_status.phymode = MODE_IEEE80211B;
*/
ieee80211_rx_irqsafe(hw, skb, &rx_status);
}
// This function cannot reentrain
void Wb35Rx(struct ieee80211_hw *hw)
static void Wb35Rx_adjust(PDESCRIPTOR pRxDes)
{
u32 * pRxBufferAddress;
u32 DecryptionMethod;
u32 i;
u16 BufferSize;
DecryptionMethod = pRxDes->R01.R01_decryption_method;
pRxBufferAddress = pRxDes->buffer_address[0];
BufferSize = pRxDes->buffer_size[0];
// Adjust the last part of data. Only data left
BufferSize -= 4; // For CRC-32
if (DecryptionMethod)
BufferSize -= 4;
if (DecryptionMethod == 3) // For CCMP
BufferSize -= 4;
// Adjust the IV field which after 802.11 header and ICV field.
if (DecryptionMethod == 1) // For WEP
{
for( i=6; i>0; i-- )
pRxBufferAddress[i] = pRxBufferAddress[i-1];
pRxDes->buffer_address[0] = pRxBufferAddress + 1;
BufferSize -= 4; // 4 byte for IV
}
else if( DecryptionMethod ) // For TKIP and CCMP
{
for (i=7; i>1; i--)
pRxBufferAddress[i] = pRxBufferAddress[i-2];
pRxDes->buffer_address[0] = pRxBufferAddress + 2;//Update the descriptor, shift 8 byte
BufferSize -= 8; // 8 byte for IV + ICV
}
pRxDes->buffer_size[0] = BufferSize;
}
static u16 Wb35Rx_indicate(struct ieee80211_hw *hw)
{
struct wbsoft_priv *priv = hw->priv;
phw_data_t pHwData = &priv->sHwData;
DESCRIPTOR RxDes;
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
u8 * pRxBufferAddress;
struct urb *urb = pWb35Rx->RxUrb;
int retv;
u32 RxBufferId;
u8 * pRxBufferAddress;
u16 PacketSize;
u16 stmp, BufferSize, stmp2 = 0;
u32 RxBufferId;
//
// Issuing URB
//
if (pHwData->SurpriseRemove || pHwData->HwStop)
goto error;
// Only one thread be allowed to run into the following
do {
RxBufferId = pWb35Rx->RxProcessIndex;
if (pWb35Rx->RxOwner[ RxBufferId ]) //Owner by VM
break;
if (pWb35Rx->rx_halt)
goto error;
pWb35Rx->RxProcessIndex++;
pWb35Rx->RxProcessIndex %= MAX_USB_RX_BUFFER_NUMBER;
// Get RxBuffer's ID
RxBufferId = pWb35Rx->RxBufferId;
if (!pWb35Rx->RxOwner[RxBufferId]) {
// It's impossible to run here.
#ifdef _PE_RX_DUMP_
WBDEBUG(("Rx driver fifo unavailable\n"));
#endif
goto error;
}
pRxBufferAddress = pWb35Rx->pDRx;
BufferSize = pWb35Rx->RxBufferSize[ RxBufferId ];
// Update buffer point, then start to bulkin the data from USB
pWb35Rx->RxBufferId++;
pWb35Rx->RxBufferId %= MAX_USB_RX_BUFFER_NUMBER;
// Parse the bulkin buffer
while (BufferSize >= 4) {
if ((cpu_to_le32(*(u32 *)pRxBufferAddress) & 0x0fffffff) == RX_END_TAG) //Is ending? 921002.9.a
break;
pWb35Rx->CurrentRxBufferId = RxBufferId;
// Get the R00 R01 first
RxDes.R00.value = le32_to_cpu(*(u32 *)pRxBufferAddress);
PacketSize = (u16)RxDes.R00.R00_receive_byte_count;
RxDes.R01.value = le32_to_cpu(*((u32 *)(pRxBufferAddress+4)));
// For new DMA 4k
if ((PacketSize & 0x03) > 0)
PacketSize -= 4;
pWb35Rx->pDRx = kzalloc(MAX_USB_RX_BUFFER, GFP_ATOMIC);
if (!pWb35Rx->pDRx) {
printk("w35und: Rx memory alloc failed\n");
goto error;
}
pRxBufferAddress = pWb35Rx->pDRx;
// Basic check for Rx length. Is length valid?
if (PacketSize > MAX_PACKET_SIZE) {
#ifdef _PE_RX_DUMP_
WBDEBUG(("Serious ERROR : Rx data size too long, size =%d\n", PacketSize));
#endif
usb_fill_bulk_urb(urb, pHwData->WbUsb.udev,
usb_rcvbulkpipe(pHwData->WbUsb.udev, 3),
pRxBufferAddress, MAX_USB_RX_BUFFER,
Wb35Rx_Complete, hw);
pWb35Rx->EP3vm_state = VM_STOP;
pWb35Rx->Ep3ErrorCount2++;
break;
}
pWb35Rx->EP3vm_state = VM_RUNNING;
// Start to process Rx buffer
// RxDes.Descriptor_ID = RxBufferId; // Due to synchronous indicate, the field doesn't necessary to use.
BufferSize -= 8; //subtract 8 byte for 35's USB header length
pRxBufferAddress += 8;
retv = usb_submit_urb(urb, GFP_ATOMIC);
RxDes.buffer_address[0] = pRxBufferAddress;
RxDes.buffer_size[0] = PacketSize;
RxDes.buffer_number = 1;
RxDes.buffer_start_index = 0;
RxDes.buffer_total_size = RxDes.buffer_size[0];
Wb35Rx_adjust(&RxDes);
if (retv != 0) {
printk("Rx URB sending error\n");
goto error;
}
return;
packet_came(hw, pRxBufferAddress, PacketSize);
error:
// VM stop
pWb35Rx->EP3vm_state = VM_STOP;
atomic_dec(&pWb35Rx->RxFireCounter);
// Move RxBuffer point to the next
stmp = PacketSize + 3;
stmp &= ~0x03; // 4n alignment
pRxBufferAddress += stmp;
BufferSize -= stmp;
stmp2 += stmp;
}
// Reclaim resource
pWb35Rx->RxOwner[ RxBufferId ] = 1;
} while (true);
return stmp2;
}
void Wb35Rx_Complete(struct urb *urb)
static void Wb35Rx(struct ieee80211_hw *hw);
static void Wb35Rx_Complete(struct urb *urb)
{
struct ieee80211_hw *hw = urb->context;
struct wbsoft_priv *priv = hw->priv;
......@@ -170,49 +235,86 @@ void Wb35Rx_Complete(struct urb *urb)
pWb35Rx->EP3vm_state = VM_STOP;
}
//=====================================================================================
unsigned char Wb35Rx_initial(phw_data_t pHwData)
// This function cannot reentrain
static void Wb35Rx(struct ieee80211_hw *hw)
{
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
// Initial the Buffer Queue
Wb35Rx_reset_descriptor( pHwData );
struct wbsoft_priv *priv = hw->priv;
phw_data_t pHwData = &priv->sHwData;
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
u8 * pRxBufferAddress;
struct urb *urb = pWb35Rx->RxUrb;
int retv;
u32 RxBufferId;
pWb35Rx->RxUrb = usb_alloc_urb(0, GFP_ATOMIC);
return (!!pWb35Rx->RxUrb);
}
//
// Issuing URB
//
if (pHwData->SurpriseRemove || pHwData->HwStop)
goto error;
void Wb35Rx_stop(phw_data_t pHwData)
{
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
if (pWb35Rx->rx_halt)
goto error;
// Canceling the Irp if already sends it out.
if (pWb35Rx->EP3vm_state == VM_RUNNING) {
usb_unlink_urb( pWb35Rx->RxUrb ); // Only use unlink, let Wb35Rx_destroy to free them
// Get RxBuffer's ID
RxBufferId = pWb35Rx->RxBufferId;
if (!pWb35Rx->RxOwner[RxBufferId]) {
// It's impossible to run here.
#ifdef _PE_RX_DUMP_
WBDEBUG(("EP3 Rx stop\n"));
WBDEBUG(("Rx driver fifo unavailable\n"));
#endif
goto error;
}
// Update buffer point, then start to bulkin the data from USB
pWb35Rx->RxBufferId++;
pWb35Rx->RxBufferId %= MAX_USB_RX_BUFFER_NUMBER;
pWb35Rx->CurrentRxBufferId = RxBufferId;
pWb35Rx->pDRx = kzalloc(MAX_USB_RX_BUFFER, GFP_ATOMIC);
if (!pWb35Rx->pDRx) {
printk("w35und: Rx memory alloc failed\n");
goto error;
}
pRxBufferAddress = pWb35Rx->pDRx;
usb_fill_bulk_urb(urb, pHwData->WbUsb.udev,
usb_rcvbulkpipe(pHwData->WbUsb.udev, 3),
pRxBufferAddress, MAX_USB_RX_BUFFER,
Wb35Rx_Complete, hw);
pWb35Rx->EP3vm_state = VM_RUNNING;
retv = usb_submit_urb(urb, GFP_ATOMIC);
if (retv != 0) {
printk("Rx URB sending error\n");
goto error;
}
return;
error:
// VM stop
pWb35Rx->EP3vm_state = VM_STOP;
atomic_dec(&pWb35Rx->RxFireCounter);
}
// Needs process context
void Wb35Rx_destroy(phw_data_t pHwData)
void Wb35Rx_start(struct ieee80211_hw *hw)
{
struct wbsoft_priv *priv = hw->priv;
phw_data_t pHwData = &priv->sHwData;
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
do {
msleep(10); // Delay for waiting function enter 940623.1.a
} while (pWb35Rx->EP3vm_state != VM_STOP);
msleep(10); // Delay for waiting function exit 940623.1.b
if (pWb35Rx->RxUrb)
usb_free_urb( pWb35Rx->RxUrb );
#ifdef _PE_RX_DUMP_
WBDEBUG(("Wb35Rx_destroy OK\n"));
#endif
// Allow only one thread to run into the Wb35Rx() function
if (atomic_inc_return(&pWb35Rx->RxFireCounter) == 1) {
pWb35Rx->EP3vm_state = VM_RUNNING;
Wb35Rx(hw);
} else
atomic_dec(&pWb35Rx->RxFireCounter);
}
void Wb35Rx_reset_descriptor( phw_data_t pHwData )
//=====================================================================================
static void Wb35Rx_reset_descriptor( phw_data_t pHwData )
{
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
u32 i;
......@@ -228,145 +330,44 @@ void Wb35Rx_reset_descriptor( phw_data_t pHwData )
pWb35Rx->RxOwner[i] = 1;
}
void Wb35Rx_adjust(PDESCRIPTOR pRxDes)
unsigned char Wb35Rx_initial(phw_data_t pHwData)
{
u32 * pRxBufferAddress;
u32 DecryptionMethod;
u32 i;
u16 BufferSize;
DecryptionMethod = pRxDes->R01.R01_decryption_method;
pRxBufferAddress = pRxDes->buffer_address[0];
BufferSize = pRxDes->buffer_size[0];
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
// Adjust the last part of data. Only data left
BufferSize -= 4; // For CRC-32
if (DecryptionMethod)
BufferSize -= 4;
if (DecryptionMethod == 3) // For CCMP
BufferSize -= 4;
// Initial the Buffer Queue
Wb35Rx_reset_descriptor( pHwData );
// Adjust the IV field which after 802.11 header and ICV field.
if (DecryptionMethod == 1) // For WEP
{
for( i=6; i>0; i-- )
pRxBufferAddress[i] = pRxBufferAddress[i-1];
pRxDes->buffer_address[0] = pRxBufferAddress + 1;
BufferSize -= 4; // 4 byte for IV
}
else if( DecryptionMethod ) // For TKIP and CCMP
{
for (i=7; i>1; i--)
pRxBufferAddress[i] = pRxBufferAddress[i-2];
pRxDes->buffer_address[0] = pRxBufferAddress + 2;//Update the descriptor, shift 8 byte
BufferSize -= 8; // 8 byte for IV + ICV
}
pRxDes->buffer_size[0] = BufferSize;
pWb35Rx->RxUrb = usb_alloc_urb(0, GFP_ATOMIC);
return (!!pWb35Rx->RxUrb);
}
static void packet_came(struct ieee80211_hw *hw, char *pRxBufferAddress, int PacketSize)
void Wb35Rx_stop(phw_data_t pHwData)
{
struct wbsoft_priv *priv = hw->priv;
struct sk_buff *skb;
struct ieee80211_rx_status rx_status = {0};
if (!priv->enabled)
return;
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
skb = dev_alloc_skb(PacketSize);
if (!skb) {
printk("Not enough memory for packet, FIXME\n");
return;
// Canceling the Irp if already sends it out.
if (pWb35Rx->EP3vm_state == VM_RUNNING) {
usb_unlink_urb( pWb35Rx->RxUrb ); // Only use unlink, let Wb35Rx_destroy to free them
#ifdef _PE_RX_DUMP_
WBDEBUG(("EP3 Rx stop\n"));
#endif
}
memcpy(skb_put(skb, PacketSize),
pRxBufferAddress,
PacketSize);
/*
rx_status.rate = 10;
rx_status.channel = 1;
rx_status.freq = 12345;
rx_status.phymode = MODE_IEEE80211B;
*/
ieee80211_rx_irqsafe(hw, skb, &rx_status);
}
u16 Wb35Rx_indicate(struct ieee80211_hw *hw)
// Needs process context
void Wb35Rx_destroy(phw_data_t pHwData)
{
struct wbsoft_priv *priv = hw->priv;
phw_data_t pHwData = &priv->sHwData;
DESCRIPTOR RxDes;
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
u8 * pRxBufferAddress;
u16 PacketSize;
u16 stmp, BufferSize, stmp2 = 0;
u32 RxBufferId;
PWB35RX pWb35Rx = &pHwData->Wb35Rx;
// Only one thread be allowed to run into the following
do {
RxBufferId = pWb35Rx->RxProcessIndex;
if (pWb35Rx->RxOwner[ RxBufferId ]) //Owner by VM
break;
pWb35Rx->RxProcessIndex++;
pWb35Rx->RxProcessIndex %= MAX_USB_RX_BUFFER_NUMBER;
pRxBufferAddress = pWb35Rx->pDRx;
BufferSize = pWb35Rx->RxBufferSize[ RxBufferId ];
// Parse the bulkin buffer
while (BufferSize >= 4) {
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(*(u32 *)pRxBufferAddress);
PacketSize = (u16)RxDes.R00.R00_receive_byte_count;
RxDes.R01.value = le32_to_cpu(*((u32 *)(pRxBufferAddress+4)));
// For new DMA 4k
if ((PacketSize & 0x03) > 0)
PacketSize -= 4;
// Basic check for Rx length. Is length valid?
if (PacketSize > MAX_PACKET_SIZE) {
#ifdef _PE_RX_DUMP_
WBDEBUG(("Serious ERROR : Rx data size too long, size =%d\n", PacketSize));
#endif
pWb35Rx->EP3vm_state = VM_STOP;
pWb35Rx->Ep3ErrorCount2++;
break;
}
// Start to process Rx buffer
// RxDes.Descriptor_ID = RxBufferId; // Due to synchronous indicate, the field doesn't necessary to use.
BufferSize -= 8; //subtract 8 byte for 35's USB header length
pRxBufferAddress += 8;
RxDes.buffer_address[0] = pRxBufferAddress;
RxDes.buffer_size[0] = PacketSize;
RxDes.buffer_number = 1;
RxDes.buffer_start_index = 0;
RxDes.buffer_total_size = RxDes.buffer_size[0];
Wb35Rx_adjust(&RxDes);
packet_came(hw, pRxBufferAddress, PacketSize);
// Move RxBuffer point to the next
stmp = PacketSize + 3;
stmp &= ~0x03; // 4n alignment
pRxBufferAddress += stmp;
BufferSize -= stmp;
stmp2 += stmp;
}
// Reclaim resource
pWb35Rx->RxOwner[ RxBufferId ] = 1;
} while (true);
msleep(10); // Delay for waiting function enter 940623.1.a
} while (pWb35Rx->EP3vm_state != VM_STOP);
msleep(10); // Delay for waiting function exit 940623.1.b
return stmp2;
if (pWb35Rx->RxUrb)
usb_free_urb( pWb35Rx->RxUrb );
#ifdef _PE_RX_DUMP_
WBDEBUG(("Wb35Rx_destroy OK\n"));
#endif
}
......@@ -7,15 +7,9 @@
//====================================
// Interface function declare
//====================================
void Wb35Rx_reset_descriptor( phw_data_t pHwData );
unsigned char Wb35Rx_initial( phw_data_t pHwData );
void Wb35Rx_destroy( phw_data_t pHwData );
void Wb35Rx_stop( phw_data_t pHwData );
u16 Wb35Rx_indicate(struct ieee80211_hw *hw);
void Wb35Rx_adjust( PDESCRIPTOR pRxDes );
void Wb35Rx_start(struct ieee80211_hw *hw);
void Wb35Rx(struct ieee80211_hw *hw);
void Wb35Rx_Complete(struct urb *urb);
#endif
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