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//============================================================================
// Copyright (c) 1996-2002 Winbond Electronic Corporation
//
// Module Name:
// Wb35Tx.c
//
// Abstract:
// Processing the Tx message and put into down layer
//
//============================================================================
#include <linux/usb.h>
#include <linux/gfp.h>
#include "wb35tx_f.h"
#include "mds_f.h"
#include "sysdef.h"
unsigned char
Wb35Tx_get_tx_buffer(struct hw_data * pHwData, u8 **pBuffer)
{
struct wb35_tx *pWb35Tx = &pHwData->Wb35Tx;
*pBuffer = pWb35Tx->TxBuffer[0];
return true;
}
static void Wb35Tx(struct wbsoft_priv *adapter);
static void Wb35Tx_complete(struct urb * pUrb)
{
struct wbsoft_priv *adapter = pUrb->context;
struct hw_data * pHwData = &adapter->sHwData;
struct wb35_tx *pWb35Tx = &pHwData->Wb35Tx;
struct wb35_mds *pMds = &adapter->Mds;
printk("wb35: tx complete\n");
// Variable setting
pWb35Tx->EP4vm_state = VM_COMPLETED;
pWb35Tx->EP4VM_status = pUrb->status; //Store the last result of Irp
pMds->TxOwner[ pWb35Tx->TxSendIndex ] = 0;// Set the owner. Free the owner bit always.
pWb35Tx->TxSendIndex++;
pWb35Tx->TxSendIndex %= MAX_USB_TX_BUFFER_NUMBER;
if (pHwData->SurpriseRemove || pHwData->HwStop) // Let WbWlanHalt to handle surprise remove
goto error;
if (pWb35Tx->tx_halt)
goto error;
// The URB is completed, check the result
if (pWb35Tx->EP4VM_status != 0) {
printk("URB submission failed\n");
pWb35Tx->EP4vm_state = VM_STOP;
goto error;
}
Mds_Tx(adapter);
Wb35Tx(adapter);
return;
error:
atomic_dec(&pWb35Tx->TxFireCounter);
pWb35Tx->EP4vm_state = VM_STOP;
}
static void Wb35Tx(struct wbsoft_priv *adapter)
{
struct hw_data * pHwData = &adapter->sHwData;
struct wb35_tx *pWb35Tx = &pHwData->Wb35Tx;
u8 *pTxBufferAddress;
struct wb35_mds *pMds = &adapter->Mds;
struct urb * pUrb = (struct urb *)pWb35Tx->Tx4Urb;
int retv;
u32 SendIndex;
if (pHwData->SurpriseRemove || pHwData->HwStop)
goto cleanup;
if (pWb35Tx->tx_halt)
goto cleanup;
// Ownership checking
SendIndex = pWb35Tx->TxSendIndex;
if (!pMds->TxOwner[SendIndex]) //No more data need to be sent, return immediately
goto cleanup;
pTxBufferAddress = pWb35Tx->TxBuffer[SendIndex];
//
// Issuing URB
//
usb_fill_bulk_urb(pUrb, pHwData->WbUsb.udev,
usb_sndbulkpipe(pHwData->WbUsb.udev, 4),
pTxBufferAddress, pMds->TxBufferSize[ SendIndex ],
Wb35Tx_complete, adapter);
pWb35Tx->EP4vm_state = VM_RUNNING;
retv = usb_submit_urb(pUrb, GFP_ATOMIC);
if (retv<0) {
printk("EP4 Tx Irp sending error\n");
goto cleanup;
}
// Check if driver needs issue Irp for EP2
pWb35Tx->TxFillCount += pMds->TxCountInBuffer[SendIndex];
if (pWb35Tx->TxFillCount > 12)
Wb35Tx_EP2VM_start(adapter);
pWb35Tx->ByteTransfer += pMds->TxBufferSize[SendIndex];
return;
cleanup:
pWb35Tx->EP4vm_state = VM_STOP;
atomic_dec(&pWb35Tx->TxFireCounter);
}
void Wb35Tx_start(struct wbsoft_priv *adapter)
{
struct hw_data * pHwData = &adapter->sHwData;
struct wb35_tx *pWb35Tx = &pHwData->Wb35Tx;
// Allow only one thread to run into function
if (atomic_inc_return(&pWb35Tx->TxFireCounter) == 1) {
pWb35Tx->EP4vm_state = VM_RUNNING;
Wb35Tx(adapter);
} else
atomic_dec(&pWb35Tx->TxFireCounter);
}
unsigned char Wb35Tx_initial(struct hw_data * pHwData)
{
struct wb35_tx *pWb35Tx = &pHwData->Wb35Tx;
pWb35Tx->Tx4Urb = usb_alloc_urb(0, GFP_ATOMIC);
if (!pWb35Tx->Tx4Urb)
return false;
pWb35Tx->Tx2Urb = usb_alloc_urb(0, GFP_ATOMIC);
if (!pWb35Tx->Tx2Urb)
{
usb_free_urb( pWb35Tx->Tx4Urb );
return false;
}
return true;
}
//======================================================
void Wb35Tx_stop(struct hw_data * pHwData)
{
struct wb35_tx *pWb35Tx = &pHwData->Wb35Tx;
// Trying to canceling the Trp of EP2
if (pWb35Tx->EP2vm_state == VM_RUNNING)
usb_unlink_urb( pWb35Tx->Tx2Urb ); // Only use unlink, let Wb35Tx_destrot to free them
#ifdef _PE_TX_DUMP_
printk("EP2 Tx stop\n");
#endif
// Trying to canceling the Irp of EP4
if (pWb35Tx->EP4vm_state == VM_RUNNING)
usb_unlink_urb( pWb35Tx->Tx4Urb ); // Only use unlink, let Wb35Tx_destrot to free them
#ifdef _PE_TX_DUMP_
printk("EP4 Tx stop\n");
#endif
}
//======================================================
void Wb35Tx_destroy(struct hw_data * pHwData)
{
struct wb35_tx *pWb35Tx = &pHwData->Wb35Tx;
// Wait for VM stop
do {
msleep(10); // Delay for waiting function enter 940623.1.a
} while( (pWb35Tx->EP2vm_state != VM_STOP) && (pWb35Tx->EP4vm_state != VM_STOP) );
msleep(10); // Delay for waiting function enter 940623.1.b
if (pWb35Tx->Tx4Urb)
usb_free_urb( pWb35Tx->Tx4Urb );
if (pWb35Tx->Tx2Urb)
usb_free_urb( pWb35Tx->Tx2Urb );
#ifdef _PE_TX_DUMP_
printk("Wb35Tx_destroy OK\n");
#endif
}
void Wb35Tx_CurrentTime(struct wbsoft_priv *adapter, u32 TimeCount)
{
struct hw_data * pHwData = &adapter->sHwData;
struct wb35_tx *pWb35Tx = &pHwData->Wb35Tx;
unsigned char Trigger = false;
if (pWb35Tx->TxTimer > TimeCount)
Trigger = true;
else if (TimeCount > (pWb35Tx->TxTimer+500))
Trigger = true;
if (Trigger) {
pWb35Tx->TxTimer = TimeCount;
Wb35Tx_EP2VM_start(adapter);
}
}
static void Wb35Tx_EP2VM(struct wbsoft_priv *adapter);
static void Wb35Tx_EP2VM_complete(struct urb * pUrb)
{
struct wbsoft_priv *adapter = pUrb->context;
struct hw_data * pHwData = &adapter->sHwData;
struct T02_descriptor T02, TSTATUS;
struct wb35_tx *pWb35Tx = &pHwData->Wb35Tx;
u32 * pltmp = (u32 *)pWb35Tx->EP2_buf;
u32 i;
u16 InterruptInLength;
// Variable setting
pWb35Tx->EP2vm_state = VM_COMPLETED;
pWb35Tx->EP2VM_status = pUrb->status;
// For Linux 2.4. Interrupt will always trigger
if (pHwData->SurpriseRemove || pHwData->HwStop) // Let WbWlanHalt to handle surprise remove
goto error;
if (pWb35Tx->tx_halt)
goto error;
//The Urb is completed, check the result
if (pWb35Tx->EP2VM_status != 0) {
printk("EP2 IoCompleteRoutine return error\n");
pWb35Tx->EP2vm_state= VM_STOP;
goto error;
}
// Update the Tx result
InterruptInLength = pUrb->actual_length;
// Modify for minimum memory access and DWORD alignment.
T02.value = cpu_to_le32(pltmp[0]) >> 8; // [31:8] -> [24:0]
InterruptInLength -= 1;// 20051221.1.c Modify the follow for more stable
InterruptInLength >>= 2; // InterruptInLength/4
for (i = 1; i <= InterruptInLength; i++) {
T02.value |= ((cpu_to_le32(pltmp[i]) & 0xff) << 24);
TSTATUS.value = T02.value; //20061009 anson's endian
Mds_SendComplete( adapter, &TSTATUS );
T02.value = cpu_to_le32(pltmp[i]) >> 8;
}
return;
error:
atomic_dec(&pWb35Tx->TxResultCount);
pWb35Tx->EP2vm_state = VM_STOP;
}
static void Wb35Tx_EP2VM(struct wbsoft_priv *adapter)
{
struct hw_data * pHwData = &adapter->sHwData;
struct wb35_tx *pWb35Tx = &pHwData->Wb35Tx;
struct urb * pUrb = (struct urb *)pWb35Tx->Tx2Urb;
u32 * pltmp = (u32 *)pWb35Tx->EP2_buf;
int retv;
if (pHwData->SurpriseRemove || pHwData->HwStop)
goto error;
if (pWb35Tx->tx_halt)
goto error;
//
// Issuing URB
//
usb_fill_int_urb( pUrb, pHwData->WbUsb.udev, usb_rcvintpipe(pHwData->WbUsb.udev,2),
pltmp, MAX_INTERRUPT_LENGTH, Wb35Tx_EP2VM_complete, adapter, 32);
pWb35Tx->EP2vm_state = VM_RUNNING;
retv = usb_submit_urb(pUrb, GFP_ATOMIC);
if (retv < 0) {
#ifdef _PE_TX_DUMP_
printk("EP2 Tx Irp sending error\n");
#endif
goto error;
}
return;
error:
pWb35Tx->EP2vm_state = VM_STOP;
atomic_dec(&pWb35Tx->TxResultCount);
}
void Wb35Tx_EP2VM_start(struct wbsoft_priv *adapter)
{
struct hw_data * pHwData = &adapter->sHwData;
struct wb35_tx *pWb35Tx = &pHwData->Wb35Tx;
// Allow only one thread to run into function
if (atomic_inc_return(&pWb35Tx->TxResultCount) == 1) {
pWb35Tx->EP2vm_state = VM_RUNNING;
Wb35Tx_EP2VM(adapter);
}
else
atomic_dec(&pWb35Tx->TxResultCount);
}