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|
/*
*************************************************************************
* Ralink Tech Inc.
* 5F., No.36, Taiyuan St., Jhubei City,
* Hsinchu County 302,
* Taiwan, R.O.C.
*
* (c) Copyright 2002-2007, Ralink Technology, Inc.
*
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program; if not, write to the *
* Free Software Foundation, Inc., *
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
* *
*************************************************************************
*/
#ifndef __RT2870_H__
#define __RT2870_H__
//usb header files
#include <linux/usb.h>
/* rtmp_def.h */
//
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,5,0)
#define BULKAGGRE_ZISE 100
#define RT28XX_DRVDATA_SET(_a) usb_set_intfdata(_a, pAd);
#define RT28XX_PUT_DEVICE usb_put_dev
#define RTUSB_ALLOC_URB(iso) usb_alloc_urb(iso, GFP_ATOMIC)
#define RTUSB_SUBMIT_URB(pUrb) usb_submit_urb(pUrb, GFP_ATOMIC)
#define RTUSB_URB_ALLOC_BUFFER(pUsb_Dev, BufSize, pDma_addr) usb_buffer_alloc(pUsb_Dev, BufSize, GFP_ATOMIC, pDma_addr)
#define RTUSB_URB_FREE_BUFFER(pUsb_Dev, BufSize, pTransferBuf, Dma_addr) usb_buffer_free(pUsb_Dev, BufSize, pTransferBuf, Dma_addr)
#else
#define BULKAGGRE_ZISE 60
#define RT28XX_DRVDATA_SET(_a)
#define RT28XX_PUT_DEVICE(dev_p)
#define RTUSB_ALLOC_URB(iso) usb_alloc_urb(iso)
#define RTUSB_SUBMIT_URB(pUrb) usb_submit_urb(pUrb)
#define RTUSB_URB_ALLOC_BUFFER(pUsb_Dev, BufSize, pDma_addr) kmalloc(BufSize, GFP_ATOMIC)
#define RTUSB_URB_FREE_BUFFER(pUsb_Dev, BufSize, pTransferBuf, Dma_addr) kfree(pTransferBuf)
#endif
#define RXBULKAGGRE_ZISE 12
#define MAX_TXBULK_LIMIT (LOCAL_TXBUF_SIZE*(BULKAGGRE_ZISE-1))
#define MAX_TXBULK_SIZE (LOCAL_TXBUF_SIZE*BULKAGGRE_ZISE)
#define MAX_RXBULK_SIZE (LOCAL_TXBUF_SIZE*RXBULKAGGRE_ZISE)
#define MAX_MLME_HANDLER_MEMORY 20
#define RETRY_LIMIT 10
#define BUFFER_SIZE 2400 //2048
#define TX_RING 0xa
#define PRIO_RING 0xc
// Flags for Bulkflags control for bulk out data
//
#define fRTUSB_BULK_OUT_DATA_NULL 0x00000001
#define fRTUSB_BULK_OUT_RTS 0x00000002
#define fRTUSB_BULK_OUT_MLME 0x00000004
#define fRTUSB_BULK_OUT_DATA_NORMAL 0x00010000
#define fRTUSB_BULK_OUT_DATA_NORMAL_2 0x00020000
#define fRTUSB_BULK_OUT_DATA_NORMAL_3 0x00040000
#define fRTUSB_BULK_OUT_DATA_NORMAL_4 0x00080000
#define fRTUSB_BULK_OUT_PSPOLL 0x00000020
#define fRTUSB_BULK_OUT_DATA_FRAG 0x00000040
#define fRTUSB_BULK_OUT_DATA_FRAG_2 0x00000080
#define fRTUSB_BULK_OUT_DATA_FRAG_3 0x00000100
#define fRTUSB_BULK_OUT_DATA_FRAG_4 0x00000200
#ifdef RALINK_ATE
#define fRTUSB_BULK_OUT_DATA_ATE 0x00100000
#endif // RALINK_ATE //
#define RT2870_USB_DEVICES \
{ \
{USB_DEVICE(0x148F,0x2770)}, /* Ralink */ \
{USB_DEVICE(0x148F,0x2870)}, /* Ralink */ \
{USB_DEVICE(0x148F,0x3070)}, /* Ralink */ \
{USB_DEVICE(0x0B05,0x1731)}, /* Asus */ \
{USB_DEVICE(0x0B05,0x1732)}, /* Asus */ \
{USB_DEVICE(0x0B05,0x1742)}, /* Asus */ \
{USB_DEVICE(0x0DF6,0x0017)}, /* Sitecom */ \
{USB_DEVICE(0x0DF6,0x002B)}, /* Sitecom */ \
{USB_DEVICE(0x0DF6,0x002C)}, /* Sitecom */ \
{USB_DEVICE(0x0DF6,0x002D)}, /* Sitecom */ \
{USB_DEVICE(0x14B2,0x3C06)}, /* Conceptronic */ \
{USB_DEVICE(0x14B2,0x3C28)}, /* Conceptronic */ \
{USB_DEVICE(0x2019,0xED06)}, /* Planex Communications, Inc. */ \
{USB_DEVICE(0x2019,0xAB25)}, /* Planex Communications, Inc. RT3070 */ \
{USB_DEVICE(0x07D1,0x3C09)}, /* D-Link */ \
{USB_DEVICE(0x07D1,0x3C11)}, /* D-Link */ \
{USB_DEVICE(0x14B2,0x3C07)}, /* AL */ \
{USB_DEVICE(0x14B2,0x3C12)}, /* AL */ \
{USB_DEVICE(0x050D,0x8053)}, /* Belkin */ \
{USB_DEVICE(0x14B2,0x3C23)}, /* Airlink */ \
{USB_DEVICE(0x14B2,0x3C27)}, /* Airlink */ \
{USB_DEVICE(0x07AA,0x002F)}, /* Corega */ \
{USB_DEVICE(0x07AA,0x003C)}, /* Corega */ \
{USB_DEVICE(0x07AA,0x003F)}, /* Corega */ \
{USB_DEVICE(0x18C5,0x0012)}, /* Corega */ \
{USB_DEVICE(0x1044,0x800B)}, /* Gigabyte */ \
{USB_DEVICE(0x15A9,0x0006)}, /* Sparklan */ \
{USB_DEVICE(0x083A,0xB522)}, /* SMC */ \
{USB_DEVICE(0x083A,0xA618)}, /* SMC */ \
{USB_DEVICE(0x083A,0x7522)}, /* Arcadyan */ \
{USB_DEVICE(0x0CDE,0x0022)}, /* ZCOM */ \
{USB_DEVICE(0x0586,0x3416)}, /* Zyxel */ \
{USB_DEVICE(0x0CDE,0x0025)}, /* Zyxel */ \
{USB_DEVICE(0x1740,0x9701)}, /* EnGenius */ \
{USB_DEVICE(0x1740,0x9702)}, /* EnGenius */ \
{USB_DEVICE(0x0471,0x200f)}, /* Philips */ \
{USB_DEVICE(0x14B2,0x3C25)}, /* Draytek */ \
{USB_DEVICE(0x13D3,0x3247)}, /* AzureWave */ \
{USB_DEVICE(0x083A,0x6618)}, /* Accton */ \
{USB_DEVICE(0x15c5,0x0008)}, /* Amit */ \
{USB_DEVICE(0x0E66,0x0001)}, /* Hawking */ \
{USB_DEVICE(0x0E66,0x0003)}, /* Hawking */ \
{USB_DEVICE(0x129B,0x1828)}, /* Siemens */ \
{USB_DEVICE(0x157E,0x300E)}, /* U-Media */ \
{USB_DEVICE(0x050d,0x805c)}, \
{USB_DEVICE(0x1482,0x3C09)}, /* Abocom*/ \
{USB_DEVICE(0x14B2,0x3C09)}, /* Alpha */ \
{USB_DEVICE(0x04E8,0x2018)}, /* samsung */ \
{USB_DEVICE(0x07B8,0x3070)}, /* AboCom */ \
{USB_DEVICE(0x07B8,0x3071)}, /* AboCom */ \
{USB_DEVICE(0x07B8,0x2870)}, /* AboCom */ \
{USB_DEVICE(0x07B8,0x2770)}, /* AboCom */ \
{USB_DEVICE(0x7392,0x7711)}, /* Edimax */ \
{USB_DEVICE(0x5A57,0x0280)}, /* Zinwell */ \
{USB_DEVICE(0x5A57,0x0282)}, /* Zinwell */ \
{USB_DEVICE(0x0789,0x0162)}, /* Logitec */ \
{USB_DEVICE(0x0789,0x0163)}, /* Logitec */ \
{USB_DEVICE(0x0789,0x0164)}, /* Logitec */ \
{ }/* Terminating entry */ \
}
#define FREE_HTTX_RING(_p, _b, _t) \
{ \
if ((_t)->ENextBulkOutPosition == (_t)->CurWritePosition) \
{ \
(_t)->bRingEmpty = TRUE; \
} \
/*NdisInterlockedDecrement(&(_p)->TxCount); */\
}
//
// RXINFO appends at the end of each rx packet.
//
#ifdef RT_BIG_ENDIAN
typedef struct PACKED _RXINFO_STRUC {
UINT32 PlcpSignal:12;
UINT32 LastAMSDU:1;
UINT32 CipherAlg:1;
UINT32 PlcpRssil:1;
UINT32 Decrypted:1;
UINT32 AMPDU:1; // To be moved
UINT32 L2PAD:1;
UINT32 RSSI:1;
UINT32 HTC:1;
UINT32 AMSDU:1; // rx with 802.3 header, not 802.11 header.
UINT32 CipherErr:2; // 0: decryption okay, 1:ICV error, 2:MIC error, 3:KEY not valid
UINT32 Crc:1; // 1: CRC error
UINT32 MyBss:1; // 1: this frame belongs to the same BSSID
UINT32 Bcast:1; // 1: this is a broadcast frame
UINT32 Mcast:1; // 1: this is a multicast frame
UINT32 U2M:1; // 1: this RX frame is unicast to me
UINT32 FRAG:1;
UINT32 NULLDATA:1;
UINT32 DATA:1;
UINT32 BA:1;
} RXINFO_STRUC, *PRXINFO_STRUC, RT28XX_RXD_STRUC, *PRT28XX_RXD_STRUC;
#else
typedef struct PACKED _RXINFO_STRUC {
UINT32 BA:1;
UINT32 DATA:1;
UINT32 NULLDATA:1;
UINT32 FRAG:1;
UINT32 U2M:1; // 1: this RX frame is unicast to me
UINT32 Mcast:1; // 1: this is a multicast frame
UINT32 Bcast:1; // 1: this is a broadcast frame
UINT32 MyBss:1; // 1: this frame belongs to the same BSSID
UINT32 Crc:1; // 1: CRC error
UINT32 CipherErr:2; // 0: decryption okay, 1:ICV error, 2:MIC error, 3:KEY not valid
UINT32 AMSDU:1; // rx with 802.3 header, not 802.11 header.
UINT32 HTC:1;
UINT32 RSSI:1;
UINT32 L2PAD:1;
UINT32 AMPDU:1; // To be moved
UINT32 Decrypted:1;
UINT32 PlcpRssil:1;
UINT32 CipherAlg:1;
UINT32 LastAMSDU:1;
UINT32 PlcpSignal:12;
} RXINFO_STRUC, *PRXINFO_STRUC, RT28XX_RXD_STRUC, *PRT28XX_RXD_STRUC;
#endif
//
// TXINFO
//
#ifdef RT_BIG_ENDIAN
typedef struct _TXINFO_STRUC {
// Word 0
UINT32 USBDMATxburst:1;//used ONLY in USB bulk Aggre. Force USB DMA transmit frame from current selected endpoint
UINT32 USBDMANextVLD:1; //used ONLY in USB bulk Aggregation, NextValid
UINT32 rsv2:2; // Software use.
UINT32 SwUseLastRound:1; // Software use.
UINT32 QSEL:2; // select on-chip FIFO ID for 2nd-stage output scheduler.0:MGMT, 1:HCCA 2:EDCA
UINT32 WIV:1; // Wireless Info Valid. 1 if Driver already fill WI, o if DMA needs to copy WI to correctposition
UINT32 rsv:8;
UINT32 USBDMATxPktLen:16; //used ONLY in USB bulk Aggregation, Total byte counts of all sub-frame.
} TXINFO_STRUC, *PTXINFO_STRUC;
#else
typedef struct _TXINFO_STRUC {
// Word 0
UINT32 USBDMATxPktLen:16; //used ONLY in USB bulk Aggregation, Total byte counts of all sub-frame.
UINT32 rsv:8;
UINT32 WIV:1; // Wireless Info Valid. 1 if Driver already fill WI, o if DMA needs to copy WI to correctposition
UINT32 QSEL:2; // select on-chip FIFO ID for 2nd-stage output scheduler.0:MGMT, 1:HCCA 2:EDCA
UINT32 SwUseLastRound:1; // Software use.
UINT32 rsv2:2; // Software use.
UINT32 USBDMANextVLD:1; //used ONLY in USB bulk Aggregation, NextValid
UINT32 USBDMATxburst:1;//used ONLY in USB bulk Aggre. Force USB DMA transmit frame from current selected endpoint
} TXINFO_STRUC, *PTXINFO_STRUC;
#endif
#define TXINFO_SIZE 4
#define RXINFO_SIZE 4
#define TXPADDING_SIZE 11
//
// Management ring buffer format
//
typedef struct _MGMT_STRUC {
BOOLEAN Valid;
PUCHAR pBuffer;
ULONG Length;
} MGMT_STRUC, *PMGMT_STRUC;
/* ----------------- EEPROM Related MACRO ----------------- */
#define RT28xx_EEPROM_READ16(pAd, offset, var) \
do { \
RTUSBReadEEPROM(pAd, offset, (PUCHAR)&(var), 2); \
var = le2cpu16(var); \
}while(0)
#define RT28xx_EEPROM_WRITE16(pAd, offset, var) \
do{ \
USHORT _tmpVar; \
_tmpVar = cpu2le16(var); \
RTUSBWriteEEPROM(pAd, offset, (PUCHAR)&(_tmpVar), 2); \
}while(0)
/* ----------------- TASK/THREAD Related MACRO ----------------- */
#define RT28XX_TASK_THREAD_INIT(pAd, Status) \
Status = CreateThreads(net_dev);
/* ----------------- Frimware Related MACRO ----------------- */
#if 0
#define RT28XX_FIRMUD_INIT(pAd) \
{ UINT32 MacReg; \
RTUSBReadMACRegister(pAd, MAC_CSR0, &MacReg); }
#define RT28XX_FIRMUD_END(pAd) \
RTUSBWriteMACRegister(pAd, 0x7014, 0xffffffff); \
RTUSBWriteMACRegister(pAd, 0x701c, 0xffffffff); \
RTUSBFirmwareRun(pAd);
#else
#define RT28XX_WRITE_FIRMWARE(_pAd, _pFwImage, _FwLen) \
RTUSBFirmwareWrite(_pAd, _pFwImage, _FwLen)
#endif
/* ----------------- TX Related MACRO ----------------- */
#define RT28XX_START_DEQUEUE(pAd, QueIdx, irqFlags) \
{ \
RTMP_IRQ_LOCK(&pAd->DeQueueLock[QueIdx], irqFlags); \
if (pAd->DeQueueRunning[QueIdx]) \
{ \
RTMP_IRQ_UNLOCK(&pAd->DeQueueLock[QueIdx], irqFlags);\
printk("DeQueueRunning[%d]= TRUE!\n", QueIdx); \
continue; \
} \
else \
{ \
pAd->DeQueueRunning[QueIdx] = TRUE; \
RTMP_IRQ_UNLOCK(&pAd->DeQueueLock[QueIdx], irqFlags);\
} \
}
#define RT28XX_STOP_DEQUEUE(pAd, QueIdx, irqFlags) \
do{ \
RTMP_IRQ_LOCK(&pAd->DeQueueLock[QueIdx], irqFlags); \
pAd->DeQueueRunning[QueIdx] = FALSE; \
RTMP_IRQ_UNLOCK(&pAd->DeQueueLock[QueIdx], irqFlags); \
}while(0)
#define RT28XX_HAS_ENOUGH_FREE_DESC(pAd, pTxBlk, freeNum, pPacket) \
(RTUSBFreeDescriptorRequest(pAd, pTxBlk->QueIdx, (pTxBlk->TotalFrameLen + GET_OS_PKT_LEN(pPacket))) == NDIS_STATUS_SUCCESS)
#define RT28XX_RELEASE_DESC_RESOURCE(pAd, QueIdx) \
do{}while(0)
#define NEED_QUEUE_BACK_FOR_AGG(_pAd, _QueIdx, _freeNum, _TxFrameType) \
((_TxFrameType == TX_RALINK_FRAME) && (RTUSBNeedQueueBackForAgg(_pAd, _QueIdx)))
#define fRTMP_ADAPTER_NEED_STOP_TX \
(fRTMP_ADAPTER_NIC_NOT_EXIST | fRTMP_ADAPTER_HALT_IN_PROGRESS | \
fRTMP_ADAPTER_RESET_IN_PROGRESS | fRTMP_ADAPTER_BULKOUT_RESET | \
fRTMP_ADAPTER_RADIO_OFF | fRTMP_ADAPTER_REMOVE_IN_PROGRESS)
#define HAL_WriteSubTxResource(pAd, pTxBlk, bIsLast, pFreeNumber) \
RtmpUSB_WriteSubTxResource(pAd, pTxBlk, bIsLast, pFreeNumber)
#define HAL_WriteTxResource(pAd, pTxBlk,bIsLast, pFreeNumber) \
RtmpUSB_WriteSingleTxResource(pAd, pTxBlk,bIsLast, pFreeNumber)
#define HAL_WriteFragTxResource(pAd, pTxBlk, fragNum, pFreeNumber) \
RtmpUSB_WriteFragTxResource(pAd, pTxBlk, fragNum, pFreeNumber)
#define HAL_WriteMultiTxResource(pAd, pTxBlk,frameNum, pFreeNumber) \
RtmpUSB_WriteMultiTxResource(pAd, pTxBlk,frameNum, pFreeNumber)
#define HAL_FinalWriteTxResource(pAd, pTxBlk, totalMPDUSize, TxIdx) \
RtmpUSB_FinalWriteTxResource(pAd, pTxBlk, totalMPDUSize, TxIdx)
#define HAL_LastTxIdx(pAd, QueIdx,TxIdx) \
/*RtmpUSBDataLastTxIdx(pAd, QueIdx,TxIdx)*/
#define HAL_KickOutTx(pAd, pTxBlk, QueIdx) \
RtmpUSBDataKickOut(pAd, pTxBlk, QueIdx)
#define HAL_KickOutMgmtTx(pAd, QueIdx, pPacket, pSrcBufVA, SrcBufLen) \
RtmpUSBMgmtKickOut(pAd, QueIdx, pPacket, pSrcBufVA, SrcBufLen)
#define HAL_KickOutNullFrameTx(_pAd, _QueIdx, _pNullFrame, _frameLen) \
RtmpUSBNullFrameKickOut(_pAd, _QueIdx, _pNullFrame, _frameLen)
#define RTMP_PKT_TAIL_PADDING 11 // 3(max 4 byte padding) + 4 (last packet padding) + 4 (MaxBulkOutsize align padding)
extern UCHAR EpToQueue[6];
#ifdef RT2870
#define GET_TXRING_FREENO(_pAd, _QueIdx) (_QueIdx) //(_pAd->TxRing[_QueIdx].TxSwFreeIdx)
#define GET_MGMTRING_FREENO(_pAd) (_pAd->MgmtRing.TxSwFreeIdx)
#endif // RT2870 //
/* ----------------- RX Related MACRO ----------------- */
//#define RT28XX_RX_ERROR_CHECK RTMPCheckRxWI
#if 0
#define RT28XX_RCV_INIT(pAd) \
pAd->TransferBufferLength = 0; \
pAd->ReadPosition = 0; \
pAd->pCurrRxContext = NULL;
#endif
#define RT28XX_RV_ALL_BUF_END(bBulkReceive) \
/* We return STATUS_MORE_PROCESSING_REQUIRED so that the completion */ \
/* routine (IofCompleteRequest) will stop working on the irp. */ \
if (bBulkReceive == TRUE) RTUSBBulkReceive(pAd);
/* ----------------- ASIC Related MACRO ----------------- */
#if 0
#define RT28XX_DMA_WRITE_INIT(GloCfg) \
{ GloCfg.field.EnTXWriteBackDDONE = 1; \
GloCfg.field.EnableRxDMA = 1; \
GloCfg.field.EnableTxDMA = 1; }
#define RT28XX_DMA_POST_WRITE(_pAd) \
do{ USB_DMA_CFG_STRUC UsbCfg; \
UsbCfg.word = 0; \
/* for last packet, PBF might use more than limited, so minus 2 to prevent from error */ \
UsbCfg.field.RxBulkAggLmt = (MAX_RXBULK_SIZE /1024)-3; \
UsbCfg.field.phyclear = 0; \
/* usb version is 1.1,do not use bulk in aggregation */ \
if (_pAd->BulkInMaxPacketSize == 512) \
UsbCfg.field.RxBulkAggEn = 1; \
UsbCfg.field.RxBulkEn = 1; \
UsbCfg.field.TxBulkEn = 1; \
UsbCfg.field.RxBulkAggTOut = 0x80; /* 2006-10-18 */ \
RTUSBWriteMACRegister(_pAd, USB_DMA_CFG, UsbCfg.word); \
}while(0)
#endif
// reset MAC of a station entry to 0xFFFFFFFFFFFF
#define RT28XX_STA_ENTRY_MAC_RESET(pAd, Wcid) \
{ RT_SET_ASIC_WCID SetAsicWcid; \
SetAsicWcid.WCID = Wcid; \
SetAsicWcid.SetTid = 0xffffffff; \
SetAsicWcid.DeleteTid = 0xffffffff; \
RTUSBEnqueueInternalCmd(pAd, CMDTHREAD_SET_ASIC_WCID, \
&SetAsicWcid, sizeof(RT_SET_ASIC_WCID)); }
// add this entry into ASIC RX WCID search table
#define RT28XX_STA_ENTRY_ADD(pAd, pEntry) \
RTUSBEnqueueInternalCmd(pAd, CMDTHREAD_SET_CLIENT_MAC_ENTRY, \
pEntry, sizeof(MAC_TABLE_ENTRY));
// remove Pair-wise key material from ASIC
// yet implement
#define RT28XX_STA_ENTRY_KEY_DEL(pAd, BssIdx, Wcid)
// add Client security information into ASIC WCID table and IVEIV table
#define RT28XX_STA_SECURITY_INFO_ADD(pAd, apidx, KeyID, pEntry) \
{ RT28XX_STA_ENTRY_MAC_RESET(pAd, pEntry->Aid); \
if (pEntry->Aid >= 1) { \
RT_SET_ASIC_WCID_ATTRI SetAsicWcidAttri; \
SetAsicWcidAttri.WCID = pEntry->Aid; \
if ((pEntry->AuthMode <= Ndis802_11AuthModeAutoSwitch) && \
(pEntry->WepStatus == Ndis802_11Encryption1Enabled)) \
{ \
SetAsicWcidAttri.Cipher = pAd->SharedKey[apidx][KeyID].CipherAlg; \
} \
else if (pEntry->AuthMode == Ndis802_11AuthModeWPANone) \
{ \
SetAsicWcidAttri.Cipher = pAd->SharedKey[apidx][KeyID].CipherAlg; \
} \
else SetAsicWcidAttri.Cipher = 0; \
DBGPRINT(RT_DEBUG_TRACE, ("aid cipher = %ld\n",SetAsicWcidAttri.Cipher)); \
RTUSBEnqueueInternalCmd(pAd, CMDTHREAD_SET_ASIC_WCID_CIPHER, \
&SetAsicWcidAttri, sizeof(RT_SET_ASIC_WCID_ATTRI)); } }
// Insert the BA bitmap to ASIC for the Wcid entry
#define RT28XX_ADD_BA_SESSION_TO_ASIC(_pAd, _Aid, _TID) \
do{ \
RT_SET_ASIC_WCID SetAsicWcid; \
SetAsicWcid.WCID = (_Aid); \
SetAsicWcid.SetTid = (0x10000<<(_TID)); \
SetAsicWcid.DeleteTid = 0xffffffff; \
RTUSBEnqueueInternalCmd((_pAd), CMDTHREAD_SET_ASIC_WCID, &SetAsicWcid, sizeof(RT_SET_ASIC_WCID)); \
}while(0)
// Remove the BA bitmap from ASIC for the Wcid entry
#define RT28XX_DEL_BA_SESSION_FROM_ASIC(_pAd, _Wcid, _TID) \
do{ \
RT_SET_ASIC_WCID SetAsicWcid; \
SetAsicWcid.WCID = (_Wcid); \
SetAsicWcid.SetTid = (0xffffffff); \
SetAsicWcid.DeleteTid = (0x10000<<(_TID) ); \
RTUSBEnqueueInternalCmd((_pAd), CMDTHREAD_SET_ASIC_WCID, &SetAsicWcid, sizeof(RT_SET_ASIC_WCID)); \
}while(0)
/* ----------------- PCI/USB Related MACRO ----------------- */
#define RT28XX_HANDLE_DEV_ASSIGN(handle, dev_p) \
((POS_COOKIE)handle)->pUsb_Dev = dev_p;
// no use
#define RT28XX_UNMAP()
#define RT28XX_IRQ_REQUEST(net_dev)
#define RT28XX_IRQ_RELEASE(net_dev)
#define RT28XX_IRQ_INIT(pAd)
#define RT28XX_IRQ_ENABLE(pAd)
/* ----------------- MLME Related MACRO ----------------- */
#define RT28XX_MLME_HANDLER(pAd) RTUSBMlmeUp(pAd)
#define RT28XX_MLME_PRE_SANITY_CHECK(pAd) \
{ if ((pAd->CommonCfg.bHardwareRadio == TRUE) && \
(!RTMP_TEST_FLAG(pAd, fRTMP_ADAPTER_NIC_NOT_EXIST)) && \
(!RTMP_TEST_FLAG(pAd, fRTMP_ADAPTER_HALT_IN_PROGRESS))) { \
RTUSBEnqueueInternalCmd(pAd, CMDTHREAD_CHECK_GPIO, NULL, 0); } }
#define RT28XX_MLME_STA_QUICK_RSP_WAKE_UP(pAd) \
{ RTUSBEnqueueInternalCmd(pAd, CMDTHREAD_QKERIODIC_EXECUT, NULL, 0); \
RTUSBMlmeUp(pAd); }
#define RT28XX_MLME_RESET_STATE_MACHINE(pAd) \
MlmeEnqueue(pAd, MLME_CNTL_STATE_MACHINE, MT2_RESET_CONF, 0, NULL); \
RTUSBMlmeUp(pAd);
#define RT28XX_HANDLE_COUNTER_MEASURE(_pAd, _pEntry) \
{ RTUSBEnqueueInternalCmd(_pAd, CMDTHREAD_802_11_COUNTER_MEASURE, _pEntry, sizeof(MAC_TABLE_ENTRY)); \
RTUSBMlmeUp(_pAd); \
}
/* ----------------- Power Save Related MACRO ----------------- */
#define RT28XX_PS_POLL_ENQUEUE(pAd) \
{ RTUSB_SET_BULK_FLAG(pAd, fRTUSB_BULK_OUT_PSPOLL); \
RTUSBKickBulkOut(pAd); }
#define RT28xx_CHIP_NAME "RT2870"
#define USB_CYC_CFG 0x02a4
#define STATUS_SUCCESS 0x00
#define STATUS_UNSUCCESSFUL 0x01
#define NT_SUCCESS(status) (((status) > 0) ? (1):(0))
#define InterlockedIncrement atomic_inc
#define NdisInterlockedIncrement atomic_inc
#define InterlockedDecrement atomic_dec
#define NdisInterlockedDecrement atomic_dec
#define InterlockedExchange atomic_set
//#define NdisMSendComplete RTMP_SendComplete
#define NdisMCancelTimer RTMPCancelTimer
#define NdisAllocMemory(_ptr, _size, _flag) \
do{_ptr = kmalloc((_size),(_flag));}while(0)
#define NdisFreeMemory(a, b, c) kfree((a))
#define NdisMSleep RTMPusecDelay /* unit: microsecond */
#define USBD_TRANSFER_DIRECTION_OUT 0
#define USBD_TRANSFER_DIRECTION_IN 0
#define USBD_SHORT_TRANSFER_OK 0
#define PURB purbb_t
#define RTUSB_FREE_URB(pUrb) usb_free_urb(pUrb)
//#undef MlmeAllocateMemory
//#undef MlmeFreeMemory
typedef int NTSTATUS;
typedef struct usb_device * PUSB_DEV;
/* MACRO for linux usb */
typedef struct urb *purbb_t;
typedef struct usb_ctrlrequest devctrlrequest;
#define PIRP PVOID
#define PMDL PVOID
#define NDIS_OID UINT
#ifndef USB_ST_NOERROR
#define USB_ST_NOERROR 0
#endif
// vendor-specific control operations
#define CONTROL_TIMEOUT_JIFFIES ( (100 * HZ) / 1000)
#define UNLINK_TIMEOUT_MS 3
/* unlink urb */
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,7)
#define RTUSB_UNLINK_URB(pUrb) usb_kill_urb(pUrb)
#else
#define RTUSB_UNLINK_URB(pUrb) usb_unlink_urb(pUrb)
#endif
// Prototypes of completion funuc.
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,5,0)
#define RTUSBBulkOutDataPacketComplete(purb, pt_regs) RTUSBBulkOutDataPacketComplete(purb)
#define RTUSBBulkOutMLMEPacketComplete(pUrb, pt_regs) RTUSBBulkOutMLMEPacketComplete(pUrb)
#define RTUSBBulkOutNullFrameComplete(pUrb, pt_regs) RTUSBBulkOutNullFrameComplete(pUrb)
#define RTUSBBulkOutRTSFrameComplete(pUrb, pt_regs) RTUSBBulkOutRTSFrameComplete(pUrb)
#define RTUSBBulkOutPsPollComplete(pUrb, pt_regs) RTUSBBulkOutPsPollComplete(pUrb)
#define RTUSBBulkRxComplete(pUrb, pt_regs) RTUSBBulkRxComplete(pUrb)
#endif
VOID RTUSBBulkOutDataPacketComplete(purbb_t purb, struct pt_regs *pt_regs);
VOID RTUSBBulkOutMLMEPacketComplete(purbb_t pUrb, struct pt_regs *pt_regs);
VOID RTUSBBulkOutNullFrameComplete(purbb_t pUrb, struct pt_regs *pt_regs);
VOID RTUSBBulkOutRTSFrameComplete(purbb_t pUrb, struct pt_regs *pt_regs);
VOID RTUSBBulkOutPsPollComplete(purbb_t pUrb, struct pt_regs *pt_regs);
VOID RTUSBBulkRxComplete(purbb_t pUrb, struct pt_regs *pt_regs);
#define RTUSBMlmeUp(pAd) \
{ \
POS_COOKIE pObj = (POS_COOKIE) pAd->OS_Cookie; \
CHECK_PID_LEGALITY(pObj->MLMEThr_pid) \
up(&(pAd->mlme_semaphore)); \
}
#define RTUSBCMDUp(pAd) \
{ \
POS_COOKIE pObj = (POS_COOKIE) pAd->OS_Cookie; \
CHECK_PID_LEGALITY(pObj->RTUSBCmdThr_pid) \
up(&(pAd->RTUSBCmd_semaphore)); \
}
static inline NDIS_STATUS RTMPAllocateMemory(
OUT PVOID *ptr,
IN size_t size)
{
*ptr = kmalloc(size, GFP_ATOMIC);
if(*ptr)
return NDIS_STATUS_SUCCESS;
else
return NDIS_STATUS_RESOURCES;
}
/* rtmp.h */
#define BEACON_RING_SIZE 2
#define DEVICE_VENDOR_REQUEST_OUT 0x40
#define DEVICE_VENDOR_REQUEST_IN 0xc0
#define INTERFACE_VENDOR_REQUEST_OUT 0x41
#define INTERFACE_VENDOR_REQUEST_IN 0xc1
#define MGMTPIPEIDX 0 // EP6 is highest priority
#define BULKOUT_MGMT_RESET_FLAG 0x80
#define RTUSB_SET_BULK_FLAG(_M, _F) ((_M)->BulkFlags |= (_F))
#define RTUSB_CLEAR_BULK_FLAG(_M, _F) ((_M)->BulkFlags &= ~(_F))
#define RTUSB_TEST_BULK_FLAG(_M, _F) (((_M)->BulkFlags & (_F)) != 0)
#define EnqueueCmd(cmdq, cmdqelmt) \
{ \
if (cmdq->size == 0) \
cmdq->head = cmdqelmt; \
else \
cmdq->tail->next = cmdqelmt; \
cmdq->tail = cmdqelmt; \
cmdqelmt->next = NULL; \
cmdq->size++; \
}
typedef struct _RT_SET_ASIC_WCID {
ULONG WCID; // mechanism for rekeying: 0:disable, 1: time-based, 2: packet-based
ULONG SetTid; // time-based: seconds, packet-based: kilo-packets
ULONG DeleteTid; // time-based: seconds, packet-based: kilo-packets
UCHAR Addr[MAC_ADDR_LEN]; // avoid in interrupt when write key
} RT_SET_ASIC_WCID,*PRT_SET_ASIC_WCID;
typedef struct _RT_SET_ASIC_WCID_ATTRI {
ULONG WCID; // mechanism for rekeying: 0:disable, 1: time-based, 2: packet-based
ULONG Cipher; // ASIC Cipher definition
UCHAR Addr[ETH_LENGTH_OF_ADDRESS];
} RT_SET_ASIC_WCID_ATTRI,*PRT_SET_ASIC_WCID_ATTRI;
typedef struct _MLME_MEMORY_STRUCT {
PVOID AllocVa; //Pointer to the base virtual address of the allocated memory
struct _MLME_MEMORY_STRUCT *Next; //Pointer to the next virtual address of the allocated memory
} MLME_MEMORY_STRUCT, *PMLME_MEMORY_STRUCT;
typedef struct _MLME_MEMORY_HANDLER {
BOOLEAN MemRunning; //The flag of the Mlme memory handler's status
UINT MemoryCount; //Total nonpaged system-space memory not size
UINT InUseCount; //Nonpaged system-space memory in used counts
UINT UnUseCount; //Nonpaged system-space memory available counts
INT PendingCount; //Nonpaged system-space memory for free counts
PMLME_MEMORY_STRUCT pInUseHead; //Pointer to the first nonpaed memory not used
PMLME_MEMORY_STRUCT pInUseTail; //Pointer to the last nonpaged memory not used
PMLME_MEMORY_STRUCT pUnUseHead; //Pointer to the first nonpaged memory in used
PMLME_MEMORY_STRUCT pUnUseTail; //Pointer to the last nonpaged memory in used
PULONG MemFreePending[MAX_MLME_HANDLER_MEMORY]; //an array to keep pending free-memory's pointer (32bits)
} MLME_MEMORY_HANDLER, *PMLME_MEMORY_HANDLER;
typedef struct _CmdQElmt {
UINT command;
PVOID buffer;
ULONG bufferlength;
BOOLEAN CmdFromNdis;
BOOLEAN SetOperation;
struct _CmdQElmt *next;
} CmdQElmt, *PCmdQElmt;
typedef struct _CmdQ {
UINT size;
CmdQElmt *head;
CmdQElmt *tail;
UINT32 CmdQState;
}CmdQ, *PCmdQ;
//
// For WPA SUPPLICANT: WIRELESS EXT support wireless events: v14 or newer
//
#if WIRELESS_EXT >= 14
//#define WPA_SUPPLICANT_SUPPORT 1
#endif
/* oid.h */
// Cipher suite type for mixed mode group cipher, P802.11i-2004
typedef enum _RT_802_11_CIPHER_SUITE_TYPE {
Cipher_Type_NONE,
Cipher_Type_WEP40,
Cipher_Type_TKIP,
Cipher_Type_RSVD,
Cipher_Type_CCMP,
Cipher_Type_WEP104
} RT_802_11_CIPHER_SUITE_TYPE, *PRT_802_11_CIPHER_SUITE_TYPE;
//CMDTHREAD_MULTI_READ_MAC
//CMDTHREAD_MULTI_WRITE_MAC
//CMDTHREAD_VENDOR_EEPROM_READ
//CMDTHREAD_VENDOR_EEPROM_WRITE
typedef struct _CMDHandler_TLV {
USHORT Offset;
USHORT Length;
UCHAR DataFirst;
} CMDHandler_TLV, *PCMDHandler_TLV;
// New for MeetingHouse Api support
#define CMDTHREAD_VENDOR_RESET 0x0D730101 // cmd
#define CMDTHREAD_VENDOR_UNPLUG 0x0D730102 // cmd
#define CMDTHREAD_VENDOR_SWITCH_FUNCTION 0x0D730103 // cmd
#define CMDTHREAD_MULTI_WRITE_MAC 0x0D730107 // cmd
#define CMDTHREAD_MULTI_READ_MAC 0x0D730108 // cmd
#define CMDTHREAD_VENDOR_EEPROM_WRITE 0x0D73010A // cmd
#define CMDTHREAD_VENDOR_EEPROM_READ 0x0D73010B // cmd
#define CMDTHREAD_VENDOR_ENTER_TESTMODE 0x0D73010C // cmd
#define CMDTHREAD_VENDOR_EXIT_TESTMODE 0x0D73010D // cmd
#define CMDTHREAD_VENDOR_WRITE_BBP 0x0D730119 // cmd
#define CMDTHREAD_VENDOR_READ_BBP 0x0D730118 // cmd
#define CMDTHREAD_VENDOR_WRITE_RF 0x0D73011A // cmd
#define CMDTHREAD_VENDOR_FLIP_IQ 0x0D73011D // cmd
#define CMDTHREAD_RESET_BULK_OUT 0x0D730210 // cmd
#define CMDTHREAD_RESET_BULK_IN 0x0D730211 // cmd
#define CMDTHREAD_SET_PSM_BIT_SAVE 0x0D730212 // cmd
#define CMDTHREAD_SET_RADIO 0x0D730214 // cmd
#define CMDTHREAD_UPDATE_TX_RATE 0x0D730216 // cmd
#define CMDTHREAD_802_11_ADD_KEY_WEP 0x0D730218 // cmd
#define CMDTHREAD_RESET_FROM_ERROR 0x0D73021A // cmd
#define CMDTHREAD_LINK_DOWN 0x0D73021B // cmd
#define CMDTHREAD_RESET_FROM_NDIS 0x0D73021C // cmd
#define CMDTHREAD_CHECK_GPIO 0x0D730215 // cmd
#define CMDTHREAD_FORCE_WAKE_UP 0x0D730222 // cmd
#define CMDTHREAD_SET_BW 0x0D730225 // cmd
#define CMDTHREAD_SET_ASIC_WCID 0x0D730226 // cmd
#define CMDTHREAD_SET_ASIC_WCID_CIPHER 0x0D730227 // cmd
#define CMDTHREAD_QKERIODIC_EXECUT 0x0D73023D // cmd
#define RT_CMD_SET_KEY_TABLE 0x0D730228 // cmd
#define RT_CMD_SET_RX_WCID_TABLE 0x0D730229 // cmd
#define CMDTHREAD_SET_CLIENT_MAC_ENTRY 0x0D73023E // cmd
#define CMDTHREAD_802_11_QUERY_HARDWARE_REGISTER 0x0D710105 // cmd
#define CMDTHREAD_802_11_SET_PHY_MODE 0x0D79010C // cmd
#define CMDTHREAD_802_11_SET_STA_CONFIG 0x0D790111 // cmd
#define CMDTHREAD_802_11_SET_PREAMBLE 0x0D790101 // cmd
#define CMDTHREAD_802_11_COUNTER_MEASURE 0x0D790102 // cmd
#define WPA1AKMBIT 0x01
#define WPA2AKMBIT 0x02
#define WPA1PSKAKMBIT 0x04
#define WPA2PSKAKMBIT 0x08
#define TKIPBIT 0x01
#define CCMPBIT 0x02
#define RT28XX_STA_FORCE_WAKEUP(pAd, bFromTx) \
RT28xxUsbStaAsicForceWakeup(pAd, bFromTx);
#define RT28XX_STA_SLEEP_THEN_AUTO_WAKEUP(pAd, TbttNumToNextWakeUp) \
RT28xxUsbStaAsicSleepThenAutoWakeup(pAd, TbttNumToNextWakeUp);
#define RT28XX_MLME_RADIO_ON(pAd) \
RT28xxUsbMlmeRadioOn(pAd);
#define RT28XX_MLME_RADIO_OFF(pAd) \
RT28xxUsbMlmeRadioOFF(pAd);
#endif //__RT2870_H__
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