/*
*************************************************************************
* 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. *
* *
*************************************************************************
Module Name:
rtmp.h
Abstract:
Miniport generic portion header file
Revision History:
Who When What
-------- ---------- ----------------------------------------------
Paul Lin 2002-08-01 created
James Tan 2002-09-06 modified (Revise NTCRegTable)
John Chang 2004-09-06 modified for RT2600
*/
#ifndef __RTMP_H__
#define __RTMP_H__
#include "spectrum_def.h"
#include "aironet.h"
#define VIRTUAL_IF_INC(__pAd) ((__pAd)->VirtualIfCnt++)
#define VIRTUAL_IF_DEC(__pAd) ((__pAd)->VirtualIfCnt--)
#define VIRTUAL_IF_NUM(__pAd) ((__pAd)->VirtualIfCnt)
#ifdef RT2870
////////////////////////////////////////////////////////////////////////////
// The TX_BUFFER structure forms the transmitted USB packet to the device
////////////////////////////////////////////////////////////////////////////
typedef struct __TX_BUFFER{
union {
UCHAR WirelessPacket[TX_BUFFER_NORMSIZE];
HEADER_802_11 NullFrame;
PSPOLL_FRAME PsPollPacket;
RTS_FRAME RTSFrame;
}field;
UCHAR Aggregation[4]; //Buffer for save Aggregation size.
} TX_BUFFER, *PTX_BUFFER;
typedef struct __HTTX_BUFFER{
union {
UCHAR WirelessPacket[MAX_TXBULK_SIZE];
HEADER_802_11 NullFrame;
PSPOLL_FRAME PsPollPacket;
RTS_FRAME RTSFrame;
}field;
UCHAR Aggregation[4]; //Buffer for save Aggregation size.
} HTTX_BUFFER, *PHTTX_BUFFER;
// used to track driver-generated write irps
typedef struct _TX_CONTEXT
{
PVOID pAd; //Initialized in MiniportInitialize
PURB pUrb; //Initialized in MiniportInitialize
PIRP pIrp; //used to cancel pending bulk out.
//Initialized in MiniportInitialize
PTX_BUFFER TransferBuffer; //Initialized in MiniportInitialize
ULONG BulkOutSize;
UCHAR BulkOutPipeId;
UCHAR SelfIdx;
BOOLEAN InUse;
BOOLEAN bWaitingBulkOut; // at least one packet is in this TxContext, ready for making IRP anytime.
BOOLEAN bFullForBulkOut; // all tx buffer are full , so waiting for tx bulkout.
BOOLEAN IRPPending;
BOOLEAN LastOne;
BOOLEAN bAggregatible;
UCHAR Header_802_3[LENGTH_802_3];
UCHAR Rsv[2];
ULONG DataOffset;
UINT TxRate;
dma_addr_t data_dma; // urb dma on linux
} TX_CONTEXT, *PTX_CONTEXT, **PPTX_CONTEXT;
// used to track driver-generated write irps
typedef struct _HT_TX_CONTEXT
{
PVOID pAd; //Initialized in MiniportInitialize
PURB pUrb; //Initialized in MiniportInitialize
PIRP pIrp; //used to cancel pending bulk out.
//Initialized in MiniportInitialize
PHTTX_BUFFER TransferBuffer; //Initialized in MiniportInitialize
ULONG BulkOutSize; // Indicate the total bulk-out size in bytes in one bulk-transmission
UCHAR BulkOutPipeId;
BOOLEAN IRPPending;
BOOLEAN LastOne;
BOOLEAN bCurWriting;
BOOLEAN bRingEmpty;
BOOLEAN bCopySavePad;
UCHAR SavedPad[8];
UCHAR Header_802_3[LENGTH_802_3];
ULONG CurWritePosition; // Indicate the buffer offset which packet will be inserted start from.
ULONG CurWriteRealPos; // Indicate the buffer offset which packet now are writing to.
ULONG NextBulkOutPosition; // Indicate the buffer start offset of a bulk-transmission
ULONG ENextBulkOutPosition; // Indicate the buffer end offset of a bulk-transmission
UINT TxRate;
dma_addr_t data_dma; // urb dma on linux
} HT_TX_CONTEXT, *PHT_TX_CONTEXT, **PPHT_TX_CONTEXT;
//
// Structure to keep track of receive packets and buffers to indicate
// receive data to the protocol.
//
typedef struct _RX_CONTEXT
{
PUCHAR TransferBuffer;
PVOID pAd;
PIRP pIrp;//used to cancel pending bulk in.
PURB pUrb;
//These 2 Boolean shouldn't both be 1 at the same time.
ULONG BulkInOffset; // number of packets waiting for reordering .
BOOLEAN bRxHandling; // Notify this packet is being process now.
BOOLEAN InUse; // USB Hardware Occupied. Wait for USB HW to put packet.
BOOLEAN Readable; // Receive Complete back. OK for driver to indicate receiving packet.
BOOLEAN IRPPending; // TODO: To be removed
atomic_t IrpLock;
NDIS_SPIN_LOCK RxContextLock;
dma_addr_t data_dma; // urb dma on linux
} RX_CONTEXT, *PRX_CONTEXT;
#endif // RT2870 //
//
// NDIS Version definitions
//
#ifdef NDIS50_MINIPORT
#define RTMP_NDIS_MAJOR_VERSION 5
#define RTMP_NDIS_MINOR_VERSION 0
#endif
#ifdef NDIS51_MINIPORT
#define RTMP_NDIS_MAJOR_VERSION 5
#define RTMP_NDIS_MINOR_VERSION 1
#endif
extern char NIC_VENDOR_DESC[];
extern int NIC_VENDOR_DESC_LEN;
extern unsigned char SNAP_AIRONET[];
extern unsigned char CipherSuiteCiscoCCKM[];
extern unsigned char CipherSuiteCiscoCCKMLen;
extern unsigned char CipherSuiteCiscoCCKM24[];
extern unsigned char CipherSuiteCiscoCCKM24Len;
extern unsigned char CipherSuiteCCXTkip[];
extern unsigned char CipherSuiteCCXTkipLen;
extern unsigned char CISCO_OUI[];
extern UCHAR BaSizeArray[4];
extern UCHAR BROADCAST_ADDR[MAC_ADDR_LEN];
extern UCHAR MULTICAST_ADDR[MAC_ADDR_LEN];
extern UCHAR ZERO_MAC_ADDR[MAC_ADDR_LEN];
extern ULONG BIT32[32];
extern UCHAR BIT8[8];
extern char* CipherName[];
extern char* MCSToMbps[];
extern UCHAR RxwiMCSToOfdmRate[12];
extern UCHAR SNAP_802_1H[6];
extern UCHAR SNAP_BRIDGE_TUNNEL[6];
extern UCHAR SNAP_AIRONET[8];
extern UCHAR CKIP_LLC_SNAP[8];
extern UCHAR EAPOL_LLC_SNAP[8];
extern UCHAR EAPOL[2];
extern UCHAR IPX[2];
extern UCHAR APPLE_TALK[2];
extern UCHAR RateIdToPlcpSignal[12]; // see IEEE802.11a-1999 p.14
extern UCHAR OfdmRateToRxwiMCS[];
extern UCHAR OfdmSignalToRateId[16] ;
extern UCHAR default_cwmin[4];
extern UCHAR default_cwmax[4];
extern UCHAR default_sta_aifsn[4];
extern UCHAR MapUserPriorityToAccessCategory[8];
extern USHORT RateUpPER[];
extern USHORT RateDownPER[];
extern UCHAR Phy11BNextRateDownward[];
extern UCHAR Phy11BNextRateUpward[];
extern UCHAR Phy11BGNextRateDownward[];
extern UCHAR Phy11BGNextRateUpward[];
extern UCHAR Phy11ANextRateDownward[];
extern UCHAR Phy11ANextRateUpward[];
extern CHAR RssiSafeLevelForTxRate[];
extern UCHAR RateIdToMbps[];
extern USHORT RateIdTo500Kbps[];
extern UCHAR CipherSuiteWpaNoneTkip[];
extern UCHAR CipherSuiteWpaNoneTkipLen;
extern UCHAR CipherSuiteWpaNoneAes[];
extern UCHAR CipherSuiteWpaNoneAesLen;
extern UCHAR SsidIe;
extern UCHAR SupRateIe;
extern UCHAR ExtRateIe;
extern UCHAR HtCapIe;
extern UCHAR AddHtInfoIe;
extern UCHAR NewExtChanIe;
extern UCHAR ErpIe;
extern UCHAR DsIe;
extern UCHAR TimIe;
extern UCHAR WpaIe;
extern UCHAR Wpa2Ie;
extern UCHAR IbssIe;
extern UCHAR Ccx2Ie;
extern UCHAR WPA_OUI[];
extern UCHAR RSN_OUI[];
extern UCHAR WME_INFO_ELEM[];
extern UCHAR WME_PARM_ELEM[];
extern UCHAR Ccx2QosInfo[];
extern UCHAR Ccx2IeInfo[];
extern UCHAR RALINK_OUI[];
extern UCHAR PowerConstraintIE[];
extern UCHAR RateSwitchTable[];
extern UCHAR RateSwitchTable11B[];
extern UCHAR RateSwitchTable11G[];
extern UCHAR RateSwitchTable11BG[];
extern UCHAR RateSwitchTable11BGN1S[];
extern UCHAR RateSwitchTable11BGN2S[];
extern UCHAR RateSwitchTable11BGN2SForABand[];
extern UCHAR RateSwitchTable11N1S[];
extern UCHAR RateSwitchTable11N2S[];
extern UCHAR RateSwitchTable11N2SForABand[];
extern UCHAR PRE_N_HT_OUI[];
#define MAXSEQ (0xFFF)
struct reordering_mpdu
{
struct reordering_mpdu *next;
PNDIS_PACKET pPacket; /* coverted to 802.3 frame */
int Sequence; /* sequence number of MPDU */
BOOLEAN bAMSDU;
};
struct reordering_list
{
struct reordering_mpdu *next;
int qlen;
};
struct reordering_mpdu_pool
{
PVOID mem;
NDIS_SPIN_LOCK lock;
struct reordering_list freelist;
};
typedef struct _RSSI_SAMPLE {
CHAR LastRssi0; // last received RSSI
CHAR LastRssi1; // last received RSSI
CHAR LastRssi2; // last received RSSI
CHAR AvgRssi0;
CHAR AvgRssi1;
CHAR AvgRssi2;
SHORT AvgRssi0X8;
SHORT AvgRssi1X8;
SHORT AvgRssi2X8;
} RSSI_SAMPLE;
//
// Queue structure and macros
//
typedef struct _QUEUE_ENTRY {
struct _QUEUE_ENTRY *Next;
} QUEUE_ENTRY, *PQUEUE_ENTRY;
// Queue structure
typedef struct _QUEUE_HEADER {
PQUEUE_ENTRY Head;
PQUEUE_ENTRY Tail;
ULONG Number;
} QUEUE_HEADER, *PQUEUE_HEADER;
#define InitializeQueueHeader(QueueHeader) \
{ \
(QueueHeader)->Head = (QueueHeader)->Tail = NULL; \
(QueueHeader)->Number = 0; \
}
#define RemoveHeadQueue(QueueHeader) \
(QueueHeader)->Head; \
{ \
PQUEUE_ENTRY pNext; \
if ((QueueHeader)->Head != NULL) \
{ \
pNext = (QueueHeader)->Head->Next; \
(QueueHeader)->Head = pNext; \
if (pNext == NULL) \
(QueueHeader)->Tail = NULL; \
(QueueHeader)->Number--; \
} \
}
#define InsertHeadQueue(QueueHeader, QueueEntry) \
{ \
((PQUEUE_ENTRY)QueueEntry)->Next = (QueueHeader)->Head; \
(QueueHeader)->Head = (PQUEUE_ENTRY)(QueueEntry); \
if ((QueueHeader)->Tail == NULL) \
(QueueHeader)->Tail = (PQUEUE_ENTRY)(QueueEntry); \
(QueueHeader)->Number++; \
}
#define InsertTailQueue(QueueHeader, QueueEntry) \
{ \
((PQUEUE_ENTRY)QueueEntry)->Next = NULL; \
if ((QueueHeader)->Tail) \
(QueueHeader)->Tail->Next = (PQUEUE_ENTRY)(QueueEntry); \
else \
(QueueHeader)->Head = (PQUEUE_ENTRY)(QueueEntry); \
(QueueHeader)->Tail = (PQUEUE_ENTRY)(QueueEntry); \
(QueueHeader)->Number++; \
}
//
// Macros for flag and ref count operations
//
#define RTMP_SET_FLAG(_M, _F) ((_M)->Flags |= (_F))
#define RTMP_CLEAR_FLAG(_M, _F) ((_M)->Flags &= ~(_F))
#define RTMP_CLEAR_FLAGS(_M) ((_M)->Flags = 0)
#define RTMP_TEST_FLAG(_M, _F) (((_M)->Flags & (_F)) != 0)
#define RTMP_TEST_FLAGS(_M, _F) (((_M)->Flags & (_F)) == (_F))
#ifdef RT2860
// Macro for power save flag.
#define RTMP_SET_PSFLAG(_M, _F) ((_M)->PSFlags |= (_F))
#define RTMP_CLEAR_PSFLAG(_M, _F) ((_M)->PSFlags &= ~(_F))
#define RTMP_CLEAR_PSFLAGS(_M) ((_M)->PSFlags = 0)
#define RTMP_TEST_PSFLAG(_M, _F) (((_M)->PSFlags & (_F)) != 0)
#define RTMP_TEST_PSFLAGS(_M, _F) (((_M)->PSFlags & (_F)) == (_F))
#endif
#define OPSTATUS_SET_FLAG(_pAd, _F) ((_pAd)->CommonCfg.OpStatusFlags |= (_F))
#define OPSTATUS_CLEAR_FLAG(_pAd, _F) ((_pAd)->CommonCfg.OpStatusFlags &= ~(_F))
#define OPSTATUS_TEST_FLAG(_pAd, _F) (((_pAd)->CommonCfg.OpStatusFlags & (_F)) != 0)
#define CLIENT_STATUS_SET_FLAG(_pEntry,_F) ((_pEntry)->ClientStatusFlags |= (_F))
#define CLIENT_STATUS_CLEAR_FLAG(_pEntry,_F) ((_pEntry)->ClientStatusFlags &= ~(_F))
#define CLIENT_STATUS_TEST_FLAG(_pEntry,_F) (((_pEntry)->ClientStatusFlags & (_F)) != 0)
#define RX_FILTER_SET_FLAG(_pAd, _F) ((_pAd)->CommonCfg.PacketFilter |= (_F))
#define RX_FILTER_CLEAR_FLAG(_pAd, _F) ((_pAd)->CommonCfg.PacketFilter &= ~(_F))
#define RX_FILTER_TEST_FLAG(_pAd, _F) (((_pAd)->CommonCfg.PacketFilter & (_F)) != 0)
#define STA_NO_SECURITY_ON(_p) (_p->StaCfg.WepStatus == Ndis802_11EncryptionDisabled)
#define STA_WEP_ON(_p) (_p->StaCfg.WepStatus == Ndis802_11Encryption1Enabled)
#define STA_TKIP_ON(_p) (_p->StaCfg.WepStatus == Ndis802_11Encryption2Enabled)
#define STA_AES_ON(_p) (_p->StaCfg.WepStatus == Ndis802_11Encryption3Enabled)
#define STA_TGN_WIFI_ON(_p) (_p->StaCfg.bTGnWifiTest == TRUE)
#define CKIP_KP_ON(_p) ((((_p)->StaCfg.CkipFlag) & 0x10) && ((_p)->StaCfg.bCkipCmicOn == TRUE))
#define CKIP_CMIC_ON(_p) ((((_p)->StaCfg.CkipFlag) & 0x08) && ((_p)->StaCfg.bCkipCmicOn == TRUE))
#define INC_RING_INDEX(_idx, _RingSize) \
{ \
(_idx) = (_idx+1) % (_RingSize); \
}
#ifdef RT2870
// We will have a cost down version which mac version is 0x3090xxxx
#define IS_RT3090(_pAd) ((((_pAd)->MACVersion & 0xffff0000) == 0x30710000) || (((_pAd)->MACVersion & 0xffff0000) == 0x30900000))
#else
#define IS_RT3090(_pAd) 0
#endif
#define IS_RT3070(_pAd) (((_pAd)->MACVersion & 0xffff0000) == 0x30700000)
#ifdef RT2870
#define IS_RT3071(_pAd) (((_pAd)->MACVersion & 0xffff0000) == 0x30710000)
#define IS_RT30xx(_pAd) (((_pAd)->MACVersion & 0xfff00000) == 0x30700000)
#endif
#define RING_PACKET_INIT(_TxRing, _idx) \
{ \
_TxRing->Cell[_idx].pNdisPacket = NULL; \
_TxRing->Cell[_idx].pNextNdisPacket = NULL; \
}
#define TXDT_INIT(_TxD) \
{ \
NdisZeroMemory(_TxD, TXD_SIZE); \
_TxD->DMADONE = 1; \
}
//Set last data segment
#define RING_SET_LASTDS(_TxD, _IsSD0) \
{ \
if (_IsSD0) {_TxD->LastSec0 = 1;} \
else {_TxD->LastSec1 = 1;} \
}
// Increase TxTsc value for next transmission
// TODO:
// When i==6, means TSC has done one full cycle, do re-keying stuff follow specs
// Should send a special event microsoft defined to request re-key
#define INC_TX_TSC(_tsc) \
{ \
int i=0; \
while (++_tsc[i] == 0x0) \
{ \
i++; \
if (i == 6) \
break; \
} \
}
// StaActive.SupportedHtPhy.MCSSet is copied from AP beacon. Don't need to update here.
#define COPY_HTSETTINGS_FROM_MLME_AUX_TO_ACTIVE_CFG(_pAd) \
{ \
_pAd->StaActive.SupportedHtPhy.ChannelWidth = _pAd->MlmeAux.HtCapability.HtCapInfo.ChannelWidth; \
_pAd->StaActive.SupportedHtPhy.MimoPs = _pAd->MlmeAux.HtCapability.HtCapInfo.MimoPs; \
_pAd->StaActive.SupportedHtPhy.GF = _pAd->MlmeAux.HtCapability.HtCapInfo.GF; \
_pAd->StaActive.SupportedHtPhy.ShortGIfor20 = _pAd->MlmeAux.HtCapability.HtCapInfo.ShortGIfor20; \
_pAd->StaActive.SupportedHtPhy.ShortGIfor40 = _pAd->MlmeAux.HtCapability.HtCapInfo.ShortGIfor40; \
_pAd->StaActive.SupportedHtPhy.TxSTBC = _pAd->MlmeAux.HtCapability.HtCapInfo.TxSTBC; \
_pAd->StaActive.SupportedHtPhy.RxSTBC = _pAd->MlmeAux.HtCapability.HtCapInfo.RxSTBC; \
_pAd->StaActive.SupportedHtPhy.ExtChanOffset = _pAd->MlmeAux.AddHtInfo.AddHtInfo.ExtChanOffset; \
_pAd->StaActive.SupportedHtPhy.RecomWidth = _pAd->MlmeAux.AddHtInfo.AddHtInfo.RecomWidth; \
_pAd->StaActive.SupportedHtPhy.OperaionMode = _pAd->MlmeAux.AddHtInfo.AddHtInfo2.OperaionMode; \
_pAd->StaActive.SupportedHtPhy.NonGfPresent = _pAd->MlmeAux.AddHtInfo.AddHtInfo2.NonGfPresent; \
NdisMoveMemory((_pAd)->MacTab.Content[BSSID_WCID].HTCapability.MCSSet, (_pAd)->StaActive.SupportedPhyInfo.MCSSet, sizeof(UCHAR) * 16);\
}
#define COPY_AP_HTSETTINGS_FROM_BEACON(_pAd, _pHtCapability) \
{ \
_pAd->MacTab.Content[BSSID_WCID].AMsduSize = (UCHAR)(_pHtCapability->HtCapInfo.AMsduSize); \
_pAd->MacTab.Content[BSSID_WCID].MmpsMode= (UCHAR)(_pHtCapability->HtCapInfo.MimoPs); \
_pAd->MacTab.Content[BSSID_WCID].MaxRAmpduFactor = (UCHAR)(_pHtCapability->HtCapParm.MaxRAmpduFactor); \
}
//
// MACRO for 32-bit PCI register read / write
//
// Usage : RTMP_IO_READ32(
// PRTMP_ADAPTER pAd,
// ULONG Register_Offset,
// PULONG pValue)
//
// RTMP_IO_WRITE32(
// PRTMP_ADAPTER pAd,
// ULONG Register_Offset,
// ULONG Value)
//
//
// BBP & RF are using indirect access. Before write any value into it.
// We have to make sure there is no outstanding command pending via checking busy bit.
//
#define MAX_BUSY_COUNT 100 // Number of retry before failing access BBP & RF indirect register
//
#ifdef RT2860
#define RTMP_RF_IO_WRITE32(_A, _V) \
{ \
PHY_CSR4_STRUC Value; \
ULONG BusyCnt = 0; \
if ((_A)->bPCIclkOff) \
{ \
return; \
} \
do { \
RTMP_IO_READ32(_A, RF_CSR_CFG0, &Value.word); \
if (Value.field.Busy == IDLE) \
break; \
BusyCnt++; \
} while (BusyCnt < MAX_BUSY_COUNT); \
if (BusyCnt < MAX_BUSY_COUNT) \
{ \
RTMP_IO_WRITE32(_A, RF_CSR_CFG0, _V); \
} \
}
#define BBP_IO_READ8_BY_REG_ID(_A, _I, _pV) \
{ \
BBP_CSR_CFG_STRUC BbpCsr; \
int i, k; \
for (i=0; i<MAX_BUSY_COUNT; i++) \
{ \
RTMP_IO_READ32(_A, BBP_CSR_CFG, &BbpCsr.word); \
if (BbpCsr.field.Busy == BUSY) \
{ \
continue; \
} \
BbpCsr.word = 0; \
BbpCsr.field.fRead = 1; \
BbpCsr.field.BBP_RW_MODE = 1; \
BbpCsr.field.Busy = 1; \
BbpCsr.field.RegNum = _I; \
RTMP_IO_WRITE32(_A, BBP_CSR_CFG, BbpCsr.word); \
for (k=0; k<MAX_BUSY_COUNT; k++) \
{ \
RTMP_IO_READ32(_A, BBP_CSR_CFG, &BbpCsr.word); \
if (BbpCsr.field.Busy == IDLE) \
break; \
} \
if ((BbpCsr.field.Busy == IDLE) && \
(BbpCsr.field.RegNum == _I)) \
{ \
*(_pV) = (UCHAR)BbpCsr.field.Value; \
break; \
} \
} \
if (BbpCsr.field.Busy == BUSY) \
{ \
DBGPRINT_ERR(("DFS BBP read R%d fail\n", _I)); \
*(_pV) = (_A)->BbpWriteLatch[_I]; \
} \
}
//#define RTMP_BBP_IO_READ8_BY_REG_ID(_A, _I, _pV) {}
// Read BBP register by register's ID. Generate PER to test BA
#define RTMP_BBP_IO_READ8_BY_REG_ID(_A, _I, _pV) \
{ \
BBP_CSR_CFG_STRUC BbpCsr; \
int i, k; \
if ((_A)->bPCIclkOff == FALSE) \
{ \
for (i=0; i<MAX_BUSY_COUNT; i++) \
{ \
RTMP_IO_READ32(_A, H2M_BBP_AGENT, &BbpCsr.word); \
if (BbpCsr.field.Busy == BUSY) \
{ \
continue; \
} \
BbpCsr.word = 0; \
BbpCsr.field.fRead = 1; \
BbpCsr.field.BBP_RW_MODE = 1; \
BbpCsr.field.Busy = 1; \
BbpCsr.field.RegNum = _I; \
RTMP_IO_WRITE32(_A, H2M_BBP_AGENT, BbpCsr.word); \
AsicSendCommandToMcu(_A, 0x80, 0xff, 0x0, 0x0); \
RTMPusecDelay(1000); \
for (k=0; k<MAX_BUSY_COUNT; k++) \
{ \
RTMP_IO_READ32(_A, H2M_BBP_AGENT, &BbpCsr.word); \
if (BbpCsr.field.Busy == IDLE) \
break; \
} \
if ((BbpCsr.field.Busy == IDLE) && \
(BbpCsr.field.RegNum == _I)) \
{ \
*(_pV) = (UCHAR)BbpCsr.field.Value; \
break; \
} \
} \
if (BbpCsr.field.Busy == BUSY) \
{ \
DBGPRINT_ERR(("BBP read R%d=0x%x fail\n", _I, BbpCsr.word)); \
*(_pV) = (_A)->BbpWriteLatch[_I]; \
RTMP_IO_READ32(_A, H2M_BBP_AGENT, &BbpCsr.word); \
BbpCsr.field.Busy = 0; \
RTMP_IO_WRITE32(_A, H2M_BBP_AGENT, BbpCsr.word); \
} \
} \
}
#define BBP_IO_WRITE8_BY_REG_ID(_A, _I, _V) \
{ \
BBP_CSR_CFG_STRUC BbpCsr; \
int BusyCnt; \
for (BusyCnt=0; BusyCnt<MAX_BUSY_COUNT; BusyCnt++) \
{ \
RTMP_IO_READ32(_A, BBP_CSR_CFG, &BbpCsr.word); \
if (BbpCsr.field.Busy == BUSY) \
continue; \
BbpCsr.word = 0; \
BbpCsr.field.fRead = 0; \
BbpCsr.field.BBP_RW_MODE = 1; \
BbpCsr.field.Busy = 1; \
BbpCsr.field.Value = _V; \
BbpCsr.field.RegNum = _I; \
RTMP_IO_WRITE32(_A, BBP_CSR_CFG, BbpCsr.word); \
(_A)->BbpWriteLatch[_I] = _V; \
break; \
} \
if (BusyCnt == MAX_BUSY_COUNT) \
{ \
DBGPRINT_ERR(("BBP write R%d fail\n", _I)); \
} \
}
// Write BBP register by register's ID & value
#define RTMP_BBP_IO_WRITE8_BY_REG_ID(_A, _I, _V) \
{ \
BBP_CSR_CFG_STRUC BbpCsr; \
int BusyCnt; \
if ((_A)->bPCIclkOff == FALSE) \
{ \
for (BusyCnt=0; BusyCnt<MAX_BUSY_COUNT; BusyCnt++) \
{ \
RTMP_IO_READ32(_A, H2M_BBP_AGENT, &BbpCsr.word); \
if (BbpCsr.field.Busy == BUSY) \
continue; \
BbpCsr.word = 0; \
BbpCsr.field.fRead = 0; \
BbpCsr.field.BBP_RW_MODE = 1; \
BbpCsr.field.Busy = 1; \
BbpCsr.field.Value = _V; \
BbpCsr.field.RegNum = _I; \
RTMP_IO_WRITE32(_A, H2M_BBP_AGENT, BbpCsr.word); \
AsicSendCommandToMcu(_A, 0x80, 0xff, 0x0, 0x0); \
if (_A->OpMode == OPMODE_AP) \
RTMPusecDelay(1000); \
(_A)->BbpWriteLatch[_I] = _V; \
break; \
} \
if (BusyCnt == MAX_BUSY_COUNT) \
{ \
DBGPRINT_ERR(("BBP write R%d=0x%x fail\n", _I, BbpCsr.word)); \
RTMP_IO_READ32(_A, H2M_BBP_AGENT, &BbpCsr.word); \
BbpCsr.field.Busy = 0; \
RTMP_IO_WRITE32(_A, H2M_BBP_AGENT, BbpCsr.word); \
} \
} \
}
#endif /* RT2860 */
#ifdef RT2870
#define RTMP_RF_IO_WRITE32(_A, _V) RTUSBWriteRFRegister(_A, _V)
#define RTMP_BBP_IO_READ8_BY_REG_ID(_A, _I, _pV) RTUSBReadBBPRegister(_A, _I, _pV)
#define RTMP_BBP_IO_WRITE8_BY_REG_ID(_A, _I, _V) RTUSBWriteBBPRegister(_A, _I, _V)
#define BBP_IO_WRITE8_BY_REG_ID(_A, _I, _V) RTUSBWriteBBPRegister(_A, _I, _V)
#define BBP_IO_READ8_BY_REG_ID(_A, _I, _pV) RTUSBReadBBPRegister(_A, _I, _pV)
#endif // RT2870 //
#define MAP_CHANNEL_ID_TO_KHZ(ch, khz) { \
switch (ch) \
{ \
case 1: khz = 2412000; break; \
case 2: khz = 2417000; break; \
case 3: khz = 2422000; break; \
case 4: khz = 2427000; break; \
case 5: khz = 2432000; break; \
case 6: khz = 2437000; break; \
case 7: khz = 2442000; break; \
case 8: khz = 2447000; break; \
case 9: khz = 2452000; break; \
case 10: khz = 2457000; break; \
case 11: khz = 2462000; break; \
case 12: khz = 2467000; break; \
case 13: khz = 2472000; break; \
case 14: khz = 2484000; break; \
case 36: /* UNII */ khz = 5180000; break; \
case 40: /* UNII */ khz = 5200000; break; \
case 44: /* UNII */ khz = 5220000; break; \
case 48: /* UNII */ khz = 5240000; break; \
case 52: /* UNII */ khz = 5260000; break; \
case 56: /* UNII */ khz = 5280000; break; \
case 60: /* UNII */ khz = 5300000; break; \
case 64: /* UNII */ khz = 5320000; break; \
case 149: /* UNII */ khz = 5745000; break; \
case 153: /* UNII */ khz = 5765000; break; \
case 157: /* UNII */ khz = 5785000; break; \
case 161: /* UNII */ khz = 5805000; break; \
case 165: /* UNII */ khz = 5825000; break; \
case 100: /* HiperLAN2 */ khz = 5500000; break; \
case 104: /* HiperLAN2 */ khz = 5520000; break; \
case 108: /* HiperLAN2 */ khz = 5540000; break; \
case 112: /* HiperLAN2 */ khz = 5560000; break; \
case 116: /* HiperLAN2 */ khz = 5580000; break; \
case 120: /* HiperLAN2 */ khz = 5600000; break; \
case 124: /* HiperLAN2 */ khz = 5620000; break; \
case 128: /* HiperLAN2 */ khz = 5640000; break; \
case 132: /* HiperLAN2 */ khz = 5660000; break; \
case 136: /* HiperLAN2 */ khz = 5680000; break; \
case 140: /* HiperLAN2 */ khz = 5700000; break; \
case 34: /* Japan MMAC */ khz = 5170000; break; \
case 38: /* Japan MMAC */ khz = 5190000; break; \
case 42: /* Japan MMAC */ khz = 5210000; break; \
case 46: /* Japan MMAC */ khz = 5230000; break; \
case 184: /* Japan */ khz = 4920000; break; \
case 188: /* Japan */ khz = 4940000; break; \
case 192: /* Japan */ khz = 4960000; break; \
case 196: /* Japan */ khz = 4980000; break; \
case 208: /* Japan, means J08 */ khz = 5040000; break; \
case 212: /* Japan, means J12 */ khz = 5060000; break; \
case 216: /* Japan, means J16 */ khz = 5080000; break; \
default: khz = 2412000; break; \
} \
}
#define MAP_KHZ_TO_CHANNEL_ID(khz, ch) { \
switch (khz) \
{ \
case 2412000: ch = 1; break; \
case 2417000: ch = 2; break; \
case 2422000: ch = 3; break; \
case 2427000: ch = 4; break; \
case 2432000: ch = 5; break; \
case 2437000: ch = 6; break; \
case 2442000: ch = 7; break; \
case 2447000: ch = 8; break; \
case 2452000: ch = 9; break; \
case 2457000: ch = 10; break; \
case 2462000: ch = 11; break; \
case 2467000: ch = 12; break; \
case 2472000: ch = 13; break; \
case 2484000: ch = 14; break; \
case 5180000: ch = 36; /* UNII */ break; \
case 5200000: ch = 40; /* UNII */ break; \
case 5220000: ch = 44; /* UNII */ break; \
case 5240000: ch = 48; /* UNII */ break; \
case 5260000: ch = 52; /* UNII */ break; \
case 5280000: ch = 56; /* UNII */ break; \
case 5300000: ch = 60; /* UNII */ break; \
case 5320000: ch = 64; /* UNII */ break; \
case 5745000: ch = 149; /* UNII */ break; \
case 5765000: ch = 153; /* UNII */ break; \
case 5785000: ch = 157; /* UNII */ break; \
case 5805000: ch = 161; /* UNII */ break; \
case 5825000: ch = 165; /* UNII */ break; \
case 5500000: ch = 100; /* HiperLAN2 */ break; \
case 5520000: ch = 104; /* HiperLAN2 */ break; \
case 5540000: ch = 108; /* HiperLAN2 */ break; \
case 5560000: ch = 112; /* HiperLAN2 */ break; \
case 5580000: ch = 116; /* HiperLAN2 */ break; \
case 5600000: ch = 120; /* HiperLAN2 */ break; \
case 5620000: ch = 124; /* HiperLAN2 */ break; \
case 5640000: ch = 128; /* HiperLAN2 */ break; \
case 5660000: ch = 132; /* HiperLAN2 */ break; \
case 5680000: ch = 136; /* HiperLAN2 */ break; \
case 5700000: ch = 140; /* HiperLAN2 */ break; \
case 5170000: ch = 34; /* Japan MMAC */ break; \
case 5190000: ch = 38; /* Japan MMAC */ break; \
case 5210000: ch = 42; /* Japan MMAC */ break; \
case 5230000: ch = 46; /* Japan MMAC */ break; \
case 4920000: ch = 184; /* Japan */ break; \
case 4940000: ch = 188; /* Japan */ break; \
case 4960000: ch = 192; /* Japan */ break; \
case 4980000: ch = 196; /* Japan */ break; \
case 5040000: ch = 208; /* Japan, means J08 */ break; \
case 5060000: ch = 212; /* Japan, means J12 */ break; \
case 5080000: ch = 216; /* Japan, means J16 */ break; \
default: ch = 1; break; \
} \
}
//
// Common fragment list structure - Identical to the scatter gather frag list structure
//
#define NIC_MAX_PHYS_BUF_COUNT 8
typedef struct _RTMP_SCATTER_GATHER_ELEMENT {
PVOID Address;
ULONG Length;
PULONG Reserved;
} RTMP_SCATTER_GATHER_ELEMENT, *PRTMP_SCATTER_GATHER_ELEMENT;
typedef struct _RTMP_SCATTER_GATHER_LIST {
ULONG NumberOfElements;
PULONG Reserved;
RTMP_SCATTER_GATHER_ELEMENT Elements[NIC_MAX_PHYS_BUF_COUNT];
} RTMP_SCATTER_GATHER_LIST, *PRTMP_SCATTER_GATHER_LIST;
//
// Some utility macros
//
#ifndef min
#define min(_a, _b) (((_a) < (_b)) ? (_a) : (_b))
#endif
#ifndef max
#define max(_a, _b) (((_a) > (_b)) ? (_a) : (_b))
#endif
#define GET_LNA_GAIN(_pAd) ((_pAd->LatchRfRegs.Channel <= 14) ? (_pAd->BLNAGain) : ((_pAd->LatchRfRegs.Channel <= 64) ? (_pAd->ALNAGain0) : ((_pAd->LatchRfRegs.Channel <= 128) ? (_pAd->ALNAGain1) : (_pAd->ALNAGain2))))
#define INC_COUNTER64(Val) (Val.QuadPart++)
#define INFRA_ON(_p) (OPSTATUS_TEST_FLAG(_p, fOP_STATUS_INFRA_ON))
#define ADHOC_ON(_p) (OPSTATUS_TEST_FLAG(_p, fOP_STATUS_ADHOC_ON))
#define MONITOR_ON(_p) (((_p)->StaCfg.BssType) == BSS_MONITOR)
#define IDLE_ON(_p) (!INFRA_ON(_p) && !ADHOC_ON(_p))
// Check LEAP & CCKM flags
#define LEAP_ON(_p) (((_p)->StaCfg.LeapAuthMode) == CISCO_AuthModeLEAP)
#define LEAP_CCKM_ON(_p) ((((_p)->StaCfg.LeapAuthMode) == CISCO_AuthModeLEAP) && ((_p)->StaCfg.LeapAuthInfo.CCKM == TRUE))
// if orginal Ethernet frame contains no LLC/SNAP, then an extra LLC/SNAP encap is required
#define EXTRA_LLCSNAP_ENCAP_FROM_PKT_START(_pBufVA, _pExtraLlcSnapEncap) \
{ \
if (((*(_pBufVA + 12) << 8) + *(_pBufVA + 13)) > 1500) \
{ \
_pExtraLlcSnapEncap = SNAP_802_1H; \
if (NdisEqualMemory(IPX, _pBufVA + 12, 2) || \
NdisEqualMemory(APPLE_TALK, _pBufVA + 12, 2)) \
{ \
_pExtraLlcSnapEncap = SNAP_BRIDGE_TUNNEL; \
} \
} \
else \
{ \
_pExtraLlcSnapEncap = NULL; \
} \
}
// New Define for new Tx Path.
#define EXTRA_LLCSNAP_ENCAP_FROM_PKT_OFFSET(_pBufVA, _pExtraLlcSnapEncap) \
{ \
if (((*(_pBufVA) << 8) + *(_pBufVA + 1)) > 1500) \
{ \
_pExtraLlcSnapEncap = SNAP_802_1H; \
if (NdisEqualMemory(IPX, _pBufVA, 2) || \
NdisEqualMemory(APPLE_TALK, _pBufVA, 2)) \
{ \
_pExtraLlcSnapEncap = SNAP_BRIDGE_TUNNEL; \
} \
} \
else \
{ \
_pExtraLlcSnapEncap = NULL; \
} \
}
#define MAKE_802_3_HEADER(_p, _pMac1, _pMac2, _pType) \
{ \
NdisMoveMemory(_p, _pMac1, MAC_ADDR_LEN); \
NdisMoveMemory((_p + MAC_ADDR_LEN), _pMac2, MAC_ADDR_LEN); \
NdisMoveMemory((_p + MAC_ADDR_LEN * 2), _pType, LENGTH_802_3_TYPE); \
}
// if pData has no LLC/SNAP (neither RFC1042 nor Bridge tunnel), keep it that way.
// else if the received frame is LLC/SNAP-encaped IPX or APPLETALK, preserve the LLC/SNAP field
// else remove the LLC/SNAP field from the result Ethernet frame
// Patch for WHQL only, which did not turn on Netbios but use IPX within its payload
// Note:
// _pData & _DataSize may be altered (remove 8-byte LLC/SNAP) by this MACRO
// _pRemovedLLCSNAP: pointer to removed LLC/SNAP; NULL is not removed
#define CONVERT_TO_802_3(_p8023hdr, _pDA, _pSA, _pData, _DataSize, _pRemovedLLCSNAP) \
{ \
char LLC_Len[2]; \
\
_pRemovedLLCSNAP = NULL; \
if (NdisEqualMemory(SNAP_802_1H, _pData, 6) || \
NdisEqualMemory(SNAP_BRIDGE_TUNNEL, _pData, 6)) \
{ \
PUCHAR pProto = _pData + 6; \
\
if ((NdisEqualMemory(IPX, pProto, 2) || NdisEqualMemory(APPLE_TALK, pProto, 2)) && \
NdisEqualMemory(SNAP_802_1H, _pData, 6)) \
{ \
LLC_Len[0] = (UCHAR)(_DataSize / 256); \
LLC_Len[1] = (UCHAR)(_DataSize % 256); \
MAKE_802_3_HEADER(_p8023hdr, _pDA, _pSA, LLC_Len); \
} \
else \
{ \
MAKE_802_3_HEADER(_p8023hdr, _pDA, _pSA, pProto); \
_pRemovedLLCSNAP = _pData; \
_DataSize -= LENGTH_802_1_H; \
_pData += LENGTH_802_1_H; \
} \
} \
else \
{ \
LLC_Len[0] = (UCHAR)(_DataSize / 256); \
LLC_Len[1] = (UCHAR)(_DataSize % 256); \
MAKE_802_3_HEADER(_p8023hdr, _pDA, _pSA, LLC_Len); \
} \
}
#define SWITCH_AB( _pAA, _pBB) \
{ \
PVOID pCC; \
pCC = _pBB; \
_pBB = _pAA; \
_pAA = pCC; \
}
// Enqueue this frame to MLME engine
// We need to enqueue the whole frame because MLME need to pass data type
// information from 802.11 header
#ifdef RT2860
#define REPORT_MGMT_FRAME_TO_MLME(_pAd, Wcid, _pFrame, _FrameSize, _Rssi0, _Rssi1, _Rssi2, _PlcpSignal) \
{ \
UINT32 High32TSF, Low32TSF; \
RTMP_IO_READ32(_pAd, TSF_TIMER_DW1, &High32TSF); \
RTMP_IO_READ32(_pAd, TSF_TIMER_DW0, &Low32TSF); \
MlmeEnqueueForRecv(_pAd, Wcid, High32TSF, Low32TSF, (UCHAR)_Rssi0, (UCHAR)_Rssi1,(UCHAR)_Rssi2,_FrameSize, _pFrame, (UCHAR)_PlcpSignal); \
}
#endif
#ifdef RT2870
#define REPORT_MGMT_FRAME_TO_MLME(_pAd, Wcid, _pFrame, _FrameSize, _Rssi0, _Rssi1, _Rssi2, _PlcpSignal) \
{ \
UINT32 High32TSF=0, Low32TSF=0; \
MlmeEnqueueForRecv(_pAd, Wcid, High32TSF, Low32TSF, (UCHAR)_Rssi0, (UCHAR)_Rssi1,(UCHAR)_Rssi2,_FrameSize, _pFrame, (UCHAR)_PlcpSignal); \
}
#endif // RT2870 //
//Need to collect each ant's rssi concurrently
//rssi1 is report to pair2 Ant and rss2 is reprot to pair1 Ant when 4 Ant
#define COLLECT_RX_ANTENNA_AVERAGE_RSSI(_pAd, _rssi1, _rssi2) \
{ \
SHORT AvgRssi; \
UCHAR UsedAnt; \
if (_pAd->RxAnt.EvaluatePeriod == 0) \
{ \
UsedAnt = _pAd->RxAnt.Pair1PrimaryRxAnt; \
AvgRssi = _pAd->RxAnt.Pair1AvgRssi[UsedAnt]; \
if (AvgRssi < 0) \
AvgRssi = AvgRssi - (AvgRssi >> 3) + _rssi1; \
else \
AvgRssi = _rssi1 << 3; \
_pAd->RxAnt.Pair1AvgRssi[UsedAnt] = AvgRssi; \
} \
else \
{ \
UsedAnt = _pAd->RxAnt.Pair1SecondaryRxAnt; \
AvgRssi = _pAd->RxAnt.Pair1AvgRssi[UsedAnt]; \
if ((AvgRssi < 0) && (_pAd->RxAnt.FirstPktArrivedWhenEvaluate)) \
AvgRssi = AvgRssi - (AvgRssi >> 3) + _rssi1; \
else \
{ \
_pAd->RxAnt.FirstPktArrivedWhenEvaluate = TRUE; \
AvgRssi = _rssi1 << 3; \
} \
_pAd->RxAnt.Pair1AvgRssi[UsedAnt] = AvgRssi; \
_pAd->RxAnt.RcvPktNumWhenEvaluate++; \
} \
}
#define NDIS_QUERY_BUFFER(_NdisBuf, _ppVA, _pBufLen) \
NdisQueryBuffer(_NdisBuf, _ppVA, _pBufLen)
#define MAC_ADDR_EQUAL(pAddr1,pAddr2) RTMPEqualMemory((PVOID)(pAddr1), (PVOID)(pAddr2), MAC_ADDR_LEN)
#define SSID_EQUAL(ssid1, len1, ssid2, len2) ((len1==len2) && (RTMPEqualMemory(ssid1, ssid2, len1)))
//
// Check if it is Japan W53(ch52,56,60,64) channel.
//
#define JapanChannelCheck(channel) ((channel == 52) || (channel == 56) || (channel == 60) || (channel == 64))
#ifdef RT2860
#define STA_PORT_SECURED(_pAd) \
{ \
_pAd->StaCfg.PortSecured = WPA_802_1X_PORT_SECURED; \
RTMP_SET_PSFLAG(_pAd, fRTMP_PS_CAN_GO_SLEEP); \
NdisAcquireSpinLock(&(_pAd)->MacTabLock); \
_pAd->MacTab.Content[BSSID_WCID].PortSecured = _pAd->StaCfg.PortSecured; \
NdisReleaseSpinLock(&(_pAd)->MacTabLock); \
}
#endif
#ifdef RT2870
#define STA_PORT_SECURED(_pAd) \
{ \
_pAd->StaCfg.PortSecured = WPA_802_1X_PORT_SECURED; \
NdisAcquireSpinLock(&_pAd->MacTabLock); \
_pAd->MacTab.Content[BSSID_WCID].PortSecured = _pAd->StaCfg.PortSecured; \
NdisReleaseSpinLock(&_pAd->MacTabLock); \
}
#endif
//
// Register set pair for initialzation register set definition
//
typedef struct _RTMP_REG_PAIR
{
ULONG Register;
ULONG Value;
} RTMP_REG_PAIR, *PRTMP_REG_PAIR;
typedef struct _REG_PAIR
{
UCHAR Register;
UCHAR Value;
} REG_PAIR, *PREG_PAIR;
//
// Register set pair for initialzation register set definition
//
typedef struct _RTMP_RF_REGS
{
UCHAR Channel;
ULONG R1;
ULONG R2;
ULONG R3;
ULONG R4;
} RTMP_RF_REGS, *PRTMP_RF_REGS;
typedef struct _FREQUENCY_ITEM {
UCHAR Channel;
UCHAR N;
UCHAR R;
UCHAR K;
} FREQUENCY_ITEM, *PFREQUENCY_ITEM;
//
// Data buffer for DMA operation, the buffer must be contiguous physical memory
// Both DMA to / from CPU use the same structure.
//
typedef struct _RTMP_DMABUF
{
ULONG AllocSize;
PVOID AllocVa; // TxBuf virtual address
NDIS_PHYSICAL_ADDRESS AllocPa; // TxBuf physical address
} RTMP_DMABUF, *PRTMP_DMABUF;
typedef union _HEADER_802_11_SEQ{
struct {
USHORT Frag:4;
USHORT Sequence:12;
} field;
USHORT value;
} HEADER_802_11_SEQ, *PHEADER_802_11_SEQ;
//
// Data buffer for DMA operation, the buffer must be contiguous physical memory
// Both DMA to / from CPU use the same structure.
//
typedef struct _RTMP_REORDERBUF
{
BOOLEAN IsFull;
PVOID AllocVa; // TxBuf virtual address
UCHAR Header802_3[14];
HEADER_802_11_SEQ Sequence; //support compressed bitmap BA, so no consider fragment in BA
UCHAR DataOffset;
USHORT Datasize;
ULONG AllocSize;
#ifdef RT2860
NDIS_PHYSICAL_ADDRESS AllocPa; // TxBuf physical address
#endif
#ifdef RT2870
PUCHAR AllocPa;
#endif // RT2870 //
} RTMP_REORDERBUF, *PRTMP_REORDERBUF;
//
// Control block (Descriptor) for all ring descriptor DMA operation, buffer must be
// contiguous physical memory. NDIS_PACKET stored the binding Rx packet descriptor
// which won't be released, driver has to wait until upper layer return the packet
// before giveing up this rx ring descriptor to ASIC. NDIS_BUFFER is assocaited pair
// to describe the packet buffer. For Tx, NDIS_PACKET stored the tx packet descriptor
// which driver should ACK upper layer when the tx is physically done or failed.
//
typedef struct _RTMP_DMACB
{
ULONG AllocSize; // Control block size
PVOID AllocVa; // Control block virtual address
NDIS_PHYSICAL_ADDRESS AllocPa; // Control block physical address
PNDIS_PACKET pNdisPacket;
PNDIS_PACKET pNextNdisPacket;
RTMP_DMABUF DmaBuf; // Associated DMA buffer structure
} RTMP_DMACB, *PRTMP_DMACB;
typedef struct _RTMP_TX_BUF
{
PQUEUE_ENTRY Next;
UCHAR Index;
ULONG AllocSize; // Control block size
PVOID AllocVa; // Control block virtual address
NDIS_PHYSICAL_ADDRESS AllocPa; // Control block physical address
} RTMP_TXBUF, *PRTMP_TXBUF;
typedef struct _RTMP_RX_BUF
{
BOOLEAN InUse;
ULONG ByBaRecIndex;
RTMP_REORDERBUF MAP_RXBuf[MAX_RX_REORDERBUF];
} RTMP_RXBUF, *PRTMP_RXBUF;
typedef struct _RTMP_TX_RING
{
RTMP_DMACB Cell[TX_RING_SIZE];
UINT32 TxCpuIdx;
UINT32 TxDmaIdx;
UINT32 TxSwFreeIdx; // software next free tx index
} RTMP_TX_RING, *PRTMP_TX_RING;
typedef struct _RTMP_RX_RING
{
RTMP_DMACB Cell[RX_RING_SIZE];
UINT32 RxCpuIdx;
UINT32 RxDmaIdx;
INT32 RxSwReadIdx; // software next read index
} RTMP_RX_RING, *PRTMP_RX_RING;
typedef struct _RTMP_MGMT_RING
{
RTMP_DMACB Cell[MGMT_RING_SIZE];
UINT32 TxCpuIdx;
UINT32 TxDmaIdx;
UINT32 TxSwFreeIdx; // software next free tx index
} RTMP_MGMT_RING, *PRTMP_MGMT_RING;
//
// Statistic counter structure
//
typedef struct _COUNTER_802_3
{
// General Stats
ULONG GoodTransmits;
ULONG GoodReceives;
ULONG TxErrors;
ULONG RxErrors;
ULONG RxNoBuffer;
// Ethernet Stats
ULONG RcvAlignmentErrors;
ULONG OneCollision;
ULONG MoreCollisions;
} COUNTER_802_3, *PCOUNTER_802_3;
typedef struct _COUNTER_802_11 {
ULONG Length;
LARGE_INTEGER LastTransmittedFragmentCount;
LARGE_INTEGER TransmittedFragmentCount;
LARGE_INTEGER MulticastTransmittedFrameCount;
LARGE_INTEGER FailedCount;
LARGE_INTEGER RetryCount;
LARGE_INTEGER MultipleRetryCount;
LARGE_INTEGER RTSSuccessCount;
LARGE_INTEGER RTSFailureCount;
LARGE_INTEGER ACKFailureCount;
LARGE_INTEGER FrameDuplicateCount;
LARGE_INTEGER ReceivedFragmentCount;
LARGE_INTEGER MulticastReceivedFrameCount;
LARGE_INTEGER FCSErrorCount;
} COUNTER_802_11, *PCOUNTER_802_11;
typedef struct _COUNTER_RALINK {
ULONG TransmittedByteCount; // both successful and failure, used to calculate TX throughput
#ifdef RT2860
ULONG LastReceivedByteCount;
#endif
ULONG ReceivedByteCount; // both CRC okay and CRC error, used to calculate RX throughput
ULONG BeenDisassociatedCount;
ULONG BadCQIAutoRecoveryCount;
ULONG PoorCQIRoamingCount;
ULONG MgmtRingFullCount;
ULONG RxCountSinceLastNULL;
ULONG RxCount;
ULONG RxRingErrCount;
ULONG KickTxCount;
ULONG TxRingErrCount;
LARGE_INTEGER RealFcsErrCount;
ULONG PendingNdisPacketCount;
ULONG OneSecOsTxCount[NUM_OF_TX_RING];
ULONG OneSecDmaDoneCount[NUM_OF_TX_RING];
UINT32 OneSecTxDoneCount;
ULONG OneSecRxCount;
UINT32 OneSecTxAggregationCount;
UINT32 OneSecRxAggregationCount;
UINT32 OneSecFrameDuplicateCount;
#ifdef RT2870
ULONG OneSecTransmittedByteCount; // both successful and failure, used to calculate TX throughput
#endif // RT2870 //
UINT32 OneSecTxNoRetryOkCount;
UINT32 OneSecTxRetryOkCount;
UINT32 OneSecTxFailCount;
UINT32 OneSecFalseCCACnt; // CCA error count, for debug purpose, might move to global counter
UINT32 OneSecRxOkCnt; // RX without error
UINT32 OneSecRxOkDataCnt; // unicast-to-me DATA frame count
UINT32 OneSecRxFcsErrCnt; // CRC error
UINT32 OneSecBeaconSentCnt;
UINT32 LastOneSecTotalTxCount; // OneSecTxNoRetryOkCount + OneSecTxRetryOkCount + OneSecTxFailCount
UINT32 LastOneSecRxOkDataCnt; // OneSecRxOkDataCnt
ULONG DuplicateRcv;
ULONG TxAggCount;
ULONG TxNonAggCount;
ULONG TxAgg1MPDUCount;
ULONG TxAgg2MPDUCount;
ULONG TxAgg3MPDUCount;
ULONG TxAgg4MPDUCount;
ULONG TxAgg5MPDUCount;
ULONG TxAgg6MPDUCount;
ULONG TxAgg7MPDUCount;
ULONG TxAgg8MPDUCount;
ULONG TxAgg9MPDUCount;
ULONG TxAgg10MPDUCount;
ULONG TxAgg11MPDUCount;
ULONG TxAgg12MPDUCount;
ULONG TxAgg13MPDUCount;
ULONG TxAgg14MPDUCount;
ULONG TxAgg15MPDUCount;
ULONG TxAgg16MPDUCount;
LARGE_INTEGER TransmittedOctetsInAMSDU;
LARGE_INTEGER TransmittedAMSDUCount;
LARGE_INTEGER ReceivedOctesInAMSDUCount;
LARGE_INTEGER ReceivedAMSDUCount;
LARGE_INTEGER TransmittedAMPDUCount;
LARGE_INTEGER TransmittedMPDUsInAMPDUCount;
LARGE_INTEGER TransmittedOctetsInAMPDUCount;
LARGE_INTEGER MPDUInReceivedAMPDUCount;
} COUNTER_RALINK, *PCOUNTER_RALINK;
typedef struct _PID_COUNTER {
ULONG TxAckRequiredCount; // CRC error
ULONG TxAggreCount;
ULONG TxSuccessCount; // OneSecTxNoRetryOkCount + OneSecTxRetryOkCount + OneSecTxFailCount
ULONG LastSuccessRate;
} PID_COUNTER, *PPID_COUNTER;
typedef struct _COUNTER_DRS {
// to record the each TX rate's quality. 0 is best, the bigger the worse.
USHORT TxQuality[MAX_STEP_OF_TX_RATE_SWITCH];
UCHAR PER[MAX_STEP_OF_TX_RATE_SWITCH];
UCHAR TxRateUpPenalty; // extra # of second penalty due to last unstable condition
ULONG CurrTxRateStableTime; // # of second in current TX rate
BOOLEAN fNoisyEnvironment;
BOOLEAN fLastSecAccordingRSSI;
UCHAR LastSecTxRateChangeAction; // 0: no change, 1:rate UP, 2:rate down
UCHAR LastTimeTxRateChangeAction; //Keep last time value of LastSecTxRateChangeAction
ULONG LastTxOkCount;
} COUNTER_DRS, *PCOUNTER_DRS;
//
// Arcfour Structure Added by PaulWu
//
typedef struct _ARCFOUR
{
UINT X;
UINT Y;
UCHAR STATE[256];
} ARCFOURCONTEXT, *PARCFOURCONTEXT;
// MIMO Tx parameter, ShortGI, MCS, STBC, etc. these are fields in TXWI too. just copy to TXWI.
typedef struct _RECEIVE_SETTING {
USHORT NumOfRX:2; // MIMO. WE HAVE 3R
USHORT Mode:2; //channel bandwidth 20MHz or 40 MHz
USHORT ShortGI:1;
USHORT STBC:2; //SPACE
USHORT rsv:3;
USHORT OFDM:1;
USHORT MIMO:1;
} RECEIVE_SETTING, *PRECEIVE_SETTING;
// Shared key data structure
typedef struct _WEP_KEY {
UCHAR KeyLen; // Key length for each key, 0: entry is invalid
UCHAR Key[MAX_LEN_OF_KEY]; // right now we implement 4 keys, 128 bits max
} WEP_KEY, *PWEP_KEY;
typedef struct _CIPHER_KEY {
UCHAR Key[16]; // right now we implement 4 keys, 128 bits max
UCHAR RxMic[8]; // make alignment
UCHAR TxMic[8];
UCHAR TxTsc[6]; // 48bit TSC value
UCHAR RxTsc[6]; // 48bit TSC value
UCHAR CipherAlg; // 0-none, 1:WEP64, 2:WEP128, 3:TKIP, 4:AES, 5:CKIP64, 6:CKIP128
UCHAR KeyLen;
UCHAR BssId[6];
// Key length for each key, 0: entry is invalid
UCHAR Type; // Indicate Pairwise/Group when reporting MIC error
} CIPHER_KEY, *PCIPHER_KEY;
typedef struct _BBP_TUNING_STRUCT {
BOOLEAN Enable;
UCHAR FalseCcaCountUpperBound; // 100 per sec
UCHAR FalseCcaCountLowerBound; // 10 per sec
UCHAR R17LowerBound; // specified in E2PROM
UCHAR R17UpperBound; // 0x68 according to David Tung
UCHAR CurrentR17Value;
} BBP_TUNING, *PBBP_TUNING;
typedef struct _SOFT_RX_ANT_DIVERSITY_STRUCT {
UCHAR EvaluatePeriod; // 0:not evalute status, 1: evaluate status, 2: switching status
#ifdef RT2870
UCHAR EvaluateStableCnt;
#endif
UCHAR Pair1PrimaryRxAnt; // 0:Ant-E1, 1:Ant-E2
UCHAR Pair1SecondaryRxAnt; // 0:Ant-E1, 1:Ant-E2
UCHAR Pair2PrimaryRxAnt; // 0:Ant-E3, 1:Ant-E4
UCHAR Pair2SecondaryRxAnt; // 0:Ant-E3, 1:Ant-E4
SHORT Pair1AvgRssi[2]; // AvgRssi[0]:E1, AvgRssi[1]:E2
SHORT Pair2AvgRssi[2]; // AvgRssi[0]:E3, AvgRssi[1]:E4
SHORT Pair1LastAvgRssi; //
SHORT Pair2LastAvgRssi; //
ULONG RcvPktNumWhenEvaluate;
BOOLEAN FirstPktArrivedWhenEvaluate;
RALINK_TIMER_STRUCT RxAntDiversityTimer;
} SOFT_RX_ANT_DIVERSITY, *PSOFT_RX_ANT_DIVERSITY;
typedef struct _LEAP_AUTH_INFO {
BOOLEAN Enabled; //Ture: Enable LEAP Authentication
BOOLEAN CCKM; //Ture: Use Fast Reauthentication with CCKM
UCHAR Reserve[2];
UCHAR UserName[256]; //LEAP, User name
ULONG UserNameLen;
UCHAR Password[256]; //LEAP, User Password
ULONG PasswordLen;
} LEAP_AUTH_INFO, *PLEAP_AUTH_INFO;
typedef struct {
UCHAR Addr[MAC_ADDR_LEN];
UCHAR ErrorCode[2]; //00 01-Invalid authentication type
//00 02-Authentication timeout
//00 03-Challenge from AP failed
//00 04-Challenge to AP failed
BOOLEAN Reported;
} ROGUEAP_ENTRY, *PROGUEAP_ENTRY;
typedef struct {
UCHAR RogueApNr;
ROGUEAP_ENTRY RogueApEntry[MAX_LEN_OF_BSS_TABLE];
} ROGUEAP_TABLE, *PROGUEAP_TABLE;
typedef struct {
BOOLEAN Enable;
UCHAR Delta;
BOOLEAN PlusSign;
} CCK_TX_POWER_CALIBRATE, *PCCK_TX_POWER_CALIBRATE;
//
// Receive Tuple Cache Format
//
typedef struct _TUPLE_CACHE {
BOOLEAN Valid;
UCHAR MacAddress[MAC_ADDR_LEN];
USHORT Sequence;
USHORT Frag;
} TUPLE_CACHE, *PTUPLE_CACHE;
//
// Fragment Frame structure
//
typedef struct _FRAGMENT_FRAME {
PNDIS_PACKET pFragPacket;
ULONG RxSize;
USHORT Sequence;
USHORT LastFrag;
ULONG Flags; // Some extra frame information. bit 0: LLC presented
} FRAGMENT_FRAME, *PFRAGMENT_FRAME;
//
// Packet information for NdisQueryPacket
//
typedef struct _PACKET_INFO {
UINT PhysicalBufferCount; // Physical breaks of buffer descripor chained
UINT BufferCount ; // Number of Buffer descriptor chained
UINT TotalPacketLength ; // Self explained
PNDIS_BUFFER pFirstBuffer; // Pointer to first buffer descriptor
} PACKET_INFO, *PPACKET_INFO;
//
// Tkip Key structure which RC4 key & MIC calculation
//
typedef struct _TKIP_KEY_INFO {
UINT nBytesInM; // # bytes in M for MICKEY
ULONG IV16;
ULONG IV32;
ULONG K0; // for MICKEY Low
ULONG K1; // for MICKEY Hig
ULONG L; // Current state for MICKEY
ULONG R; // Current state for MICKEY
ULONG M; // Message accumulator for MICKEY
UCHAR RC4KEY[16];
UCHAR MIC[8];
} TKIP_KEY_INFO, *PTKIP_KEY_INFO;
//
// Private / Misc data, counters for driver internal use
//
typedef struct __PRIVATE_STRUC {
UINT SystemResetCnt; // System reset counter
UINT TxRingFullCnt; // Tx ring full occurrance number
UINT PhyRxErrCnt; // PHY Rx error count, for debug purpose, might move to global counter
// Variables for WEP encryption / decryption in rtmp_wep.c
UINT FCSCRC32;
ARCFOURCONTEXT WEPCONTEXT;
// Tkip stuff
TKIP_KEY_INFO Tx;
TKIP_KEY_INFO Rx;
} PRIVATE_STRUC, *PPRIVATE_STRUC;
// structure to tune BBP R66 (BBP TUNING)
typedef struct _BBP_R66_TUNING {
BOOLEAN bEnable;
USHORT FalseCcaLowerThreshold; // default 100
USHORT FalseCcaUpperThreshold; // default 512
UCHAR R66Delta;
UCHAR R66CurrentValue;
BOOLEAN R66LowerUpperSelect; //Before LinkUp, Used LowerBound or UpperBound as R66 value.
} BBP_R66_TUNING, *PBBP_R66_TUNING;
// structure to store channel TX power
typedef struct _CHANNEL_TX_POWER {
USHORT RemainingTimeForUse; //unit: sec
UCHAR Channel;
CHAR Power;
CHAR Power2;
UCHAR MaxTxPwr;
UCHAR DfsReq;
} CHANNEL_TX_POWER, *PCHANNEL_TX_POWER;
// structure to store 802.11j channel TX power
typedef struct _CHANNEL_11J_TX_POWER {
UCHAR Channel;
UCHAR BW; // BW_10 or BW_20
CHAR Power;
CHAR Power2;
USHORT RemainingTimeForUse; //unit: sec
} CHANNEL_11J_TX_POWER, *PCHANNEL_11J_TX_POWER;
typedef enum _ABGBAND_STATE_ {
UNKNOWN_BAND,
BG_BAND,
A_BAND,
} ABGBAND_STATE;
typedef struct _MLME_STRUCT {
// STA state machines
STATE_MACHINE CntlMachine;
STATE_MACHINE AssocMachine;
STATE_MACHINE AuthMachine;
STATE_MACHINE AuthRspMachine;
STATE_MACHINE SyncMachine;
STATE_MACHINE WpaPskMachine;
STATE_MACHINE LeapMachine;
STATE_MACHINE AironetMachine;
STATE_MACHINE_FUNC AssocFunc[ASSOC_FUNC_SIZE];
STATE_MACHINE_FUNC AuthFunc[AUTH_FUNC_SIZE];
STATE_MACHINE_FUNC AuthRspFunc[AUTH_RSP_FUNC_SIZE];
STATE_MACHINE_FUNC SyncFunc[SYNC_FUNC_SIZE];
STATE_MACHINE_FUNC WpaPskFunc[WPA_PSK_FUNC_SIZE];
STATE_MACHINE_FUNC AironetFunc[AIRONET_FUNC_SIZE];
STATE_MACHINE_FUNC ActFunc[ACT_FUNC_SIZE];
// Action
STATE_MACHINE ActMachine;
ULONG ChannelQuality; // 0..100, Channel Quality Indication for Roaming
ULONG Now32; // latch the value of NdisGetSystemUpTime()
ULONG LastSendNULLpsmTime;
BOOLEAN bRunning;
NDIS_SPIN_LOCK TaskLock;
MLME_QUEUE Queue;
UINT ShiftReg;
RALINK_TIMER_STRUCT PeriodicTimer;
RALINK_TIMER_STRUCT APSDPeriodicTimer;
RALINK_TIMER_STRUCT LinkDownTimer;
RALINK_TIMER_STRUCT LinkUpTimer;
#ifdef RT2860
UCHAR bPsPollTimerRunning;
RALINK_TIMER_STRUCT PsPollTimer;
RALINK_TIMER_STRUCT RadioOnOffTimer;
#endif
ULONG PeriodicRound;
ULONG OneSecPeriodicRound;
UCHAR RealRxPath;
BOOLEAN bLowThroughput;
BOOLEAN bEnableAutoAntennaCheck;
RALINK_TIMER_STRUCT RxAntEvalTimer;
#ifdef RT2870
UCHAR CaliBW40RfR24;
UCHAR CaliBW20RfR24;
#endif // RT2870 //
} MLME_STRUCT, *PMLME_STRUCT;
// structure for radar detection and channel switch
typedef struct _RADAR_DETECT_STRUCT {
UCHAR CSCount; //Channel switch counter
UCHAR CSPeriod; //Channel switch period (beacon count)
UCHAR RDCount; //Radar detection counter
UCHAR RDMode; //Radar Detection mode
UCHAR RDDurRegion; //Radar detection duration region
UCHAR BBPR16;
UCHAR BBPR17;
UCHAR BBPR18;
UCHAR BBPR21;
UCHAR BBPR22;
UCHAR BBPR64;
ULONG InServiceMonitorCount; // unit: sec
UINT8 DfsSessionTime;
BOOLEAN bFastDfs;
UINT8 ChMovingTime;
UINT8 LongPulseRadarTh;
} RADAR_DETECT_STRUCT, *PRADAR_DETECT_STRUCT;
typedef enum _REC_BLOCKACK_STATUS
{
Recipient_NONE=0,
Recipient_USED,
Recipient_HandleRes,
Recipient_Accept
} REC_BLOCKACK_STATUS, *PREC_BLOCKACK_STATUS;
typedef enum _ORI_BLOCKACK_STATUS
{
Originator_NONE=0,
Originator_USED,
Originator_WaitRes,
Originator_Done
} ORI_BLOCKACK_STATUS, *PORI_BLOCKACK_STATUS;
typedef struct _BA_ORI_ENTRY{
UCHAR Wcid;
UCHAR TID;
UCHAR BAWinSize;
UCHAR Token;
// Sequence is to fill every outgoing QoS DATA frame's sequence field in 802.11 header.
USHORT Sequence;
USHORT TimeOutValue;
ORI_BLOCKACK_STATUS ORI_BA_Status;
RALINK_TIMER_STRUCT ORIBATimer;
PVOID pAdapter;
} BA_ORI_ENTRY, *PBA_ORI_ENTRY;
typedef struct _BA_REC_ENTRY {
UCHAR Wcid;
UCHAR TID;
UCHAR BAWinSize; // 7.3.1.14. each buffer is capable of holding a max AMSDU or MSDU.
USHORT LastIndSeq;
USHORT TimeOutValue;
RALINK_TIMER_STRUCT RECBATimer;
ULONG LastIndSeqAtTimer;
ULONG nDropPacket;
ULONG rcvSeq;
REC_BLOCKACK_STATUS REC_BA_Status;
NDIS_SPIN_LOCK RxReRingLock; // Rx Ring spinlock
PVOID pAdapter;
struct reordering_list list;
} BA_REC_ENTRY, *PBA_REC_ENTRY;
typedef struct {
ULONG numAsRecipient; // I am recipient of numAsRecipient clients. These client are in the BARecEntry[]
ULONG numAsOriginator; // I am originator of numAsOriginator clients. These clients are in the BAOriEntry[]
BA_ORI_ENTRY BAOriEntry[MAX_LEN_OF_BA_ORI_TABLE];
BA_REC_ENTRY BARecEntry[MAX_LEN_OF_BA_REC_TABLE];
} BA_TABLE, *PBA_TABLE;
//For QureyBATableOID use;
typedef struct PACKED _OID_BA_REC_ENTRY{
UCHAR MACAddr[MAC_ADDR_LEN];
UCHAR BaBitmap; // if (BaBitmap&(1<<TID)), this session with{MACAddr, TID}exists, so read BufSize[TID] for BufferSize
UCHAR rsv;
UCHAR BufSize[8];
REC_BLOCKACK_STATUS REC_BA_Status[8];
} OID_BA_REC_ENTRY, *POID_BA_REC_ENTRY;
//For QureyBATableOID use;
typedef struct PACKED _OID_BA_ORI_ENTRY{
UCHAR MACAddr[MAC_ADDR_LEN];
UCHAR BaBitmap; // if (BaBitmap&(1<<TID)), this session with{MACAddr, TID}exists, so read BufSize[TID] for BufferSize, read ORI_BA_Status[TID] for status
UCHAR rsv;
UCHAR BufSize[8];
ORI_BLOCKACK_STATUS ORI_BA_Status[8];
} OID_BA_ORI_ENTRY, *POID_BA_ORI_ENTRY;
typedef struct _QUERYBA_TABLE{
OID_BA_ORI_ENTRY BAOriEntry[32];
OID_BA_REC_ENTRY BARecEntry[32];
UCHAR OriNum;// Number of below BAOriEntry
UCHAR RecNum;// Number of below BARecEntry
} QUERYBA_TABLE, *PQUERYBA_TABLE;
typedef union _BACAP_STRUC {
struct {
UINT32 RxBAWinLimit:8;
UINT32 TxBAWinLimit:8;
UINT32 AutoBA:1; // automatically BA
UINT32 Policy:2; // 0: DELAY_BA 1:IMMED_BA (//BA Policy subfiled value in ADDBA frame) 2:BA-not use
UINT32 MpduDensity:3;
UINT32 AmsduEnable:1; //Enable AMSDU transmisstion
UINT32 AmsduSize:1; // 0:3839, 1:7935 bytes. UINT MSDUSizeToBytes[] = { 3839, 7935};
UINT32 MMPSmode:2; // MIMO power save more, 0:static, 1:dynamic, 2:rsv, 3:mimo enable
UINT32 bHtAdhoc:1; // adhoc can use ht rate.
UINT32 b2040CoexistScanSup:1; //As Sta, support do 2040 coexistence scan for AP. As Ap, support monitor trigger event to check if can use BW 40MHz.
UINT32 :4;
} field;
UINT32 word;
} BACAP_STRUC, *PBACAP_STRUC;
//This structure is for all 802.11n card InterOptibilityTest action. Reset all Num every n second. (Details see MLMEPeriodic)
typedef struct _IOT_STRUC {
UCHAR Threshold[2];
UCHAR ReorderTimeOutNum[MAX_LEN_OF_BA_REC_TABLE]; // compare with threshold[0]
UCHAR RefreshNum[MAX_LEN_OF_BA_REC_TABLE]; // compare with threshold[1]
ULONG OneSecInWindowCount;
ULONG OneSecFrameDuplicateCount;
ULONG OneSecOutWindowCount;
UCHAR DelOriAct;
UCHAR DelRecAct;
UCHAR RTSShortProt;
UCHAR RTSLongProt;
BOOLEAN bRTSLongProtOn;
BOOLEAN bLastAtheros;
BOOLEAN bCurrentAtheros;
BOOLEAN bNowAtherosBurstOn;
BOOLEAN bNextDisableRxBA;
BOOLEAN bToggle;
} IOT_STRUC, *PIOT_STRUC;
// This is the registry setting for 802.11n transmit setting. Used in advanced page.
typedef union _REG_TRANSMIT_SETTING {
struct {
UINT32 rsv0:10;
UINT32 TxBF:1;
UINT32 BW:1; //channel bandwidth 20MHz or 40 MHz
UINT32 ShortGI:1;
UINT32 STBC:1; //SPACE
UINT32 TRANSNO:2;
UINT32 HTMODE:1;
UINT32 EXTCHA:2;
UINT32 rsv:13;
} field;
UINT32 word;
} REG_TRANSMIT_SETTING, *PREG_TRANSMIT_SETTING;
typedef union _DESIRED_TRANSMIT_SETTING {
struct {
USHORT MCS:7; // MCS
USHORT PhyMode:4;
USHORT FixedTxMode:2; // If MCS isn't AUTO, fix rate in CCK, OFDM or HT mode.
USHORT rsv:3;
} field;
USHORT word;
} DESIRED_TRANSMIT_SETTING, *PDESIRED_TRANSMIT_SETTING;
typedef struct {
BOOLEAN IsRecipient;
UCHAR MACAddr[MAC_ADDR_LEN];
UCHAR TID;
UCHAR nMSDU;
USHORT TimeOut;
BOOLEAN bAllTid; // If True, delete all TID for BA sessions with this MACaddr.
} OID_ADD_BA_ENTRY, *POID_ADD_BA_ENTRY;
//
// Multiple SSID structure
//
#define WLAN_MAX_NUM_OF_TIM ((MAX_LEN_OF_MAC_TABLE >> 3) + 1) /* /8 + 1 */
#define WLAN_CT_TIM_BCMC_OFFSET 0 /* unit: 32B */
/* clear bcmc TIM bit */
#define WLAN_MR_TIM_BCMC_CLEAR(apidx) \
pAd->ApCfg.MBSSID[apidx].TimBitmaps[WLAN_CT_TIM_BCMC_OFFSET] &= ~BIT8[0];
/* set bcmc TIM bit */
#define WLAN_MR_TIM_BCMC_SET(apidx) \
pAd->ApCfg.MBSSID[apidx].TimBitmaps[WLAN_CT_TIM_BCMC_OFFSET] |= BIT8[0];
/* clear a station PS TIM bit */
#define WLAN_MR_TIM_BIT_CLEAR(ad_p, apidx, wcid) \
{ UCHAR tim_offset = wcid >> 3; \
UCHAR bit_offset = wcid & 0x7; \
ad_p->ApCfg.MBSSID[apidx].TimBitmaps[tim_offset] &= (~BIT8[bit_offset]); }
/* set a station PS TIM bit */
#define WLAN_MR_TIM_BIT_SET(ad_p, apidx, wcid) \
{ UCHAR tim_offset = wcid >> 3; \
UCHAR bit_offset = wcid & 0x7; \
ad_p->ApCfg.MBSSID[apidx].TimBitmaps[tim_offset] |= BIT8[bit_offset]; }
#ifdef RT2870
#define BEACON_BITMAP_MASK 0xff
typedef struct _BEACON_SYNC_STRUCT_
{
UCHAR BeaconBuf[HW_BEACON_MAX_COUNT][HW_BEACON_OFFSET];
UCHAR BeaconTxWI[HW_BEACON_MAX_COUNT][TXWI_SIZE];
ULONG TimIELocationInBeacon[HW_BEACON_MAX_COUNT];
ULONG CapabilityInfoLocationInBeacon[HW_BEACON_MAX_COUNT];
BOOLEAN EnableBeacon; // trigger to enable beacon transmission.
UCHAR BeaconBitMap; // NOTE: If the MAX_MBSSID_NUM is larger than 8, this parameter need to change.
UCHAR DtimBitOn; // NOTE: If the MAX_MBSSID_NUM is larger than 8, this parameter need to change.
}BEACON_SYNC_STRUCT;
#endif // RT2870 //
typedef struct _MULTISSID_STRUCT {
UCHAR Bssid[MAC_ADDR_LEN];
UCHAR SsidLen;
CHAR Ssid[MAX_LEN_OF_SSID];
USHORT CapabilityInfo;
PNET_DEV MSSIDDev;
NDIS_802_11_AUTHENTICATION_MODE AuthMode;
NDIS_802_11_WEP_STATUS WepStatus;
NDIS_802_11_WEP_STATUS GroupKeyWepStatus;
WPA_MIX_PAIR_CIPHER WpaMixPairCipher;
ULONG TxCount;
ULONG RxCount;
ULONG ReceivedByteCount;
ULONG TransmittedByteCount;
ULONG RxErrorCount;
ULONG RxDropCount;
HTTRANSMIT_SETTING HTPhyMode, MaxHTPhyMode, MinHTPhyMode;// For transmit phy setting in TXWI.
RT_HT_PHY_INFO DesiredHtPhyInfo;
DESIRED_TRANSMIT_SETTING DesiredTransmitSetting; // Desired transmit setting. this is for reading registry setting only. not useful.
BOOLEAN bAutoTxRateSwitch;
UCHAR DefaultKeyId;
UCHAR TxRate; // RATE_1, RATE_2, RATE_5_5, RATE_11, ...
UCHAR DesiredRates[MAX_LEN_OF_SUPPORTED_RATES];// OID_802_11_DESIRED_RATES
UCHAR DesiredRatesIndex;
UCHAR MaxTxRate; // RATE_1, RATE_2, RATE_5_5, RATE_11
UCHAR TimBitmaps[WLAN_MAX_NUM_OF_TIM];
// WPA
UCHAR GMK[32];
UCHAR PMK[32];
UCHAR GTK[32];
BOOLEAN IEEE8021X;
BOOLEAN PreAuth;
UCHAR GNonce[32];
UCHAR PortSecured;
NDIS_802_11_PRIVACY_FILTER PrivacyFilter;
UCHAR BANClass3Data;
ULONG IsolateInterStaTraffic;
UCHAR RSNIE_Len[2];
UCHAR RSN_IE[2][MAX_LEN_OF_RSNIE];
UCHAR TimIELocationInBeacon;
UCHAR CapabilityInfoLocationInBeacon;
// outgoing BEACON frame buffer and corresponding TXWI
// PTXWI_STRUC BeaconTxWI; //
CHAR BeaconBuf[MAX_BEACON_SIZE]; // NOTE: BeaconBuf should be 4-byte aligned
BOOLEAN bHideSsid;
UINT16 StationKeepAliveTime; // unit: second
USHORT VLAN_VID;
USHORT VLAN_Priority;
RT_802_11_ACL AccessControlList;
// EDCA Qos
BOOLEAN bWmmCapable; // 0:disable WMM, 1:enable WMM
BOOLEAN bDLSCapable; // 0:disable DLS, 1:enable DLS
UCHAR DlsPTK[64]; // Due to windows dirver count on meetinghouse to handle 4-way shake
// For 802.1x daemon setting per BSS
UCHAR radius_srv_num;
RADIUS_SRV_INFO radius_srv_info[MAX_RADIUS_SRV_NUM];
#ifdef RTL865X_SOC
unsigned int mylinkid;
#endif
UINT32 RcvdConflictSsidCount;
UINT32 RcvdSpoofedAssocRespCount;
UINT32 RcvdSpoofedReassocRespCount;
UINT32 RcvdSpoofedProbeRespCount;
UINT32 RcvdSpoofedBeaconCount;
UINT32 RcvdSpoofedDisassocCount;
UINT32 RcvdSpoofedAuthCount;
UINT32 RcvdSpoofedDeauthCount;
UINT32 RcvdSpoofedUnknownMgmtCount;
UINT32 RcvdReplayAttackCount;
CHAR RssiOfRcvdConflictSsid;
CHAR RssiOfRcvdSpoofedAssocResp;
CHAR RssiOfRcvdSpoofedReassocResp;
CHAR RssiOfRcvdSpoofedProbeResp;
CHAR RssiOfRcvdSpoofedBeacon;
CHAR RssiOfRcvdSpoofedDisassoc;
CHAR RssiOfRcvdSpoofedAuth;
CHAR RssiOfRcvdSpoofedDeauth;
CHAR RssiOfRcvdSpoofedUnknownMgmt;
CHAR RssiOfRcvdReplayAttack;
BOOLEAN bBcnSntReq;
UCHAR BcnBufIdx;
} MULTISSID_STRUCT, *PMULTISSID_STRUCT;
// configuration common to OPMODE_AP as well as OPMODE_STA
typedef struct _COMMON_CONFIG {
BOOLEAN bCountryFlag;
UCHAR CountryCode[3];
UCHAR Geography;
UCHAR CountryRegion; // Enum of country region, 0:FCC, 1:IC, 2:ETSI, 3:SPAIN, 4:France, 5:MKK, 6:MKK1, 7:Israel
UCHAR CountryRegionForABand; // Enum of country region for A band
UCHAR PhyMode; // PHY_11A, PHY_11B, PHY_11BG_MIXED, PHY_ABG_MIXED
USHORT Dsifs; // in units of usec
ULONG PacketFilter; // Packet filter for receiving
CHAR Ssid[MAX_LEN_OF_SSID]; // NOT NULL-terminated
UCHAR SsidLen; // the actual ssid length in used
UCHAR LastSsidLen; // the actual ssid length in used
CHAR LastSsid[MAX_LEN_OF_SSID]; // NOT NULL-terminated
UCHAR LastBssid[MAC_ADDR_LEN];
UCHAR Bssid[MAC_ADDR_LEN];
USHORT BeaconPeriod;
UCHAR Channel;
UCHAR CentralChannel; // Central Channel when using 40MHz is indicating. not real channel.
UCHAR SupRate[MAX_LEN_OF_SUPPORTED_RATES];
UCHAR SupRateLen;
UCHAR ExtRate[MAX_LEN_OF_SUPPORTED_RATES];
UCHAR ExtRateLen;
UCHAR DesireRate[MAX_LEN_OF_SUPPORTED_RATES]; // OID_802_11_DESIRED_RATES
UCHAR MaxDesiredRate;
UCHAR ExpectedACKRate[MAX_LEN_OF_SUPPORTED_RATES];
ULONG BasicRateBitmap; // backup basic ratebitmap
BOOLEAN bAPSDCapable;
BOOLEAN bInServicePeriod;
BOOLEAN bAPSDAC_BE;
BOOLEAN bAPSDAC_BK;
BOOLEAN bAPSDAC_VI;
BOOLEAN bAPSDAC_VO;
BOOLEAN bNeedSendTriggerFrame;
BOOLEAN bAPSDForcePowerSave; // Force power save mode, should only use in APSD-STAUT
ULONG TriggerTimerCount;
UCHAR MaxSPLength;
UCHAR BBPCurrentBW; // BW_10, BW_20, BW_40
REG_TRANSMIT_SETTING RegTransmitSetting; //registry transmit setting. this is for reading registry setting only. not useful.
UCHAR TxRate; // Same value to fill in TXD. TxRate is 6-bit
UCHAR MaxTxRate; // RATE_1, RATE_2, RATE_5_5, RATE_11
UCHAR TxRateIndex; // Tx rate index in RateSwitchTable
UCHAR TxRateTableSize; // Valid Tx rate table size in RateSwitchTable
UCHAR MinTxRate; // RATE_1, RATE_2, RATE_5_5, RATE_11
UCHAR RtsRate; // RATE_xxx
HTTRANSMIT_SETTING MlmeTransmit; // MGMT frame PHY rate setting when operatin at Ht rate.
UCHAR MlmeRate; // RATE_xxx, used to send MLME frames
UCHAR BasicMlmeRate; // Default Rate for sending MLME frames
USHORT RtsThreshold; // in unit of BYTE
USHORT FragmentThreshold; // in unit of BYTE
UCHAR TxPower; // in unit of mW
ULONG TxPowerPercentage; // 0~100 %
ULONG TxPowerDefault; // keep for TxPowerPercentage
BACAP_STRUC BACapability; // NO USE = 0XFF ; IMMED_BA =1 ; DELAY_BA=0
BACAP_STRUC REGBACapability; // NO USE = 0XFF ; IMMED_BA =1 ; DELAY_BA=0
IOT_STRUC IOTestParm; // 802.11n InterOpbility Test Parameter;
ULONG TxPreamble; // Rt802_11PreambleLong, Rt802_11PreambleShort, Rt802_11PreambleAuto
BOOLEAN bUseZeroToDisableFragment; // Microsoft use 0 as disable
ULONG UseBGProtection; // 0: auto, 1: always use, 2: always not use
BOOLEAN bUseShortSlotTime; // 0: disable, 1 - use short slot (9us)
BOOLEAN bEnableTxBurst; // 1: enble TX PACKET BURST, 0: disable TX PACKET BURST
BOOLEAN bAggregationCapable; // 1: enable TX aggregation when the peer supports it
BOOLEAN bPiggyBackCapable; // 1: enable TX piggy-back according MAC's version
BOOLEAN bIEEE80211H; // 1: enable IEEE802.11h spec.
ULONG DisableOLBCDetect; // 0: enable OLBC detect; 1 disable OLBC detect
BOOLEAN bRdg;
BOOLEAN bWmmCapable; // 0:disable WMM, 1:enable WMM
QOS_CAPABILITY_PARM APQosCapability; // QOS capability of the current associated AP
EDCA_PARM APEdcaParm; // EDCA parameters of the current associated AP
QBSS_LOAD_PARM APQbssLoad; // QBSS load of the current associated AP
UCHAR AckPolicy[4]; // ACK policy of the specified AC. see ACK_xxx
BOOLEAN bDLSCapable; // 0:disable DLS, 1:enable DLS
// a bitmap of BOOLEAN flags. each bit represent an operation status of a particular
// BOOLEAN control, either ON or OFF. These flags should always be accessed via
// OPSTATUS_TEST_FLAG(), OPSTATUS_SET_FLAG(), OP_STATUS_CLEAR_FLAG() macros.
// see fOP_STATUS_xxx in RTMP_DEF.C for detail bit definition
ULONG OpStatusFlags;
BOOLEAN NdisRadioStateOff; //For HCT 12.0, set this flag to TRUE instead of called MlmeRadioOff.
ABGBAND_STATE BandState; // For setting BBP used on B/G or A mode.
// IEEE802.11H--DFS.
RADAR_DETECT_STRUCT RadarDetect;
// HT
UCHAR BASize; // USer desired BAWindowSize. Should not exceed our max capability
//RT_HT_CAPABILITY SupportedHtPhy;
RT_HT_CAPABILITY DesiredHtPhy;
HT_CAPABILITY_IE HtCapability;
ADD_HT_INFO_IE AddHTInfo; // Useful as AP.
//This IE is used with channel switch announcement element when changing to a new 40MHz.
//This IE is included in channel switch ammouncement frames 7.4.1.5, beacons, probe Rsp.
NEW_EXT_CHAN_IE NewExtChanOffset; //7.3.2.20A, 1 if extension channel is above the control channel, 3 if below, 0 if not present
BOOLEAN bHTProtect;
BOOLEAN bMIMOPSEnable;
BOOLEAN bBADecline;
BOOLEAN bDisableReordering;
BOOLEAN bForty_Mhz_Intolerant;
BOOLEAN bExtChannelSwitchAnnouncement;
BOOLEAN bRcvBSSWidthTriggerEvents;
ULONG LastRcvBSSWidthTriggerEventsTime;
UCHAR TxBASize;
// Enable wireless event
BOOLEAN bWirelessEvent;
BOOLEAN bWiFiTest; // Enable this parameter for WiFi test
// Tx & Rx Stream number selection
UCHAR TxStream;
UCHAR RxStream;
// transmit phy mode, trasmit rate for Multicast.
#ifdef MCAST_RATE_SPECIFIC
UCHAR McastTransmitMcs;
UCHAR McastTransmitPhyMode;
#endif // MCAST_RATE_SPECIFIC //
BOOLEAN bHardwareRadio; // Hardware controlled Radio enabled
#ifdef RT2870
BOOLEAN bMultipleIRP; // Multiple Bulk IN flag
UCHAR NumOfBulkInIRP; // if bMultipleIRP == TRUE, NumOfBulkInIRP will be 4 otherwise be 1
RT_HT_CAPABILITY SupportedHtPhy;
ULONG MaxPktOneTxBulk;
UCHAR TxBulkFactor;
UCHAR RxBulkFactor;
BEACON_SYNC_STRUCT *pBeaconSync;
RALINK_TIMER_STRUCT BeaconUpdateTimer;
UINT32 BeaconAdjust;
UINT32 BeaconFactor;
UINT32 BeaconRemain;
#endif // RT2870 //
NDIS_SPIN_LOCK MeasureReqTabLock;
PMEASURE_REQ_TAB pMeasureReqTab;
NDIS_SPIN_LOCK TpcReqTabLock;
PTPC_REQ_TAB pTpcReqTab;
// transmit phy mode, trasmit rate for Multicast.
#ifdef MCAST_RATE_SPECIFIC
HTTRANSMIT_SETTING MCastPhyMode;
#endif // MCAST_RATE_SPECIFIC //
} COMMON_CONFIG, *PCOMMON_CONFIG;
/* Modified by Wu Xi-Kun 4/21/2006 */
// STA configuration and status
typedef struct _STA_ADMIN_CONFIG {
// GROUP 1 -
// User configuration loaded from Registry, E2PROM or OID_xxx. These settings describe
// the user intended configuration, but not necessary fully equal to the final
// settings in ACTIVE BSS after negotiation/compromize with the BSS holder (either
// AP or IBSS holder).
// Once initialized, user configuration can only be changed via OID_xxx
UCHAR BssType; // BSS_INFRA or BSS_ADHOC
USHORT AtimWin; // used when starting a new IBSS
// GROUP 2 -
// User configuration loaded from Registry, E2PROM or OID_xxx. These settings describe
// the user intended configuration, and should be always applied to the final
// settings in ACTIVE BSS without compromising with the BSS holder.
// Once initialized, user configuration can only be changed via OID_xxx
UCHAR RssiTrigger;
UCHAR RssiTriggerMode; // RSSI_TRIGGERED_UPON_BELOW_THRESHOLD or RSSI_TRIGGERED_UPON_EXCCEED_THRESHOLD
USHORT DefaultListenCount; // default listen count;
ULONG WindowsPowerMode; // Power mode for AC power
ULONG WindowsBatteryPowerMode; // Power mode for battery if exists
BOOLEAN bWindowsACCAMEnable; // Enable CAM power mode when AC on
BOOLEAN bAutoReconnect; // Set to TRUE when setting OID_802_11_SSID with no matching BSSID
ULONG WindowsPowerProfile; // Windows power profile, for NDIS5.1 PnP
// MIB:ieee802dot11.dot11smt(1).dot11StationConfigTable(1)
USHORT Psm; // power management mode (PWR_ACTIVE|PWR_SAVE)
USHORT DisassocReason;
UCHAR DisassocSta[MAC_ADDR_LEN];
USHORT DeauthReason;
UCHAR DeauthSta[MAC_ADDR_LEN];
USHORT AuthFailReason;
UCHAR AuthFailSta[MAC_ADDR_LEN];
NDIS_802_11_PRIVACY_FILTER PrivacyFilter; // PrivacyFilter enum for 802.1X
NDIS_802_11_AUTHENTICATION_MODE AuthMode; // This should match to whatever microsoft defined
NDIS_802_11_WEP_STATUS WepStatus;
NDIS_802_11_WEP_STATUS OrigWepStatus; // Original wep status set from OID
// Add to support different cipher suite for WPA2/WPA mode
NDIS_802_11_ENCRYPTION_STATUS GroupCipher; // Multicast cipher suite
NDIS_802_11_ENCRYPTION_STATUS PairCipher; // Unicast cipher suite
BOOLEAN bMixCipher; // Indicate current Pair & Group use different cipher suites
USHORT RsnCapability;
NDIS_802_11_WEP_STATUS GroupKeyWepStatus;
UCHAR PMK[32]; // WPA PSK mode PMK
UCHAR PTK[64]; // WPA PSK mode PTK
UCHAR GTK[32]; // GTK from authenticator
BSSID_INFO SavedPMK[PMKID_NO];
UINT SavedPMKNum; // Saved PMKID number
UCHAR DefaultKeyId;
// WPA 802.1x port control, WPA_802_1X_PORT_SECURED, WPA_802_1X_PORT_NOT_SECURED
UCHAR PortSecured;
// For WPA countermeasures
ULONG LastMicErrorTime; // record last MIC error time
ULONG MicErrCnt; // Should be 0, 1, 2, then reset to zero (after disassoiciation).
BOOLEAN bBlockAssoc; // Block associate attempt for 60 seconds after counter measure occurred.
// For WPA-PSK supplicant state
WPA_STATE WpaState; // Default is SS_NOTUSE and handled by microsoft 802.1x
UCHAR ReplayCounter[8];
UCHAR ANonce[32]; // ANonce for WPA-PSK from aurhenticator
UCHAR SNonce[32]; // SNonce for WPA-PSK
UCHAR LastSNR0; // last received BEACON's SNR
UCHAR LastSNR1; // last received BEACON's SNR for 2nd antenna
RSSI_SAMPLE RssiSample;
ULONG NumOfAvgRssiSample;
ULONG LastBeaconRxTime; // OS's timestamp of the last BEACON RX time
ULONG Last11bBeaconRxTime; // OS's timestamp of the last 11B BEACON RX time
ULONG Last11gBeaconRxTime; // OS's timestamp of the last 11G BEACON RX time
ULONG Last20NBeaconRxTime; // OS's timestamp of the last 20MHz N BEACON RX time
ULONG LastScanTime; // Record last scan time for issue BSSID_SCAN_LIST
ULONG ScanCnt; // Scan counts since most recent SSID, BSSID, SCAN OID request
BOOLEAN bSwRadio; // Software controlled Radio On/Off, TRUE: On
BOOLEAN bHwRadio; // Hardware controlled Radio On/Off, TRUE: On
BOOLEAN bRadio; // Radio state, And of Sw & Hw radio state
BOOLEAN bHardwareRadio; // Hardware controlled Radio enabled
BOOLEAN bShowHiddenSSID; // Show all known SSID in SSID list get operation
#ifdef RT2860
BOOLEAN AdhocBOnlyJoined; // Indicate Adhoc B Join.
BOOLEAN AdhocBGJoined; // Indicate Adhoc B/G Join.
BOOLEAN Adhoc20NJoined; // Indicate Adhoc 20MHz N Join.
#endif
// New for WPA, windows want us to keep association information and
// Fixed IEs from last association response
NDIS_802_11_ASSOCIATION_INFORMATION AssocInfo;
USHORT ReqVarIELen; // Length of next VIE include EID & Length
UCHAR ReqVarIEs[MAX_VIE_LEN]; // The content saved here should be little-endian format.
USHORT ResVarIELen; // Length of next VIE include EID & Length
UCHAR ResVarIEs[MAX_VIE_LEN];
UCHAR RSNIE_Len;
UCHAR RSN_IE[MAX_LEN_OF_RSNIE]; // The content saved here should be little-endian format.
// New variables used for CCX 1.0
BOOLEAN bCkipOn;
BOOLEAN bCkipCmicOn;
UCHAR CkipFlag;
UCHAR GIV[3]; //for CCX iv
UCHAR RxSEQ[4];
UCHAR TxSEQ[4];
UCHAR CKIPMIC[4];
UCHAR LeapAuthMode;
LEAP_AUTH_INFO LeapAuthInfo;
UCHAR HashPwd[16];
UCHAR NetworkChallenge[8];
UCHAR NetworkChallengeResponse[24];
UCHAR PeerChallenge[8];
UCHAR PeerChallengeResponse[24];
UCHAR SessionKey[16]; //Network session keys (NSK)
RALINK_TIMER_STRUCT LeapAuthTimer;
ROGUEAP_TABLE RogueApTab; //Cisco CCX1 Rogue AP Detection
// New control flags for CCX
CCX_CONTROL CCXControl; // Master administration state
BOOLEAN CCXEnable; // Actual CCX state
UCHAR CCXScanChannel; // Selected channel for CCX beacon request
USHORT CCXScanTime; // Time out to wait for beacon and probe response
UCHAR CCXReqType; // Current processing CCX request type
BSS_TABLE CCXBssTab; // BSS Table
UCHAR FrameReportBuf[2048]; // Buffer for creating frame report
USHORT FrameReportLen; // Current Frame report length
ULONG CLBusyBytes; // Save the total bytes received durning channel load scan time
USHORT RPIDensity[8]; // Array for RPI density collection
// Start address of each BSS table within FrameReportBuf
// It's important to update the RxPower of the corresponding Bss
USHORT BssReportOffset[MAX_LEN_OF_BSS_TABLE];
USHORT BeaconToken; // Token for beacon report
ULONG LastBssIndex; // Most current reported Bss index
RM_REQUEST_ACTION MeasurementRequest[16]; // Saved measurement request
UCHAR RMReqCnt; // Number of measurement request saved.
UCHAR CurrentRMReqIdx; // Number of measurement request saved.
BOOLEAN ParallelReq; // Parallel measurement, only one request performed,
// It must be the same channel with maximum duration
USHORT ParallelDuration; // Maximum duration for parallel measurement
UCHAR ParallelChannel; // Only one channel with parallel measurement
USHORT IAPPToken; // IAPP dialog token
UCHAR CCXQosECWMin; // Cisco QOS ECWMin for AC 0
UCHAR CCXQosECWMax; // Cisco QOS ECWMax for AC 0
// Hack for channel load and noise histogram parameters
UCHAR NHFactor; // Parameter for Noise histogram
UCHAR CLFactor; // Parameter for channel load
UCHAR KRK[16]; //Key Refresh Key.
UCHAR BTK[32]; //Base Transient Key
BOOLEAN CCKMLinkUpFlag;
ULONG CCKMRN; //(Re)Association request number.
LARGE_INTEGER CCKMBeaconAtJoinTimeStamp; //TSF timer for Re-assocaite to the new AP
UCHAR AironetCellPowerLimit; //in dBm
UCHAR AironetIPAddress[4]; //eg. 192.168.1.1
BOOLEAN CCXAdjacentAPReportFlag; //flag for determining report Assoc Lost time
CHAR CCXAdjacentAPSsid[MAX_LEN_OF_SSID]; //Adjacent AP's SSID report
UCHAR CCXAdjacentAPSsidLen; // the actual ssid length in used
UCHAR CCXAdjacentAPBssid[MAC_ADDR_LEN]; //Adjacent AP's BSSID report
USHORT CCXAdjacentAPChannel;
ULONG CCXAdjacentAPLinkDownTime; //for Spec S32.
RALINK_TIMER_STRUCT StaQuickResponeForRateUpTimer;
BOOLEAN StaQuickResponeForRateUpTimerRunning;
UCHAR DtimCount; // 0.. DtimPeriod-1
UCHAR DtimPeriod; // default = 3
////////////////////////////////////////////////////////////////////////////////////////
// This is only for WHQL test.
BOOLEAN WhqlTest;
////////////////////////////////////////////////////////////////////////////////////////
RALINK_TIMER_STRUCT WpaDisassocAndBlockAssocTimer;
// Fast Roaming
BOOLEAN bFastRoaming; // 0:disable fast roaming, 1:enable fast roaming
CHAR dBmToRoam; // the condition to roam when receiving Rssi less than this value. It's negative value.
BOOLEAN IEEE8021X;
BOOLEAN IEEE8021x_required_keys;
CIPHER_KEY DesireSharedKey[4]; // Record user desired WEP keys
UCHAR DesireSharedKeyId;
// 0: driver ignores wpa_supplicant
// 1: wpa_supplicant initiates scanning and AP selection
// 2: driver takes care of scanning, AP selection, and IEEE 802.11 association parameters
UCHAR WpaSupplicantUP;
UCHAR WpaSupplicantScanCount;
CHAR dev_name[16];
USHORT OriDevType;
BOOLEAN bTGnWifiTest;
BOOLEAN bScanReqIsFromWebUI;
HTTRANSMIT_SETTING HTPhyMode, MaxHTPhyMode, MinHTPhyMode;// For transmit phy setting in TXWI.
DESIRED_TRANSMIT_SETTING DesiredTransmitSetting;
RT_HT_PHY_INFO DesiredHtPhyInfo;
BOOLEAN bAutoTxRateSwitch;
#ifdef RT2860
UCHAR BBPR3;
#endif
} STA_ADMIN_CONFIG, *PSTA_ADMIN_CONFIG;
// This data structure keep the current active BSS/IBSS's configuration that this STA
// had agreed upon joining the network. Which means these parameters are usually decided
// by the BSS/IBSS creator instead of user configuration. Data in this data structurre
// is valid only when either ADHOC_ON(pAd) or INFRA_ON(pAd) is TRUE.
// Normally, after SCAN or failed roaming attempts, we need to recover back to
// the current active settings.
typedef struct _STA_ACTIVE_CONFIG {
USHORT Aid;
USHORT AtimWin; // in kusec; IBSS parameter set element
USHORT CapabilityInfo;
USHORT CfpMaxDuration;
USHORT CfpPeriod;
// Copy supported rate from desired AP's beacon. We are trying to match
// AP's supported and extended rate settings.
UCHAR SupRate[MAX_LEN_OF_SUPPORTED_RATES];
UCHAR ExtRate[MAX_LEN_OF_SUPPORTED_RATES];
UCHAR SupRateLen;
UCHAR ExtRateLen;
// Copy supported ht from desired AP's beacon. We are trying to match
RT_HT_PHY_INFO SupportedPhyInfo;
RT_HT_CAPABILITY SupportedHtPhy;
} STA_ACTIVE_CONFIG, *PSTA_ACTIVE_CONFIG;
#ifdef RT2870
// for USB interface, avoid in interrupt when write key
typedef struct RT_ADD_PAIRWISE_KEY_ENTRY {
NDIS_802_11_MAC_ADDRESS MacAddr;
USHORT MacTabMatchWCID; // ASIC
CIPHER_KEY CipherKey;
} RT_ADD_PAIRWISE_KEY_ENTRY,*PRT_ADD_PAIRWISE_KEY_ENTRY;
#endif // RT2870 //
// ----------- start of AP --------------------------
// AUTH-RSP State Machine Aux data structure
typedef struct _AP_MLME_AUX {
UCHAR Addr[MAC_ADDR_LEN];
USHORT Alg;
CHAR Challenge[CIPHER_TEXT_LEN];
} AP_MLME_AUX, *PAP_MLME_AUX;
// structure to define WPA Group Key Rekey Interval
typedef struct PACKED _RT_802_11_WPA_REKEY {
ULONG ReKeyMethod; // mechanism for rekeying: 0:disable, 1: time-based, 2: packet-based
ULONG ReKeyInterval; // time-based: seconds, packet-based: kilo-packets
} RT_WPA_REKEY,*PRT_WPA_REKEY, RT_802_11_WPA_REKEY, *PRT_802_11_WPA_REKEY;
typedef struct _MAC_TABLE_ENTRY {
//Choose 1 from ValidAsWDS and ValidAsCLI to validize.
BOOLEAN ValidAsCLI; // Sta mode, set this TRUE after Linkup,too.
BOOLEAN ValidAsWDS; // This is WDS Entry. only for AP mode.
BOOLEAN ValidAsApCli; //This is a AP-Client entry, only for AP mode which enable AP-Client functions.
BOOLEAN ValidAsMesh;
BOOLEAN ValidAsDls; // This is DLS Entry. only for STA mode.
BOOLEAN isCached;
BOOLEAN bIAmBadAtheros; // Flag if this is Atheros chip that has IOT problem. We need to turn on RTS/CTS protection.
UCHAR EnqueueEapolStartTimerRunning; // Enqueue EAPoL-Start for triggering EAP SM
//jan for wpa
// record which entry revoke MIC Failure , if it leaves the BSS itself, AP won't update aMICFailTime MIB
UCHAR CMTimerRunning;
UCHAR apidx; // MBSS number
UCHAR RSNIE_Len;
UCHAR RSN_IE[MAX_LEN_OF_RSNIE];
UCHAR ANonce[LEN_KEY_DESC_NONCE];
UCHAR R_Counter[LEN_KEY_DESC_REPLAY];
UCHAR PTK[64];
UCHAR ReTryCounter;
RALINK_TIMER_STRUCT RetryTimer;
RALINK_TIMER_STRUCT EnqueueStartForPSKTimer; // A timer which enqueue EAPoL-Start for triggering PSK SM
NDIS_802_11_AUTHENTICATION_MODE AuthMode; // This should match to whatever microsoft defined
NDIS_802_11_WEP_STATUS WepStatus;
AP_WPA_STATE WpaState;
GTK_STATE GTKState;
USHORT PortSecured;
NDIS_802_11_PRIVACY_FILTER PrivacyFilter; // PrivacyFilter enum for 802.1X
CIPHER_KEY PairwiseKey;
PVOID pAd;
INT PMKID_CacheIdx;
UCHAR PMKID[LEN_PMKID];
UCHAR Addr[MAC_ADDR_LEN];
UCHAR PsMode;
SST Sst;
AUTH_STATE AuthState; // for SHARED KEY authentication state machine used only
BOOLEAN IsReassocSta; // Indicate whether this is a reassociation procedure
USHORT Aid;
USHORT CapabilityInfo;
UCHAR LastRssi;
ULONG NoDataIdleCount;
UINT16 StationKeepAliveCount; // unit: second
ULONG PsQIdleCount;
QUEUE_HEADER PsQueue;
UINT32 StaConnectTime; // the live time of this station since associated with AP
BOOLEAN bSendBAR;
USHORT NoBADataCountDown;
UINT32 CachedBuf[16]; // UINT (4 bytes) for alignment
UINT TxBFCount; // 3*3
UINT FIFOCount;
UINT DebugFIFOCount;
UINT DebugTxCount;
BOOLEAN bDlsInit;
//====================================================
//WDS entry needs these
// rt2860 add this. if ValidAsWDS==TRUE, MatchWDSTabIdx is the index in WdsTab.MacTab
UINT MatchWDSTabIdx;
UCHAR MaxSupportedRate;
UCHAR CurrTxRate;
UCHAR CurrTxRateIndex;
// to record the each TX rate's quality. 0 is best, the bigger the worse.
USHORT TxQuality[MAX_STEP_OF_TX_RATE_SWITCH];
UINT32 OneSecTxNoRetryOkCount;
UINT32 OneSecTxRetryOkCount;
UINT32 OneSecTxFailCount;
UINT32 ContinueTxFailCnt;
UINT32 CurrTxRateStableTime; // # of second in current TX rate
UCHAR TxRateUpPenalty; // extra # of second penalty due to last unstable condition
//====================================================
BOOLEAN fNoisyEnvironment;
BOOLEAN fLastSecAccordingRSSI;
UCHAR LastSecTxRateChangeAction; // 0: no change, 1:rate UP, 2:rate down
CHAR LastTimeTxRateChangeAction; //Keep last time value of LastSecTxRateChangeAction
ULONG LastTxOkCount;
UCHAR PER[MAX_STEP_OF_TX_RATE_SWITCH];
// a bitmap of BOOLEAN flags. each bit represent an operation status of a particular
// BOOLEAN control, either ON or OFF. These flags should always be accessed via
// CLIENT_STATUS_TEST_FLAG(), CLIENT_STATUS_SET_FLAG(), CLIENT_STATUS_CLEAR_FLAG() macros.
// see fOP_STATUS_xxx in RTMP_DEF.C for detail bit definition. fCLIENT_STATUS_AMSDU_INUSED
ULONG ClientStatusFlags;
HTTRANSMIT_SETTING HTPhyMode, MaxHTPhyMode, MinHTPhyMode;// For transmit phy setting in TXWI.
// HT EWC MIMO-N used parameters
USHORT RXBAbitmap; // fill to on-chip RXWI_BA_BITMASK in 8.1.3RX attribute entry format
USHORT TXBAbitmap; // This bitmap as originator, only keep in software used to mark AMPDU bit in TXWI
USHORT TXAutoBAbitmap;
USHORT BADeclineBitmap;
USHORT BARecWcidArray[NUM_OF_TID]; // The mapping wcid of recipient session. if RXBAbitmap bit is masked
USHORT BAOriWcidArray[NUM_OF_TID]; // The mapping wcid of originator session. if TXBAbitmap bit is masked
USHORT BAOriSequence[NUM_OF_TID]; // The mapping wcid of originator session. if TXBAbitmap bit is masked
// 802.11n features.
UCHAR MpduDensity;
UCHAR MaxRAmpduFactor;
UCHAR AMsduSize;
UCHAR MmpsMode; // MIMO power save more.
HT_CAPABILITY_IE HTCapability;
BOOLEAN bAutoTxRateSwitch;
UCHAR RateLen;
struct _MAC_TABLE_ENTRY *pNext;
USHORT TxSeq[NUM_OF_TID];
USHORT NonQosDataSeq;
RSSI_SAMPLE RssiSample;
UINT32 TXMCSExpected[16];
UINT32 TXMCSSuccessful[16];
UINT32 TXMCSFailed[16];
UINT32 TXMCSAutoFallBack[16][16];
#ifdef RT2870
ULONG LastBeaconRxTime;
#endif
} MAC_TABLE_ENTRY, *PMAC_TABLE_ENTRY;
typedef struct _MAC_TABLE {
USHORT Size;
MAC_TABLE_ENTRY *Hash[HASH_TABLE_SIZE];
MAC_TABLE_ENTRY Content[MAX_LEN_OF_MAC_TABLE];
QUEUE_HEADER McastPsQueue;
ULONG PsQIdleCount;
BOOLEAN fAnyStationInPsm;
BOOLEAN fAnyStationBadAtheros; // Check if any Station is atheros 802.11n Chip. We need to use RTS/CTS with Atheros 802,.11n chip.
BOOLEAN fAnyTxOPForceDisable; // Check if it is necessary to disable BE TxOP
#ifdef RT2870
BOOLEAN fAllStationAsRalink; // Check if all stations are ralink-chipset
#endif
BOOLEAN fAnyStationIsLegacy; // Check if I use legacy rate to transmit to my BSS Station/
BOOLEAN fAnyStationNonGF; // Check if any Station can't support GF.
BOOLEAN fAnyStation20Only; // Check if any Station can't support GF.
BOOLEAN fAnyStationMIMOPSDynamic; // Check if any Station is MIMO Dynamic
BOOLEAN fAnyBASession; // Check if there is BA session. Force turn on RTS/CTS
} MAC_TABLE, *PMAC_TABLE;
#define IS_HT_STA(_pMacEntry) \
(_pMacEntry->MaxHTPhyMode.field.MODE >= MODE_HTMIX)
#define IS_HT_RATE(_pMacEntry) \
(_pMacEntry->HTPhyMode.field.MODE >= MODE_HTMIX)
#define PEER_IS_HT_RATE(_pMacEntry) \
(_pMacEntry->HTPhyMode.field.MODE >= MODE_HTMIX)
typedef struct _WDS_ENTRY {
BOOLEAN Valid;
UCHAR Addr[MAC_ADDR_LEN];
ULONG NoDataIdleCount;
struct _WDS_ENTRY *pNext;
} WDS_ENTRY, *PWDS_ENTRY;
typedef struct _WDS_TABLE_ENTRY {
USHORT Size;
UCHAR WdsAddr[MAC_ADDR_LEN];
WDS_ENTRY *Hash[HASH_TABLE_SIZE];
WDS_ENTRY Content[MAX_LEN_OF_MAC_TABLE];
UCHAR MaxSupportedRate;
UCHAR CurrTxRate;
USHORT TxQuality[MAX_LEN_OF_SUPPORTED_RATES];
USHORT OneSecTxOkCount;
USHORT OneSecTxRetryOkCount;
USHORT OneSecTxFailCount;
ULONG CurrTxRateStableTime; // # of second in current TX rate
UCHAR TxRateUpPenalty; // extra # of second penalty due to last unstable condition
} WDS_TABLE_ENTRY, *PWDS_TABLE_ENTRY;
typedef struct _RT_802_11_WDS_ENTRY {
PNET_DEV dev;
UCHAR Valid;
UCHAR PhyMode;
UCHAR PeerWdsAddr[MAC_ADDR_LEN];
UCHAR MacTabMatchWCID; // ASIC
NDIS_802_11_WEP_STATUS WepStatus;
UCHAR KeyIdx;
CIPHER_KEY WdsKey;
HTTRANSMIT_SETTING HTPhyMode, MaxHTPhyMode, MinHTPhyMode;
RT_HT_PHY_INFO DesiredHtPhyInfo;
BOOLEAN bAutoTxRateSwitch;
DESIRED_TRANSMIT_SETTING DesiredTransmitSetting; // Desired transmit setting.
} RT_802_11_WDS_ENTRY, *PRT_802_11_WDS_ENTRY;
typedef struct _WDS_TABLE {
UCHAR Mode;
ULONG Size;
RT_802_11_WDS_ENTRY WdsEntry[MAX_WDS_ENTRY];
} WDS_TABLE, *PWDS_TABLE;
typedef struct _APCLI_STRUCT {
PNET_DEV dev;
#ifdef RTL865X_SOC
unsigned int mylinkid;
#endif
BOOLEAN Enable; // Set it as 1 if the apcli interface was configured to "1" or by iwpriv cmd "ApCliEnable"
BOOLEAN Valid; // Set it as 1 if the apcli interface associated success to remote AP.
UCHAR MacTabWCID; //WCID value, which point to the entry of ASIC Mac table.
UCHAR SsidLen;
CHAR Ssid[MAX_LEN_OF_SSID];
UCHAR CfgSsidLen;
CHAR CfgSsid[MAX_LEN_OF_SSID];
UCHAR CfgApCliBssid[ETH_LENGTH_OF_ADDRESS];
UCHAR CurrentAddress[ETH_LENGTH_OF_ADDRESS];
ULONG ApCliRcvBeaconTime;
ULONG CtrlCurrState;
ULONG SyncCurrState;
ULONG AuthCurrState;
ULONG AssocCurrState;
ULONG WpaPskCurrState;
USHORT AuthReqCnt;
USHORT AssocReqCnt;
ULONG ClientStatusFlags;
UCHAR MpduDensity;
NDIS_802_11_AUTHENTICATION_MODE AuthMode; // This should match to whatever microsoft defined
NDIS_802_11_WEP_STATUS WepStatus;
// Add to support different cipher suite for WPA2/WPA mode
NDIS_802_11_ENCRYPTION_STATUS GroupCipher; // Multicast cipher suite
NDIS_802_11_ENCRYPTION_STATUS PairCipher; // Unicast cipher suite
BOOLEAN bMixCipher; // Indicate current Pair & Group use different cipher suites
USHORT RsnCapability;
UCHAR PSK[100]; // reserve PSK key material
UCHAR PSKLen;
UCHAR PMK[32]; // WPA PSK mode PMK
UCHAR GTK[32]; // GTK from authenticator
CIPHER_KEY SharedKey[SHARE_KEY_NUM];
UCHAR DefaultKeyId;
// store RSN_IE built by driver
UCHAR RSN_IE[MAX_LEN_OF_RSNIE]; // The content saved here should be convert to little-endian format.
UCHAR RSNIE_Len;
// For WPA countermeasures
ULONG LastMicErrorTime; // record last MIC error time
BOOLEAN bBlockAssoc; // Block associate attempt for 60 seconds after counter measure occurred.
// For WPA-PSK supplicant state
UCHAR SNonce[32]; // SNonce for WPA-PSK
UCHAR GNonce[32]; // GNonce for WPA-PSK from authenticator
HTTRANSMIT_SETTING HTPhyMode, MaxHTPhyMode, MinHTPhyMode;
RT_HT_PHY_INFO DesiredHtPhyInfo;
BOOLEAN bAutoTxRateSwitch;
DESIRED_TRANSMIT_SETTING DesiredTransmitSetting; // Desired transmit setting.
} APCLI_STRUCT, *PAPCLI_STRUCT;
// ----------- end of AP ----------------------------
struct wificonf
{
BOOLEAN bShortGI;
BOOLEAN bGreenField;
};
typedef struct _INF_PCI_CONFIG
{
PUCHAR CSRBaseAddress; // PCI MMIO Base Address, all access will use
}INF_PCI_CONFIG;
typedef struct _INF_USB_CONFIG
{
UINT BulkInEpAddr; // bulk-in endpoint address
UINT BulkOutEpAddr[6]; // bulk-out endpoint address
}INF_USB_CONFIG;
//
// The miniport adapter structure
//
typedef struct _RTMP_ADAPTER
{
PVOID OS_Cookie; // save specific structure relative to OS
PNET_DEV net_dev;
ULONG VirtualIfCnt;
#ifdef RT2860
USHORT LnkCtrlBitMask;
USHORT RLnkCtrlConfiguration;
USHORT RLnkCtrlOffset;
USHORT HostLnkCtrlConfiguration;
USHORT HostLnkCtrlOffset;
USHORT PCIePowerSaveLevel;
BOOLEAN bPCIclkOff; // flag that indicate if the PICE power status in Configuration SPace..
ULONG CheckDmaBusyCount; // Check Interrupt Status Register Count.
USHORT ThisTbttNumToNextWakeUp;
ULONG SameRxByteCount;
/*****************************************************************************************/
/* PCI related parameters */
/*****************************************************************************************/
PUCHAR CSRBaseAddress; // PCI MMIO Base Address, all access will use
UINT int_enable_reg;
UINT int_disable_mask;
UINT int_pending;
RTMP_DMABUF TxBufSpace[NUM_OF_TX_RING]; // Shared memory of all 1st pre-allocated TxBuf associated with each TXD
RTMP_DMABUF RxDescRing; // Shared memory for RX descriptors
RTMP_DMABUF TxDescRing[NUM_OF_TX_RING]; // Shared memory for Tx descriptors
RTMP_TX_RING TxRing[NUM_OF_TX_RING]; // AC0~4 + HCCA
#endif
NDIS_SPIN_LOCK irq_lock;
UCHAR irq_disabled;
#ifdef RT2870
/*****************************************************************************************/
/* USB related parameters */
/*****************************************************************************************/
struct usb_config_descriptor *config;
UINT BulkInEpAddr; // bulk-in endpoint address
UINT BulkOutEpAddr[6]; // bulk-out endpoint address
UINT NumberOfPipes;
USHORT BulkOutMaxPacketSize;
USHORT BulkInMaxPacketSize;
//======Control Flags
LONG PendingIoCount;
ULONG BulkFlags;
BOOLEAN bUsbTxBulkAggre; // Flags for bulk out data priority
//======Timer Thread
RT2870_TIMER_QUEUE TimerQ;
NDIS_SPIN_LOCK TimerQLock;
//======Cmd Thread
CmdQ CmdQ;
NDIS_SPIN_LOCK CmdQLock; // CmdQLock spinlock
BOOLEAN TimerFunc_kill;
BOOLEAN mlme_kill;
//======Semaphores (event)
struct semaphore mlme_semaphore; /* to sleep thread on */
struct semaphore RTUSBCmd_semaphore; /* to sleep thread on */
struct semaphore RTUSBTimer_semaphore;
struct completion TimerQComplete;
struct completion mlmeComplete;
struct completion CmdQComplete;
wait_queue_head_t *wait;
#endif // RT2870 //
/*****************************************************************************************/
/* Both PCI/USB related parameters */
/*****************************************************************************************/
/*****************************************************************************************/
/* Tx related parameters */
/*****************************************************************************************/
BOOLEAN DeQueueRunning[NUM_OF_TX_RING]; // for ensuring RTUSBDeQueuePacket get call once
NDIS_SPIN_LOCK DeQueueLock[NUM_OF_TX_RING];
#ifdef RT2870
// Data related context and AC specified, 4 AC supported
NDIS_SPIN_LOCK BulkOutLock[6]; // BulkOut spinlock for 4 ACs
NDIS_SPIN_LOCK MLMEBulkOutLock; // MLME BulkOut lock
HT_TX_CONTEXT TxContext[NUM_OF_TX_RING];
NDIS_SPIN_LOCK TxContextQueueLock[NUM_OF_TX_RING]; // TxContextQueue spinlock
// 4 sets of Bulk Out index and pending flag
UCHAR NextBulkOutIndex[4]; // only used for 4 EDCA bulkout pipe
BOOLEAN BulkOutPending[6]; // used for total 6 bulkout pipe
UCHAR bulkResetPipeid;
BOOLEAN MgmtBulkPending;
ULONG bulkResetReq[6];
#endif // RT2870 //
// resource for software backlog queues
QUEUE_HEADER TxSwQueue[NUM_OF_TX_RING]; // 4 AC + 1 HCCA
NDIS_SPIN_LOCK TxSwQueueLock[NUM_OF_TX_RING]; // TxSwQueue spinlock
RTMP_DMABUF MgmtDescRing; // Shared memory for MGMT descriptors
RTMP_MGMT_RING MgmtRing;
NDIS_SPIN_LOCK MgmtRingLock; // Prio Ring spinlock
/*****************************************************************************************/
/* Rx related parameters */
/*****************************************************************************************/
#ifdef RT2860
RTMP_RX_RING RxRing;
NDIS_SPIN_LOCK RxRingLock; // Rx Ring spinlock
#endif
#ifdef RT2870
RX_CONTEXT RxContext[RX_RING_SIZE]; // 1 for redundant multiple IRP bulk in.
NDIS_SPIN_LOCK BulkInLock; // BulkIn spinlock for 4 ACs
UCHAR PendingRx; // The Maxima pending Rx value should be RX_RING_SIZE.
UCHAR NextRxBulkInIndex; // Indicate the current RxContext Index which hold by Host controller.
UCHAR NextRxBulkInReadIndex; // Indicate the current RxContext Index which driver can read & process it.
ULONG NextRxBulkInPosition; // Want to contatenate 2 URB buffer while 1st is bulkin failed URB. This Position is 1st URB TransferLength.
ULONG TransferBufferLength; // current length of the packet buffer
ULONG ReadPosition; // current read position in a packet buffer
#endif // RT2870 //
/*****************************************************************************************/
/* ASIC related parameters */
/*****************************************************************************************/
UINT32 MACVersion; // MAC version. Record rt2860C(0x28600100) or rt2860D (0x28600101)..
// ---------------------------
// E2PROM
// ---------------------------
ULONG EepromVersion; // byte 0: version, byte 1: revision, byte 2~3: unused
UCHAR EEPROMAddressNum; // 93c46=6 93c66=8
USHORT EEPROMDefaultValue[NUM_EEPROM_BBP_PARMS];
#ifdef RT2870
BOOLEAN EepromAccess;
#endif
ULONG FirmwareVersion; // byte 0: Minor version, byte 1: Major version, otherwise unused.
// ---------------------------
// BBP Control
// ---------------------------
UCHAR BbpWriteLatch[140]; // record last BBP register value written via BBP_IO_WRITE/BBP_IO_WRITE_VY_REG_ID
UCHAR BbpRssiToDbmDelta;
BBP_R66_TUNING BbpTuning;
// ----------------------------
// RFIC control
// ----------------------------
UCHAR RfIcType; // RFIC_xxx
ULONG RfFreqOffset; // Frequency offset for channel switching
RTMP_RF_REGS LatchRfRegs; // latch th latest RF programming value since RF IC doesn't support READ
EEPROM_ANTENNA_STRUC Antenna; // Since ANtenna definition is different for a & g. We need to save it for future reference.
EEPROM_NIC_CONFIG2_STRUC NicConfig2;
// This soft Rx Antenna Diversity mechanism is used only when user set
// RX Antenna = DIVERSITY ON
SOFT_RX_ANT_DIVERSITY RxAnt;
UCHAR RFProgSeq;
CHANNEL_TX_POWER TxPower[MAX_NUM_OF_CHANNELS]; // Store Tx power value for all channels.
CHANNEL_TX_POWER ChannelList[MAX_NUM_OF_CHANNELS]; // list all supported channels for site survey
CHANNEL_11J_TX_POWER TxPower11J[MAX_NUM_OF_11JCHANNELS]; // 802.11j channel and bw
CHANNEL_11J_TX_POWER ChannelList11J[MAX_NUM_OF_11JCHANNELS]; // list all supported channels for site survey
UCHAR ChannelListNum; // number of channel in ChannelList[]
UCHAR Bbp94;
BOOLEAN BbpForCCK;
ULONG Tx20MPwrCfgABand[5];
ULONG Tx20MPwrCfgGBand[5];
ULONG Tx40MPwrCfgABand[5];
ULONG Tx40MPwrCfgGBand[5];
BOOLEAN bAutoTxAgcA; // Enable driver auto Tx Agc control
UCHAR TssiRefA; // Store Tssi reference value as 25 temperature.
UCHAR TssiPlusBoundaryA[5]; // Tssi boundary for increase Tx power to compensate.
UCHAR TssiMinusBoundaryA[5]; // Tssi boundary for decrease Tx power to compensate.
UCHAR TxAgcStepA; // Store Tx TSSI delta increment / decrement value
CHAR TxAgcCompensateA; // Store the compensation (TxAgcStep * (idx-1))
BOOLEAN bAutoTxAgcG; // Enable driver auto Tx Agc control
UCHAR TssiRefG; // Store Tssi reference value as 25 temperature.
UCHAR TssiPlusBoundaryG[5]; // Tssi boundary for increase Tx power to compensate.
UCHAR TssiMinusBoundaryG[5]; // Tssi boundary for decrease Tx power to compensate.
UCHAR TxAgcStepG; // Store Tx TSSI delta increment / decrement value
CHAR TxAgcCompensateG; // Store the compensation (TxAgcStep * (idx-1))
//+++For RT2870, the parameteres is start from BGRssiOffset1 ~ BGRssiOffset3
CHAR BGRssiOffset0; // Store B/G RSSI#0 Offset value on EEPROM 0x46h
CHAR BGRssiOffset1; // Store B/G RSSI#1 Offset value
CHAR BGRssiOffset2; // Store B/G RSSI#2 Offset value
//---
//+++For RT2870, the parameteres is start from ARssiOffset1 ~ ARssiOffset3
CHAR ARssiOffset0; // Store A RSSI#0 Offset value on EEPROM 0x4Ah
CHAR ARssiOffset1; // Store A RSSI#1 Offset value
CHAR ARssiOffset2; // Store A RSSI#2 Offset value
//---
CHAR BLNAGain; // Store B/G external LNA#0 value on EEPROM 0x44h
CHAR ALNAGain0; // Store A external LNA#0 value for ch36~64
CHAR ALNAGain1; // Store A external LNA#1 value for ch100~128
CHAR ALNAGain2; // Store A external LNA#2 value for ch132~165
// ----------------------------
// LED control
// ----------------------------
MCU_LEDCS_STRUC LedCntl;
USHORT Led1; // read from EEPROM 0x3c
USHORT Led2; // EEPROM 0x3e
USHORT Led3; // EEPROM 0x40
UCHAR LedIndicatorStregth;
UCHAR RssiSingalstrengthOffet;
BOOLEAN bLedOnScanning;
UCHAR LedStatus;
/*****************************************************************************************/
/* 802.11 related parameters */
/*****************************************************************************************/
// outgoing BEACON frame buffer and corresponding TXD
TXWI_STRUC BeaconTxWI;
PUCHAR BeaconBuf;
USHORT BeaconOffset[HW_BEACON_MAX_COUNT];
// pre-build PS-POLL and NULL frame upon link up. for efficiency purpose.
PSPOLL_FRAME PsPollFrame;
HEADER_802_11 NullFrame;
#ifdef RT2870
TX_CONTEXT BeaconContext[BEACON_RING_SIZE];
TX_CONTEXT NullContext;
TX_CONTEXT PsPollContext;
TX_CONTEXT RTSContext;
#endif // RT2870 //
//=========AP===========
//=======STA===========
/* Modified by Wu Xi-Kun 4/21/2006 */
// -----------------------------------------------
// STA specific configuration & operation status
// used only when pAd->OpMode == OPMODE_STA
// -----------------------------------------------
STA_ADMIN_CONFIG StaCfg; // user desired settings
STA_ACTIVE_CONFIG StaActive; // valid only when ADHOC_ON(pAd) || INFRA_ON(pAd)
CHAR nickname[IW_ESSID_MAX_SIZE+1]; // nickname, only used in the iwconfig i/f
NDIS_MEDIA_STATE PreMediaState;
//=======Common===========
// OP mode: either AP or STA
UCHAR OpMode; // OPMODE_STA, OPMODE_AP
NDIS_MEDIA_STATE IndicateMediaState; // Base on Indication state, default is NdisMediaStateDisConnected
// configuration: read from Registry & E2PROM
BOOLEAN bLocalAdminMAC; // Use user changed MAC
UCHAR PermanentAddress[MAC_ADDR_LEN]; // Factory default MAC address
UCHAR CurrentAddress[MAC_ADDR_LEN]; // User changed MAC address
// ------------------------------------------------------
// common configuration to both OPMODE_STA and OPMODE_AP
// ------------------------------------------------------
COMMON_CONFIG CommonCfg;
MLME_STRUCT Mlme;
// AP needs those vaiables for site survey feature.
MLME_AUX MlmeAux; // temporary settings used during MLME state machine
BSS_TABLE ScanTab; // store the latest SCAN result
//About MacTab, the sta driver will use #0 and #1 for multicast and AP.
MAC_TABLE MacTab; // ASIC on-chip WCID entry table. At TX, ASIC always use key according to this on-chip table.
NDIS_SPIN_LOCK MacTabLock;
BA_TABLE BATable;
NDIS_SPIN_LOCK BATabLock;
RALINK_TIMER_STRUCT RECBATimer;
// encryption/decryption KEY tables
CIPHER_KEY SharedKey[MAX_MBSSID_NUM][4]; // STA always use SharedKey[BSS0][0..3]
// RX re-assembly buffer for fragmentation
FRAGMENT_FRAME FragFrame; // Frame storage for fragment frame
// various Counters
COUNTER_802_3 Counters8023; // 802.3 counters
COUNTER_802_11 WlanCounters; // 802.11 MIB counters
COUNTER_RALINK RalinkCounters; // Ralink propriety counters
COUNTER_DRS DrsCounters; // counters for Dynamic TX Rate Switching
PRIVATE_STRUC PrivateInfo; // Private information & counters
// flags, see fRTMP_ADAPTER_xxx flags
ULONG Flags; // Represent current device status
#ifdef RT2860
ULONG PSFlags; // Power Save operation flag.
#endif
// current TX sequence #
USHORT Sequence;
// Control disconnect / connect event generation
//+++Didn't used anymore
ULONG LinkDownTime;
//---
ULONG LastRxRate;
ULONG LastTxRate;
//+++Used only for Station
BOOLEAN bConfigChanged; // Config Change flag for the same SSID setting
//---
ULONG ExtraInfo; // Extra information for displaying status
ULONG SystemErrorBitmap; // b0: E2PROM version error
//+++Didn't used anymore
ULONG MacIcVersion; // MAC/BBP serial interface issue solved after ver.D
//---
// ---------------------------
// System event log
// ---------------------------
RT_802_11_EVENT_TABLE EventTab;
BOOLEAN HTCEnable;
/*****************************************************************************************/
/* Statistic related parameters */
/*****************************************************************************************/
#ifdef RT2870
ULONG BulkOutDataOneSecCount;
ULONG BulkInDataOneSecCount;
ULONG BulkLastOneSecCount; // BulkOutDataOneSecCount + BulkInDataOneSecCount
ULONG watchDogRxCnt;
ULONG watchDogRxOverFlowCnt;
ULONG watchDogTxPendingCnt[NUM_OF_TX_RING];
#endif // RT2870 //
BOOLEAN bUpdateBcnCntDone;
ULONG watchDogMacDeadlock; // prevent MAC/BBP into deadlock condition
// ----------------------------
// DEBUG paramerts
// ----------------------------
BOOLEAN bBanAllBaSetup;
BOOLEAN bPromiscuous;
// ----------------------------
// rt2860c emulation-use Parameters
// ----------------------------
ULONG rtsaccu[30];
ULONG ctsaccu[30];
ULONG cfendaccu[30];
ULONG bacontent[16];
ULONG rxint[RX_RING_SIZE+1];
UCHAR rcvba[60];
BOOLEAN bLinkAdapt;
BOOLEAN bForcePrintTX;
BOOLEAN bForcePrintRX;
BOOLEAN bDisablescanning; //defined in RT2870 USB
BOOLEAN bStaFifoTest;
BOOLEAN bProtectionTest;
BOOLEAN bHCCATest;
BOOLEAN bGenOneHCCA;
BOOLEAN bBroadComHT;
//+++Following add from RT2870 USB.
ULONG BulkOutReq;
ULONG BulkOutComplete;
ULONG BulkOutCompleteOther;
ULONG BulkOutCompleteCancel; // seems not use now?
ULONG BulkInReq;
ULONG BulkInComplete;
ULONG BulkInCompleteFail;
//---
struct wificonf WIFItestbed;
struct reordering_mpdu_pool mpdu_blk_pool;
ULONG OneSecondnonBEpackets; // record non BE packets per second
struct iw_statistics iw_stats;
struct net_device_stats stats;
ULONG TbttTickCount;
#ifdef PCI_MSI_SUPPORT
BOOLEAN HaveMsi;
#endif // PCI_MSI_SUPPORT //
UCHAR is_on;
#define TIME_BASE (1000000/OS_HZ)
#define TIME_ONE_SECOND (1000000/TIME_BASE)
UCHAR flg_be_adjust;
ULONG be_adjust_last_time;
UINT8 PM_FlgSuspend;
#ifdef RT2870
BOOLEAN bUseEfuse;
#endif
} RTMP_ADAPTER, *PRTMP_ADAPTER;
//
// Cisco IAPP format
//
typedef struct _CISCO_IAPP_CONTENT_
{
USHORT Length; //IAPP Length
UCHAR MessageType; //IAPP type
UCHAR FunctionCode; //IAPP function type
UCHAR DestinaionMAC[MAC_ADDR_LEN];
UCHAR SourceMAC[MAC_ADDR_LEN];
USHORT Tag; //Tag(element IE) - Adjacent AP report
USHORT TagLength; //Length of element not including 4 byte header
UCHAR OUI[4]; //0x00, 0x40, 0x96, 0x00
UCHAR PreviousAP[MAC_ADDR_LEN]; //MAC Address of access point
USHORT Channel;
USHORT SsidLen;
UCHAR Ssid[MAX_LEN_OF_SSID];
USHORT Seconds; //Seconds that the client has been disassociated.
} CISCO_IAPP_CONTENT, *PCISCO_IAPP_CONTENT;
#define DELAYINTMASK 0x0003fffb
#define INTMASK 0x0003fffb
#define IndMask 0x0003fffc
#define RxINT 0x00000005 // Delayed Rx or indivi rx
#define TxDataInt 0x000000fa // Delayed Tx or indivi tx
#define TxMgmtInt 0x00000102 // Delayed Tx or indivi tx
#define TxCoherent 0x00020000 // tx coherent
#define RxCoherent 0x00010000 // rx coherent
#define McuCommand 0x00000200 // mcu
#define PreTBTTInt 0x00001000 // Pre-TBTT interrupt
#define TBTTInt 0x00000800 // TBTT interrupt
#define GPTimeOutInt 0x00008000 // GPtimeout interrupt
#define AutoWakeupInt 0x00004000 // AutoWakeupInt interrupt
#define FifoStaFullInt 0x00002000 // fifo statistics full interrupt
typedef struct _RX_BLK_
{
RT28XX_RXD_STRUC RxD;
PRXWI_STRUC pRxWI;
PHEADER_802_11 pHeader;
PNDIS_PACKET pRxPacket;
UCHAR *pData;
USHORT DataSize;
USHORT Flags;
UCHAR UserPriority; // for calculate TKIP MIC using
} RX_BLK;
#define RX_BLK_SET_FLAG(_pRxBlk, _flag) (_pRxBlk->Flags |= _flag)
#define RX_BLK_TEST_FLAG(_pRxBlk, _flag) (_pRxBlk->Flags & _flag)
#define RX_BLK_CLEAR_FLAG(_pRxBlk, _flag) (_pRxBlk->Flags &= ~(_flag))
#define fRX_WDS 0x0001
#define fRX_AMSDU 0x0002
#define fRX_ARALINK 0x0004
#define fRX_HTC 0x0008
#define fRX_PAD 0x0010
#define fRX_AMPDU 0x0020
#define fRX_QOS 0x0040
#define fRX_INFRA 0x0080
#define fRX_EAP 0x0100
#define fRX_MESH 0x0200
#define fRX_APCLI 0x0400
#define fRX_DLS 0x0800
#define fRX_WPI 0x1000
#define LENGTH_AMSDU_SUBFRAMEHEAD 14
#define LENGTH_ARALINK_SUBFRAMEHEAD 14
#define LENGTH_ARALINK_HEADER_FIELD 2
#define TX_UNKOWN_FRAME 0x00
#define TX_MCAST_FRAME 0x01
#define TX_LEGACY_FRAME 0x02
#define TX_AMPDU_FRAME 0x04
#define TX_AMSDU_FRAME 0x08
#define TX_RALINK_FRAME 0x10
#define TX_FRAG_FRAME 0x20
// Currently the sizeof(TX_BLK) is 148 bytes.
typedef struct _TX_BLK_
{
UCHAR QueIdx;
UCHAR TxFrameType; // Indicate the Transmission type of the all frames in one batch
UCHAR TotalFrameNum; // Total frame number want to send-out in one batch
USHORT TotalFragNum; // Total frame fragments required in one batch
USHORT TotalFrameLen; // Total length of all frames want to send-out in one batch
QUEUE_HEADER TxPacketList;
MAC_TABLE_ENTRY *pMacEntry; // NULL: packet with 802.11 RA field is multicast/broadcast address
HTTRANSMIT_SETTING *pTransmit;
// Following structure used for the characteristics of a specific packet.
PNDIS_PACKET pPacket;
PUCHAR pSrcBufHeader; // Reference to the head of sk_buff->data
PUCHAR pSrcBufData; // Reference to the sk_buff->data, will changed depends on hanlding progresss
UINT SrcBufLen; // Length of packet payload which not including Layer 2 header
PUCHAR pExtraLlcSnapEncap; // NULL means no extra LLC/SNAP is required
UCHAR HeaderBuf[80]; // TempBuffer for TX_INFO + TX_WI + 802.11 Header + padding + AMSDU SubHeader + LLC/SNAP
UCHAR MpduHeaderLen; // 802.11 header length NOT including the padding
UCHAR HdrPadLen; // recording Header Padding Length;
UCHAR apidx; // The interface associated to this packet
UCHAR Wcid; // The MAC entry associated to this packet
UCHAR UserPriority; // priority class of packet
UCHAR FrameGap; // what kind of IFS this packet use
UCHAR MpduReqNum; // number of fragments of this frame
UCHAR TxRate; // TODO: Obsoleted? Should change to MCS?
UCHAR CipherAlg; // cipher alogrithm
PCIPHER_KEY pKey;
USHORT Flags; //See following definitions for detail.
//YOU SHOULD NOT TOUCH IT! Following parameters are used for hardware-depended layer.
ULONG Priv; // Hardware specific value saved in here.
} TX_BLK, *PTX_BLK;
#define fTX_bRtsRequired 0x0001 // Indicate if need send RTS frame for protection. Not used in RT2860/RT2870.
#define fTX_bAckRequired 0x0002 // the packet need ack response
#define fTX_bPiggyBack 0x0004 // Legacy device use Piggback or not
#define fTX_bHTRate 0x0008 // allow to use HT rate
#define fTX_bForceNonQoS 0x0010 // force to transmit frame without WMM-QoS in HT mode
#define fTX_bAllowFrag 0x0020 // allow to fragment the packet, A-MPDU, A-MSDU, A-Ralink is not allowed to fragment
#define fTX_bMoreData 0x0040 // there are more data packets in PowerSave Queue
#define fTX_bWMM 0x0080 // QOS Data
#define fTX_bClearEAPFrame 0x0100
#define TX_BLK_ASSIGN_FLAG(_pTxBlk, _flag, value) \
do { \
if (value) \
(_pTxBlk->Flags |= _flag) \
else \
(_pTxBlk->Flags &= ~(_flag)) \
}while(0)
#define TX_BLK_SET_FLAG(_pTxBlk, _flag) (_pTxBlk->Flags |= _flag)
#define TX_BLK_TEST_FLAG(_pTxBlk, _flag) (((_pTxBlk->Flags & _flag) == _flag) ? 1 : 0)
#define TX_BLK_CLEAR_FLAG(_pTxBlk, _flag) (_pTxBlk->Flags &= ~(_flag))
//------------------------------------------------------------------------------------------
#ifdef RT2860
//
// Enable & Disable NIC interrupt via writing interrupt mask register
// Since it use ADAPTER structure, it have to be put after structure definition.
//
__inline VOID NICDisableInterrupt(
IN PRTMP_ADAPTER pAd)
{
RTMP_IO_WRITE32(pAd, INT_MASK_CSR, 0x0); // 0: disable
//RTMP_IO_WRITE32(pAd, PBF_INT_ENA, 0x0); // 0x418 is for firmware . SW doesn't handle here.
RTMP_CLEAR_FLAG(pAd, fRTMP_ADAPTER_INTERRUPT_ACTIVE);
}
__inline VOID NICEnableInterrupt(
IN PRTMP_ADAPTER pAd)
{
//
// Flag "fOP_STATUS_DOZE" On, means ASIC put to sleep, else means ASIC WakeUp
// To prevent System hang, we should enalbe the interrupt when
// ASIC is already Wake Up.
//
// RT2661 => when ASIC is sleeping, MAC register cannot be read and written.
// RT2860 => when ASIC is sleeping, MAC register can be read and written.
//if (!OPSTATUS_TEST_FLAG(pAd, fOP_STATUS_DOZE))
{
RTMP_IO_WRITE32(pAd, INT_MASK_CSR, pAd->int_enable_reg /*DELAYINTMASK*/); // 1:enable
}
//else
// DBGPRINT(RT_DEBUG_TRACE, ("fOP_STATUS_DOZE !\n"));
//RTMP_IO_WRITE32(pAd, PBF_INT_ENA, 0x00000030); // 1 : enable
RTMP_SET_FLAG(pAd, fRTMP_ADAPTER_INTERRUPT_ACTIVE);
}
static inline VOID ConvertMulticastIP2MAC(
IN PUCHAR pIpAddr,
IN PUCHAR *ppMacAddr,
IN UINT16 ProtoType)
{
if (pIpAddr == NULL)
return;
if (ppMacAddr == NULL || *ppMacAddr == NULL)
return;
switch (ProtoType)
{
case ETH_P_IPV6:
// memset(*ppMacAddr, 0, ETH_LENGTH_OF_ADDRESS);
*(*ppMacAddr) = 0x33;
*(*ppMacAddr + 1) = 0x33;
*(*ppMacAddr + 2) = pIpAddr[12];
*(*ppMacAddr + 3) = pIpAddr[13];
*(*ppMacAddr + 4) = pIpAddr[14];
*(*ppMacAddr + 5) = pIpAddr[15];
break;
case ETH_P_IP:
default:
// memset(*ppMacAddr, 0, ETH_LENGTH_OF_ADDRESS);
*(*ppMacAddr) = 0x01;
*(*ppMacAddr + 1) = 0x00;
*(*ppMacAddr + 2) = 0x5e;
*(*ppMacAddr + 3) = pIpAddr[1] & 0x7f;
*(*ppMacAddr + 4) = pIpAddr[2];
*(*ppMacAddr + 5) = pIpAddr[3];
break;
}
return;
}
#endif /* RT2860 */
//
// Private routines in rtmp_init.c
//
NDIS_STATUS RTMPAllocAdapterBlock(
IN PVOID handle,
OUT PRTMP_ADAPTER *ppAdapter
);
NDIS_STATUS RTMPAllocTxRxRingMemory(
IN PRTMP_ADAPTER pAd
);
NDIS_STATUS RTMPReadParametersHook(
IN PRTMP_ADAPTER pAd
);
VOID RTMPFreeAdapter(
IN PRTMP_ADAPTER pAd
);
NDIS_STATUS NICReadRegParameters(
IN PRTMP_ADAPTER pAd,
IN NDIS_HANDLE WrapperConfigurationContext
);
#ifdef RT2870
VOID NICInitRT30xxRFRegisters(
IN PRTMP_ADAPTER pAd);
#endif // RT2870 //
VOID NICReadEEPROMParameters(
IN PRTMP_ADAPTER pAd,
IN PUCHAR mac_addr);
VOID NICInitAsicFromEEPROM(
IN PRTMP_ADAPTER pAd);
VOID NICInitTxRxRingAndBacklogQueue(
IN PRTMP_ADAPTER pAd);
NDIS_STATUS NICInitializeAdapter(
IN PRTMP_ADAPTER pAd,
IN BOOLEAN bHardReset);
NDIS_STATUS NICInitializeAsic(
IN PRTMP_ADAPTER pAd,
IN BOOLEAN bHardReset);
#ifdef RT2860
VOID NICRestoreBBPValue(
IN PRTMP_ADAPTER pAd);
#endif
VOID NICIssueReset(
IN PRTMP_ADAPTER pAd);
VOID RTMPRingCleanUp(
IN PRTMP_ADAPTER pAd,
IN UCHAR RingType);
VOID UserCfgInit(
IN PRTMP_ADAPTER pAd);
VOID NICResetFromError(
IN PRTMP_ADAPTER pAd);
VOID NICEraseFirmware(
IN PRTMP_ADAPTER pAd);
NDIS_STATUS NICLoadFirmware(
IN PRTMP_ADAPTER pAd);
NDIS_STATUS NICLoadRateSwitchingParams(
IN PRTMP_ADAPTER pAd);
BOOLEAN NICCheckForHang(
IN PRTMP_ADAPTER pAd);
VOID NICUpdateFifoStaCounters(
IN PRTMP_ADAPTER pAd);
VOID NICUpdateRawCounters(
IN PRTMP_ADAPTER pAd);
ULONG RTMPNotAllZero(
IN PVOID pSrc1,
IN ULONG Length);
VOID RTMPZeroMemory(
IN PVOID pSrc,
IN ULONG Length);
ULONG RTMPCompareMemory(
IN PVOID pSrc1,
IN PVOID pSrc2,
IN ULONG Length);
VOID RTMPMoveMemory(
OUT PVOID pDest,
IN PVOID pSrc,
IN ULONG Length);
VOID AtoH(
char *src,
UCHAR *dest,
int destlen);
UCHAR BtoH(
char ch);
VOID RTMPPatchMacBbpBug(
IN PRTMP_ADAPTER pAd);
VOID RTMPInitTimer(
IN PRTMP_ADAPTER pAd,
IN PRALINK_TIMER_STRUCT pTimer,
IN PVOID pTimerFunc,
IN PVOID pData,
IN BOOLEAN Repeat);
VOID RTMPSetTimer(
IN PRALINK_TIMER_STRUCT pTimer,
IN ULONG Value);
VOID RTMPModTimer(
IN PRALINK_TIMER_STRUCT pTimer,
IN ULONG Value);
VOID RTMPCancelTimer(
IN PRALINK_TIMER_STRUCT pTimer,
OUT BOOLEAN *pCancelled);
VOID RTMPSetLED(
IN PRTMP_ADAPTER pAd,
IN UCHAR Status);
VOID RTMPSetSignalLED(
IN PRTMP_ADAPTER pAd,
IN NDIS_802_11_RSSI Dbm);
VOID RTMPEnableRxTx(
IN PRTMP_ADAPTER pAd);
//
// prototype in action.c
//
VOID ActionStateMachineInit(
IN PRTMP_ADAPTER pAd,
IN STATE_MACHINE *S,
OUT STATE_MACHINE_FUNC Trans[]);
VOID MlmeADDBAAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID MlmeDELBAAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID MlmeDLSAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID MlmeInvalidAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID MlmeQOSAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerAddBAReqAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerAddBARspAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerDelBAAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerBAAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID SendPSMPAction(
IN PRTMP_ADAPTER pAd,
IN UCHAR Wcid,
IN UCHAR Psmp);
VOID PeerRMAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerPublicAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerHTAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerQOSAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID RECBATimerTimeout(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
VOID ORIBATimerTimeout(
IN PRTMP_ADAPTER pAd);
VOID SendRefreshBAR(
IN PRTMP_ADAPTER pAd,
IN MAC_TABLE_ENTRY *pEntry);
VOID ActHeaderInit(
IN PRTMP_ADAPTER pAd,
IN OUT PHEADER_802_11 pHdr80211,
IN PUCHAR Addr1,
IN PUCHAR Addr2,
IN PUCHAR Addr3);
VOID BarHeaderInit(
IN PRTMP_ADAPTER pAd,
IN OUT PFRAME_BAR pCntlBar,
IN PUCHAR pDA,
IN PUCHAR pSA);
VOID InsertActField(
IN PRTMP_ADAPTER pAd,
OUT PUCHAR pFrameBuf,
OUT PULONG pFrameLen,
IN UINT8 Category,
IN UINT8 ActCode);
BOOLEAN CntlEnqueueForRecv(
IN PRTMP_ADAPTER pAd,
IN ULONG Wcid,
IN ULONG MsgLen,
IN PFRAME_BA_REQ pMsg);
//
// Private routines in rtmp_data.c
//
BOOLEAN RTMPHandleRxDoneInterrupt(
IN PRTMP_ADAPTER pAd);
BOOLEAN RTMPHandleTxRingDmaDoneInterrupt(
IN PRTMP_ADAPTER pAd,
IN INT_SOURCE_CSR_STRUC TxRingBitmap);
VOID RTMPHandleMgmtRingDmaDoneInterrupt(
IN PRTMP_ADAPTER pAd);
VOID RTMPHandleTBTTInterrupt(
IN PRTMP_ADAPTER pAd);
VOID RTMPHandlePreTBTTInterrupt(
IN PRTMP_ADAPTER pAd);
void RTMPHandleTwakeupInterrupt(
IN PRTMP_ADAPTER pAd);
VOID RTMPHandleRxCoherentInterrupt(
IN PRTMP_ADAPTER pAd);
BOOLEAN TxFrameIsAggregatible(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pPrevAddr1,
IN PUCHAR p8023hdr);
BOOLEAN PeerIsAggreOn(
IN PRTMP_ADAPTER pAd,
IN ULONG TxRate,
IN PMAC_TABLE_ENTRY pMacEntry);
NDIS_STATUS Sniff2BytesFromNdisBuffer(
IN PNDIS_BUFFER pFirstBuffer,
IN UCHAR DesiredOffset,
OUT PUCHAR pByte0,
OUT PUCHAR pByte1);
NDIS_STATUS STASendPacket(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET pPacket);
VOID STASendPackets(
IN NDIS_HANDLE MiniportAdapterContext,
IN PPNDIS_PACKET ppPacketArray,
IN UINT NumberOfPackets);
VOID RTMPDeQueuePacket(
IN PRTMP_ADAPTER pAd,
IN BOOLEAN bIntContext,
IN UCHAR QueIdx,
IN UCHAR Max_Tx_Packets);
NDIS_STATUS RTMPHardTransmit(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET pPacket,
IN UCHAR QueIdx,
OUT PULONG pFreeTXDLeft);
NDIS_STATUS STAHardTransmit(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN UCHAR QueIdx);
VOID STARxEAPOLFrameIndicate(
IN PRTMP_ADAPTER pAd,
IN MAC_TABLE_ENTRY *pEntry,
IN RX_BLK *pRxBlk,
IN UCHAR FromWhichBSSID);
NDIS_STATUS RTMPFreeTXDRequest(
IN PRTMP_ADAPTER pAd,
IN UCHAR RingType,
IN UCHAR NumberRequired,
IN PUCHAR FreeNumberIs);
NDIS_STATUS MlmeHardTransmit(
IN PRTMP_ADAPTER pAd,
IN UCHAR QueIdx,
IN PNDIS_PACKET pPacket);
NDIS_STATUS MlmeHardTransmitMgmtRing(
IN PRTMP_ADAPTER pAd,
IN UCHAR QueIdx,
IN PNDIS_PACKET pPacket);
NDIS_STATUS MlmeHardTransmitTxRing(
IN PRTMP_ADAPTER pAd,
IN UCHAR QueIdx,
IN PNDIS_PACKET pPacket);
USHORT RTMPCalcDuration(
IN PRTMP_ADAPTER pAd,
IN UCHAR Rate,
IN ULONG Size);
VOID RTMPWriteTxWI(
IN PRTMP_ADAPTER pAd,
IN PTXWI_STRUC pTxWI,
IN BOOLEAN FRAG,
IN BOOLEAN CFACK,
IN BOOLEAN InsTimestamp,
IN BOOLEAN AMPDU,
IN BOOLEAN Ack,
IN BOOLEAN NSeq, // HW new a sequence.
IN UCHAR BASize,
IN UCHAR WCID,
IN ULONG Length,
IN UCHAR PID,
IN UCHAR TID,
IN UCHAR TxRate,
IN UCHAR Txopmode,
IN BOOLEAN CfAck,
IN HTTRANSMIT_SETTING *pTransmit);
VOID RTMPWriteTxWI_Data(
IN PRTMP_ADAPTER pAd,
IN OUT PTXWI_STRUC pTxWI,
IN TX_BLK *pTxBlk);
VOID RTMPWriteTxWI_Cache(
IN PRTMP_ADAPTER pAd,
IN OUT PTXWI_STRUC pTxWI,
IN TX_BLK *pTxBlk);
VOID RTMPWriteTxDescriptor(
IN PRTMP_ADAPTER pAd,
IN PTXD_STRUC pTxD,
IN BOOLEAN bWIV,
IN UCHAR QSEL);
VOID RTMPSuspendMsduTransmission(
IN PRTMP_ADAPTER pAd);
VOID RTMPResumeMsduTransmission(
IN PRTMP_ADAPTER pAd);
NDIS_STATUS MiniportMMRequest(
IN PRTMP_ADAPTER pAd,
IN UCHAR QueIdx,
IN PUCHAR pData,
IN UINT Length);
VOID RTMPSendNullFrame(
IN PRTMP_ADAPTER pAd,
IN UCHAR TxRate,
IN BOOLEAN bQosNull);
VOID RTMPSendDisassociationFrame(
IN PRTMP_ADAPTER pAd);
VOID RTMPSendRTSFrame(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pDA,
IN unsigned int NextMpduSize,
IN UCHAR TxRate,
IN UCHAR RTSRate,
IN USHORT AckDuration,
IN UCHAR QueIdx,
IN UCHAR FrameGap);
PQUEUE_HEADER RTMPCheckTxSwQueue(
IN PRTMP_ADAPTER pAd,
OUT UCHAR *QueIdx);
VOID RTMPReportMicError(
IN PRTMP_ADAPTER pAd,
IN PCIPHER_KEY pWpaKey);
VOID WpaMicFailureReportFrame(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID WpaDisassocApAndBlockAssoc(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
NDIS_STATUS RTMPCloneNdisPacket(
IN PRTMP_ADAPTER pAd,
IN BOOLEAN pInsAMSDUHdr,
IN PNDIS_PACKET pInPacket,
OUT PNDIS_PACKET *ppOutPacket);
NDIS_STATUS RTMPAllocateNdisPacket(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET *pPacket,
IN PUCHAR pHeader,
IN UINT HeaderLen,
IN PUCHAR pData,
IN UINT DataLen);
VOID RTMPFreeNdisPacket(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET pPacket);
BOOLEAN RTMPFreeTXDUponTxDmaDone(
IN PRTMP_ADAPTER pAd,
IN UCHAR QueIdx);
BOOLEAN RTMPCheckDHCPFrame(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET pPacket);
BOOLEAN RTMPCheckEtherType(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET pPacket);
//
// Private routines in rtmp_wep.c
//
VOID RTMPInitWepEngine(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pKey,
IN UCHAR KeyId,
IN UCHAR KeyLen,
IN PUCHAR pDest);
VOID RTMPEncryptData(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pSrc,
IN PUCHAR pDest,
IN UINT Len);
BOOLEAN RTMPSoftDecryptWEP(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pData,
IN ULONG DataByteCnt,
IN PCIPHER_KEY pGroupKey);
VOID RTMPSetICV(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pDest);
VOID ARCFOUR_INIT(
IN PARCFOURCONTEXT Ctx,
IN PUCHAR pKey,
IN UINT KeyLen);
UCHAR ARCFOUR_BYTE(
IN PARCFOURCONTEXT Ctx);
VOID ARCFOUR_DECRYPT(
IN PARCFOURCONTEXT Ctx,
IN PUCHAR pDest,
IN PUCHAR pSrc,
IN UINT Len);
VOID ARCFOUR_ENCRYPT(
IN PARCFOURCONTEXT Ctx,
IN PUCHAR pDest,
IN PUCHAR pSrc,
IN UINT Len);
VOID WPAARCFOUR_ENCRYPT(
IN PARCFOURCONTEXT Ctx,
IN PUCHAR pDest,
IN PUCHAR pSrc,
IN UINT Len);
UINT RTMP_CALC_FCS32(
IN UINT Fcs,
IN PUCHAR Cp,
IN INT Len);
//
// MLME routines
//
// Asic/RF/BBP related functions
VOID AsicAdjustTxPower(
IN PRTMP_ADAPTER pAd);
VOID AsicUpdateProtect(
IN PRTMP_ADAPTER pAd,
IN USHORT OperaionMode,
IN UCHAR SetMask,
IN BOOLEAN bDisableBGProtect,
IN BOOLEAN bNonGFExist);
VOID AsicSwitchChannel(
IN PRTMP_ADAPTER pAd,
IN UCHAR Channel,
IN BOOLEAN bScan);
VOID AsicLockChannel(
IN PRTMP_ADAPTER pAd,
IN UCHAR Channel) ;
VOID AsicRfTuningExec(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
VOID AsicSleepThenAutoWakeup(
IN PRTMP_ADAPTER pAd,
IN USHORT TbttNumToNextWakeUp);
VOID AsicForceSleep(
IN PRTMP_ADAPTER pAd);
VOID AsicForceWakeup(
IN PRTMP_ADAPTER pAd,
#ifdef RT2860
IN UCHAR Level);
#endif
#ifdef RT2870
IN BOOLEAN bFromTx);
#endif
VOID AsicSetBssid(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pBssid);
VOID AsicSetMcastWC(
IN PRTMP_ADAPTER pAd);
VOID AsicDelWcidTab(
IN PRTMP_ADAPTER pAd,
IN UCHAR Wcid);
VOID AsicEnableRDG(
IN PRTMP_ADAPTER pAd);
VOID AsicDisableRDG(
IN PRTMP_ADAPTER pAd);
VOID AsicDisableSync(
IN PRTMP_ADAPTER pAd);
VOID AsicEnableBssSync(
IN PRTMP_ADAPTER pAd);
VOID AsicEnableIbssSync(
IN PRTMP_ADAPTER pAd);
VOID AsicSetEdcaParm(
IN PRTMP_ADAPTER pAd,
IN PEDCA_PARM pEdcaParm);
VOID AsicSetSlotTime(
IN PRTMP_ADAPTER pAd,
IN BOOLEAN bUseShortSlotTime);
VOID AsicAddSharedKeyEntry(
IN PRTMP_ADAPTER pAd,
IN UCHAR BssIndex,
IN UCHAR KeyIdx,
IN UCHAR CipherAlg,
IN PUCHAR pKey,
IN PUCHAR pTxMic,
IN PUCHAR pRxMic);
VOID AsicRemoveSharedKeyEntry(
IN PRTMP_ADAPTER pAd,
IN UCHAR BssIndex,
IN UCHAR KeyIdx);
VOID AsicUpdateWCIDAttribute(
IN PRTMP_ADAPTER pAd,
IN USHORT WCID,
IN UCHAR BssIndex,
IN UCHAR CipherAlg,
IN BOOLEAN bUsePairewiseKeyTable);
VOID AsicUpdateWCIDIVEIV(
IN PRTMP_ADAPTER pAd,
IN USHORT WCID,
IN ULONG uIV,
IN ULONG uEIV);
VOID AsicUpdateRxWCIDTable(
IN PRTMP_ADAPTER pAd,
IN USHORT WCID,
IN PUCHAR pAddr);
VOID AsicAddKeyEntry(
IN PRTMP_ADAPTER pAd,
IN USHORT WCID,
IN UCHAR BssIndex,
IN UCHAR KeyIdx,
IN PCIPHER_KEY pCipherKey,
IN BOOLEAN bUsePairewiseKeyTable,
IN BOOLEAN bTxKey);
VOID AsicAddPairwiseKeyEntry(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pAddr,
IN UCHAR WCID,
IN CIPHER_KEY *pCipherKey);
VOID AsicRemovePairwiseKeyEntry(
IN PRTMP_ADAPTER pAd,
IN UCHAR BssIdx,
IN UCHAR Wcid);
BOOLEAN AsicSendCommandToMcu(
IN PRTMP_ADAPTER pAd,
IN UCHAR Command,
IN UCHAR Token,
IN UCHAR Arg0,
IN UCHAR Arg1);
#ifdef RT2860
BOOLEAN AsicCheckCommanOk(
IN PRTMP_ADAPTER pAd,
IN UCHAR Command);
#endif
VOID MacAddrRandomBssid(
IN PRTMP_ADAPTER pAd,
OUT PUCHAR pAddr);
VOID MgtMacHeaderInit(
IN PRTMP_ADAPTER pAd,
IN OUT PHEADER_802_11 pHdr80211,
IN UCHAR SubType,
IN UCHAR ToDs,
IN PUCHAR pDA,
IN PUCHAR pBssid);
VOID MlmeRadioOff(
IN PRTMP_ADAPTER pAd);
VOID MlmeRadioOn(
IN PRTMP_ADAPTER pAd);
VOID BssTableInit(
IN BSS_TABLE *Tab);
VOID BATableInit(
IN PRTMP_ADAPTER pAd,
IN BA_TABLE *Tab);
ULONG BssTableSearch(
IN BSS_TABLE *Tab,
IN PUCHAR pBssid,
IN UCHAR Channel);
ULONG BssSsidTableSearch(
IN BSS_TABLE *Tab,
IN PUCHAR pBssid,
IN PUCHAR pSsid,
IN UCHAR SsidLen,
IN UCHAR Channel);
ULONG BssTableSearchWithSSID(
IN BSS_TABLE *Tab,
IN PUCHAR Bssid,
IN PUCHAR pSsid,
IN UCHAR SsidLen,
IN UCHAR Channel);
VOID BssTableDeleteEntry(
IN OUT PBSS_TABLE pTab,
IN PUCHAR pBssid,
IN UCHAR Channel);
VOID BATableDeleteORIEntry(
IN OUT PRTMP_ADAPTER pAd,
IN BA_ORI_ENTRY *pBAORIEntry);
VOID BssEntrySet(
IN PRTMP_ADAPTER pAd,
OUT PBSS_ENTRY pBss,
IN PUCHAR pBssid,
IN CHAR Ssid[],
IN UCHAR SsidLen,
IN UCHAR BssType,
IN USHORT BeaconPeriod,
IN PCF_PARM CfParm,
IN USHORT AtimWin,
IN USHORT CapabilityInfo,
IN UCHAR SupRate[],
IN UCHAR SupRateLen,
IN UCHAR ExtRate[],
IN UCHAR ExtRateLen,
IN HT_CAPABILITY_IE *pHtCapability,
IN ADD_HT_INFO_IE *pAddHtInfo, // AP might use this additional ht info IE
IN UCHAR HtCapabilityLen,
IN UCHAR AddHtInfoLen,
IN UCHAR NewExtChanOffset,
IN UCHAR Channel,
IN CHAR Rssi,
IN LARGE_INTEGER TimeStamp,
IN UCHAR CkipFlag,
IN PEDCA_PARM pEdcaParm,
IN PQOS_CAPABILITY_PARM pQosCapability,
IN PQBSS_LOAD_PARM pQbssLoad,
IN USHORT LengthVIE,
IN PNDIS_802_11_VARIABLE_IEs pVIE);
ULONG BssTableSetEntry(
IN PRTMP_ADAPTER pAd,
OUT PBSS_TABLE pTab,
IN PUCHAR pBssid,
IN CHAR Ssid[],
IN UCHAR SsidLen,
IN UCHAR BssType,
IN USHORT BeaconPeriod,
IN CF_PARM *CfParm,
IN USHORT AtimWin,
IN USHORT CapabilityInfo,
IN UCHAR SupRate[],
IN UCHAR SupRateLen,
IN UCHAR ExtRate[],
IN UCHAR ExtRateLen,
IN HT_CAPABILITY_IE *pHtCapability,
IN ADD_HT_INFO_IE *pAddHtInfo, // AP might use this additional ht info IE
IN UCHAR HtCapabilityLen,
IN UCHAR AddHtInfoLen,
IN UCHAR NewExtChanOffset,
IN UCHAR Channel,
IN CHAR Rssi,
IN LARGE_INTEGER TimeStamp,
IN UCHAR CkipFlag,
IN PEDCA_PARM pEdcaParm,
IN PQOS_CAPABILITY_PARM pQosCapability,
IN PQBSS_LOAD_PARM pQbssLoad,
IN USHORT LengthVIE,
IN PNDIS_802_11_VARIABLE_IEs pVIE);
VOID BATableInsertEntry(
IN PRTMP_ADAPTER pAd,
IN USHORT Aid,
IN USHORT TimeOutValue,
IN USHORT StartingSeq,
IN UCHAR TID,
IN UCHAR BAWinSize,
IN UCHAR OriginatorStatus,
IN BOOLEAN IsRecipient);
VOID BssTableSsidSort(
IN PRTMP_ADAPTER pAd,
OUT BSS_TABLE *OutTab,
IN CHAR Ssid[],
IN UCHAR SsidLen);
VOID BssTableSortByRssi(
IN OUT BSS_TABLE *OutTab);
VOID BssCipherParse(
IN OUT PBSS_ENTRY pBss);
NDIS_STATUS MlmeQueueInit(
IN MLME_QUEUE *Queue);
VOID MlmeQueueDestroy(
IN MLME_QUEUE *Queue);
BOOLEAN MlmeEnqueue(
IN PRTMP_ADAPTER pAd,
IN ULONG Machine,
IN ULONG MsgType,
IN ULONG MsgLen,
IN VOID *Msg);
BOOLEAN MlmeEnqueueForRecv(
IN PRTMP_ADAPTER pAd,
IN ULONG Wcid,
IN ULONG TimeStampHigh,
IN ULONG TimeStampLow,
IN UCHAR Rssi0,
IN UCHAR Rssi1,
IN UCHAR Rssi2,
IN ULONG MsgLen,
IN PVOID Msg,
IN UCHAR Signal);
BOOLEAN MlmeDequeue(
IN MLME_QUEUE *Queue,
OUT MLME_QUEUE_ELEM **Elem);
VOID MlmeRestartStateMachine(
IN PRTMP_ADAPTER pAd);
BOOLEAN MlmeQueueEmpty(
IN MLME_QUEUE *Queue);
BOOLEAN MlmeQueueFull(
IN MLME_QUEUE *Queue);
BOOLEAN MsgTypeSubst(
IN PRTMP_ADAPTER pAd,
IN PFRAME_802_11 pFrame,
OUT INT *Machine,
OUT INT *MsgType);
VOID StateMachineInit(
IN STATE_MACHINE *Sm,
IN STATE_MACHINE_FUNC Trans[],
IN ULONG StNr,
IN ULONG MsgNr,
IN STATE_MACHINE_FUNC DefFunc,
IN ULONG InitState,
IN ULONG Base);
VOID StateMachineSetAction(
IN STATE_MACHINE *S,
IN ULONG St,
ULONG Msg,
IN STATE_MACHINE_FUNC F);
VOID StateMachinePerformAction(
IN PRTMP_ADAPTER pAd,
IN STATE_MACHINE *S,
IN MLME_QUEUE_ELEM *Elem);
VOID Drop(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID AssocStateMachineInit(
IN PRTMP_ADAPTER pAd,
IN STATE_MACHINE *Sm,
OUT STATE_MACHINE_FUNC Trans[]);
VOID ReassocTimeout(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
VOID AssocTimeout(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
VOID DisassocTimeout(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
//----------------------------------------------
VOID MlmeAssocReqAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID MlmeReassocReqAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID MlmeDisassocReqAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerAssocRspAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerReassocRspAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerDisassocAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID DisassocTimeoutAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID AssocTimeoutAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID ReassocTimeoutAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID Cls3errAction(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pAddr);
VOID SwitchBetweenWepAndCkip(
IN PRTMP_ADAPTER pAd);
VOID InvalidStateWhenAssoc(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID InvalidStateWhenReassoc(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID InvalidStateWhenDisassociate(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
#ifdef RT2870
VOID MlmeCntlConfirm(
IN PRTMP_ADAPTER pAd,
IN ULONG MsgType,
IN USHORT Msg);
#endif // RT2870 //
VOID ComposePsPoll(
IN PRTMP_ADAPTER pAd);
VOID ComposeNullFrame(
IN PRTMP_ADAPTER pAd);
VOID AssocPostProc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pAddr2,
IN USHORT CapabilityInfo,
IN USHORT Aid,
IN UCHAR SupRate[],
IN UCHAR SupRateLen,
IN UCHAR ExtRate[],
IN UCHAR ExtRateLen,
IN PEDCA_PARM pEdcaParm,
IN HT_CAPABILITY_IE *pHtCapability,
IN UCHAR HtCapabilityLen,
IN ADD_HT_INFO_IE *pAddHtInfo);
VOID AuthStateMachineInit(
IN PRTMP_ADAPTER pAd,
IN PSTATE_MACHINE sm,
OUT STATE_MACHINE_FUNC Trans[]);
VOID AuthTimeout(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
VOID MlmeAuthReqAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerAuthRspAtSeq2Action(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerAuthRspAtSeq4Action(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID AuthTimeoutAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID Cls2errAction(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pAddr);
VOID MlmeDeauthReqAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID InvalidStateWhenAuth(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
//=============================================
VOID AuthRspStateMachineInit(
IN PRTMP_ADAPTER pAd,
IN PSTATE_MACHINE Sm,
IN STATE_MACHINE_FUNC Trans[]);
VOID PeerDeauthAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerAuthSimpleRspGenAndSend(
IN PRTMP_ADAPTER pAd,
IN PHEADER_802_11 pHdr80211,
IN USHORT Alg,
IN USHORT Seq,
IN USHORT Reason,
IN USHORT Status);
//
// Private routines in dls.c
//
//========================================
VOID SyncStateMachineInit(
IN PRTMP_ADAPTER pAd,
IN STATE_MACHINE *Sm,
OUT STATE_MACHINE_FUNC Trans[]);
VOID BeaconTimeout(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
VOID ScanTimeout(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
VOID InvalidStateWhenScan(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID InvalidStateWhenJoin(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID InvalidStateWhenStart(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID EnqueueProbeRequest(
IN PRTMP_ADAPTER pAd);
BOOLEAN ScanRunning(
IN PRTMP_ADAPTER pAd);
//=========================================
VOID MlmeCntlInit(
IN PRTMP_ADAPTER pAd,
IN STATE_MACHINE *S,
OUT STATE_MACHINE_FUNC Trans[]);
VOID MlmeCntlMachinePerformAction(
IN PRTMP_ADAPTER pAd,
IN STATE_MACHINE *S,
IN MLME_QUEUE_ELEM *Elem);
VOID CntlIdleProc(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID CntlOidScanProc(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID CntlOidSsidProc(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM * Elem);
VOID CntlOidRTBssidProc(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM * Elem);
VOID CntlMlmeRoamingProc(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM * Elem);
VOID CntlWaitDisassocProc(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID CntlWaitJoinProc(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID CntlWaitReassocProc(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID CntlWaitStartProc(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID CntlWaitAuthProc(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID CntlWaitAuthProc2(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID CntlWaitAssocProc(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID LinkUp(
IN PRTMP_ADAPTER pAd,
IN UCHAR BssType);
VOID LinkDown(
IN PRTMP_ADAPTER pAd,
IN BOOLEAN IsReqFromAP);
VOID IterateOnBssTab(
IN PRTMP_ADAPTER pAd);
VOID IterateOnBssTab2(
IN PRTMP_ADAPTER pAd);;
VOID JoinParmFill(
IN PRTMP_ADAPTER pAd,
IN OUT MLME_JOIN_REQ_STRUCT *JoinReq,
IN ULONG BssIdx);
VOID AssocParmFill(
IN PRTMP_ADAPTER pAd,
IN OUT MLME_ASSOC_REQ_STRUCT *AssocReq,
IN PUCHAR pAddr,
IN USHORT CapabilityInfo,
IN ULONG Timeout,
IN USHORT ListenIntv);
VOID ScanParmFill(
IN PRTMP_ADAPTER pAd,
IN OUT MLME_SCAN_REQ_STRUCT *ScanReq,
IN CHAR Ssid[],
IN UCHAR SsidLen,
IN UCHAR BssType,
IN UCHAR ScanType);
VOID DisassocParmFill(
IN PRTMP_ADAPTER pAd,
IN OUT MLME_DISASSOC_REQ_STRUCT *DisassocReq,
IN PUCHAR pAddr,
IN USHORT Reason);
VOID StartParmFill(
IN PRTMP_ADAPTER pAd,
IN OUT MLME_START_REQ_STRUCT *StartReq,
IN CHAR Ssid[],
IN UCHAR SsidLen);
VOID AuthParmFill(
IN PRTMP_ADAPTER pAd,
IN OUT MLME_AUTH_REQ_STRUCT *AuthReq,
IN PUCHAR pAddr,
IN USHORT Alg);
VOID EnqueuePsPoll(
IN PRTMP_ADAPTER pAd);
VOID EnqueueBeaconFrame(
IN PRTMP_ADAPTER pAd);
VOID MlmeJoinReqAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID MlmeScanReqAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID MlmeStartReqAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID ScanTimeoutAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID BeaconTimeoutAtJoinAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerBeaconAtScanAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerBeaconAtJoinAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerBeacon(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID PeerProbeReqAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID ScanNextChannel(
IN PRTMP_ADAPTER pAd);
ULONG MakeIbssBeacon(
IN PRTMP_ADAPTER pAd);
VOID CCXAdjacentAPReport(
IN PRTMP_ADAPTER pAd);
BOOLEAN MlmeScanReqSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *Msg,
IN ULONG MsgLen,
OUT UCHAR *BssType,
OUT CHAR ssid[],
OUT UCHAR *SsidLen,
OUT UCHAR *ScanType);
BOOLEAN PeerBeaconAndProbeRspSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *Msg,
IN ULONG MsgLen,
IN UCHAR MsgChannel,
OUT PUCHAR pAddr2,
OUT PUCHAR pBssid,
OUT CHAR Ssid[],
OUT UCHAR *pSsidLen,
OUT UCHAR *pBssType,
OUT USHORT *pBeaconPeriod,
OUT UCHAR *pChannel,
OUT UCHAR *pNewChannel,
OUT LARGE_INTEGER *pTimestamp,
OUT CF_PARM *pCfParm,
OUT USHORT *pAtimWin,
OUT USHORT *pCapabilityInfo,
OUT UCHAR *pErp,
OUT UCHAR *pDtimCount,
OUT UCHAR *pDtimPeriod,
OUT UCHAR *pBcastFlag,
OUT UCHAR *pMessageToMe,
OUT UCHAR SupRate[],
OUT UCHAR *pSupRateLen,
OUT UCHAR ExtRate[],
OUT UCHAR *pExtRateLen,
OUT UCHAR *pCkipFlag,
OUT UCHAR *pAironetCellPowerLimit,
OUT PEDCA_PARM pEdcaParm,
OUT PQBSS_LOAD_PARM pQbssLoad,
OUT PQOS_CAPABILITY_PARM pQosCapability,
OUT ULONG *pRalinkIe,
OUT UCHAR *pHtCapabilityLen,
OUT UCHAR *pPreNHtCapabilityLen,
OUT HT_CAPABILITY_IE *pHtCapability,
OUT UCHAR *AddHtInfoLen,
OUT ADD_HT_INFO_IE *AddHtInfo,
OUT UCHAR *NewExtChannel,
OUT USHORT *LengthVIE,
OUT PNDIS_802_11_VARIABLE_IEs pVIE);
BOOLEAN PeerAddBAReqActionSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *pMsg,
IN ULONG MsgLen,
OUT PUCHAR pAddr2);
BOOLEAN PeerAddBARspActionSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *pMsg,
IN ULONG MsgLen);
BOOLEAN PeerDelBAActionSanity(
IN PRTMP_ADAPTER pAd,
IN UCHAR Wcid,
IN VOID *pMsg,
IN ULONG MsgLen);
BOOLEAN MlmeAssocReqSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *Msg,
IN ULONG MsgLen,
OUT PUCHAR pApAddr,
OUT USHORT *CapabilityInfo,
OUT ULONG *Timeout,
OUT USHORT *ListenIntv);
BOOLEAN MlmeAuthReqSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *Msg,
IN ULONG MsgLen,
OUT PUCHAR pAddr,
OUT ULONG *Timeout,
OUT USHORT *Alg);
BOOLEAN MlmeStartReqSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *Msg,
IN ULONG MsgLen,
OUT CHAR Ssid[],
OUT UCHAR *Ssidlen);
BOOLEAN PeerAuthSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *Msg,
IN ULONG MsgLen,
OUT PUCHAR pAddr,
OUT USHORT *Alg,
OUT USHORT *Seq,
OUT USHORT *Status,
OUT CHAR ChlgText[]);
BOOLEAN PeerAssocRspSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *pMsg,
IN ULONG MsgLen,
OUT PUCHAR pAddr2,
OUT USHORT *pCapabilityInfo,
OUT USHORT *pStatus,
OUT USHORT *pAid,
OUT UCHAR SupRate[],
OUT UCHAR *pSupRateLen,
OUT UCHAR ExtRate[],
OUT UCHAR *pExtRateLen,
OUT HT_CAPABILITY_IE *pHtCapability,
OUT ADD_HT_INFO_IE *pAddHtInfo, // AP might use this additional ht info IE
OUT UCHAR *pHtCapabilityLen,
OUT UCHAR *pAddHtInfoLen,
OUT UCHAR *pNewExtChannelOffset,
OUT PEDCA_PARM pEdcaParm,
OUT UCHAR *pCkipFlag);
BOOLEAN PeerDisassocSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *Msg,
IN ULONG MsgLen,
OUT PUCHAR pAddr2,
OUT USHORT *Reason);
BOOLEAN PeerDeauthSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *Msg,
IN ULONG MsgLen,
OUT PUCHAR pAddr2,
OUT USHORT *Reason);
BOOLEAN PeerProbeReqSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *Msg,
IN ULONG MsgLen,
OUT PUCHAR pAddr2,
OUT CHAR Ssid[],
OUT UCHAR *pSsidLen);
BOOLEAN GetTimBit(
IN CHAR *Ptr,
IN USHORT Aid,
OUT UCHAR *TimLen,
OUT UCHAR *BcastFlag,
OUT UCHAR *DtimCount,
OUT UCHAR *DtimPeriod,
OUT UCHAR *MessageToMe);
UCHAR ChannelSanity(
IN PRTMP_ADAPTER pAd,
IN UCHAR channel);
NDIS_802_11_NETWORK_TYPE NetworkTypeInUseSanity(
IN PBSS_ENTRY pBss);
BOOLEAN MlmeDelBAReqSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *Msg,
IN ULONG MsgLen);
BOOLEAN MlmeAddBAReqSanity(
IN PRTMP_ADAPTER pAd,
IN VOID *Msg,
IN ULONG MsgLen,
OUT PUCHAR pAddr2);
ULONG MakeOutgoingFrame(
OUT CHAR *Buffer,
OUT ULONG *Length, ...);
VOID LfsrInit(
IN PRTMP_ADAPTER pAd,
IN ULONG Seed);
UCHAR RandomByte(
IN PRTMP_ADAPTER pAd);
VOID AsicUpdateAutoFallBackTable(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pTxRate);
VOID MlmePeriodicExec(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
VOID LinkDownExec(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
VOID STAMlmePeriodicExec(
PRTMP_ADAPTER pAd);
VOID MlmeAutoScan(
IN PRTMP_ADAPTER pAd);
VOID MlmeAutoReconnectLastSSID(
IN PRTMP_ADAPTER pAd);
BOOLEAN MlmeValidateSSID(
IN PUCHAR pSsid,
IN UCHAR SsidLen);
VOID MlmeCheckForRoaming(
IN PRTMP_ADAPTER pAd,
IN ULONG Now32);
VOID MlmeCheckForFastRoaming(
IN PRTMP_ADAPTER pAd,
IN ULONG Now);
VOID MlmeDynamicTxRateSwitching(
IN PRTMP_ADAPTER pAd);
VOID MlmeSetTxRate(
IN PRTMP_ADAPTER pAd,
IN PMAC_TABLE_ENTRY pEntry,
IN PRTMP_TX_RATE_SWITCH pTxRate);
VOID MlmeSelectTxRateTable(
IN PRTMP_ADAPTER pAd,
IN PMAC_TABLE_ENTRY pEntry,
IN PUCHAR *ppTable,
IN PUCHAR pTableSize,
IN PUCHAR pInitTxRateIdx);
VOID MlmeCalculateChannelQuality(
IN PRTMP_ADAPTER pAd,
IN ULONG Now);
VOID MlmeCheckPsmChange(
IN PRTMP_ADAPTER pAd,
IN ULONG Now32);
VOID MlmeSetPsmBit(
IN PRTMP_ADAPTER pAd,
IN USHORT psm);
VOID MlmeSetTxPreamble(
IN PRTMP_ADAPTER pAd,
IN USHORT TxPreamble);
VOID UpdateBasicRateBitmap(
IN PRTMP_ADAPTER pAd);
VOID MlmeUpdateTxRates(
IN PRTMP_ADAPTER pAd,
IN BOOLEAN bLinkUp,
IN UCHAR apidx);
VOID MlmeUpdateHtTxRates(
IN PRTMP_ADAPTER pAd,
IN UCHAR apidx);
VOID RTMPCheckRates(
IN PRTMP_ADAPTER pAd,
IN OUT UCHAR SupRate[],
IN OUT UCHAR *SupRateLen);
BOOLEAN RTMPCheckChannel(
IN PRTMP_ADAPTER pAd,
IN UCHAR CentralChannel,
IN UCHAR Channel);
BOOLEAN RTMPCheckHt(
IN PRTMP_ADAPTER pAd,
IN UCHAR Wcid,
IN OUT HT_CAPABILITY_IE *pHtCapability,
IN OUT ADD_HT_INFO_IE *pAddHtInfo);
VOID StaQuickResponeForRateUpExec(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
VOID RTMPUpdateMlmeRate(
IN PRTMP_ADAPTER pAd);
CHAR RTMPMaxRssi(
IN PRTMP_ADAPTER pAd,
IN CHAR Rssi0,
IN CHAR Rssi1,
IN CHAR Rssi2);
VOID AsicSetRxAnt(
IN PRTMP_ADAPTER pAd,
IN UCHAR Ant);
VOID AsicEvaluateRxAnt(
IN PRTMP_ADAPTER pAd);
VOID AsicRxAntEvalTimeout(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
VOID APSDPeriodicExec(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
BOOLEAN RTMPCheckEntryEnableAutoRateSwitch(
IN PRTMP_ADAPTER pAd,
IN PMAC_TABLE_ENTRY pEntry);
UCHAR RTMPStaFixedTxMode(
IN PRTMP_ADAPTER pAd,
IN PMAC_TABLE_ENTRY pEntry);
VOID RTMPUpdateLegacyTxSetting(
UCHAR fixed_tx_mode,
PMAC_TABLE_ENTRY pEntry);
BOOLEAN RTMPAutoRateSwitchCheck(
IN PRTMP_ADAPTER pAd);
NDIS_STATUS MlmeInit(
IN PRTMP_ADAPTER pAd);
VOID MlmeHandler(
IN PRTMP_ADAPTER pAd);
VOID MlmeHalt(
IN PRTMP_ADAPTER pAd);
VOID MlmeResetRalinkCounters(
IN PRTMP_ADAPTER pAd);
VOID BuildChannelList(
IN PRTMP_ADAPTER pAd);
UCHAR FirstChannel(
IN PRTMP_ADAPTER pAd);
UCHAR NextChannel(
IN PRTMP_ADAPTER pAd,
IN UCHAR channel);
VOID ChangeToCellPowerLimit(
IN PRTMP_ADAPTER pAd,
IN UCHAR AironetCellPowerLimit);
USHORT RTMP_EEPROM_READ16(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset);
VOID RTMP_EEPROM_WRITE16(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
IN USHORT Data);
//
// Prototypes of function definition in rtmp_tkip.c
//
VOID RTMPInitTkipEngine(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pTKey,
IN UCHAR KeyId,
IN PUCHAR pTA,
IN PUCHAR pMICKey,
IN PUCHAR pTSC,
OUT PULONG pIV16,
OUT PULONG pIV32);
VOID RTMPInitMICEngine(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pKey,
IN PUCHAR pDA,
IN PUCHAR pSA,
IN UCHAR UserPriority,
IN PUCHAR pMICKey);
BOOLEAN RTMPTkipCompareMICValue(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pSrc,
IN PUCHAR pDA,
IN PUCHAR pSA,
IN PUCHAR pMICKey,
IN UCHAR UserPriority,
IN UINT Len);
VOID RTMPCalculateMICValue(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET pPacket,
IN PUCHAR pEncap,
IN PCIPHER_KEY pKey,
IN UCHAR apidx);
BOOLEAN RTMPTkipCompareMICValueWithLLC(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pLLC,
IN PUCHAR pSrc,
IN PUCHAR pDA,
IN PUCHAR pSA,
IN PUCHAR pMICKey,
IN UINT Len);
VOID RTMPTkipAppendByte(
IN PTKIP_KEY_INFO pTkip,
IN UCHAR uChar);
VOID RTMPTkipAppend(
IN PTKIP_KEY_INFO pTkip,
IN PUCHAR pSrc,
IN UINT nBytes);
VOID RTMPTkipGetMIC(
IN PTKIP_KEY_INFO pTkip);
BOOLEAN RTMPSoftDecryptTKIP(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pData,
IN ULONG DataByteCnt,
IN UCHAR UserPriority,
IN PCIPHER_KEY pWpaKey);
BOOLEAN RTMPSoftDecryptAES(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pData,
IN ULONG DataByteCnt,
IN PCIPHER_KEY pWpaKey);
//
// Prototypes of function definition in cmm_info.c
//
NDIS_STATUS RTMPWPARemoveKeyProc(
IN PRTMP_ADAPTER pAd,
IN PVOID pBuf);
VOID RTMPWPARemoveAllKeys(
IN PRTMP_ADAPTER pAd);
BOOLEAN RTMPCheckStrPrintAble(
IN CHAR *pInPutStr,
IN UCHAR strLen);
VOID RTMPSetPhyMode(
IN PRTMP_ADAPTER pAd,
IN ULONG phymode);
VOID RTMPUpdateHTIE(
IN RT_HT_CAPABILITY *pRtHt,
IN UCHAR *pMcsSet,
OUT HT_CAPABILITY_IE *pHtCapability,
OUT ADD_HT_INFO_IE *pAddHtInfo);
VOID RTMPAddWcidAttributeEntry(
IN PRTMP_ADAPTER pAd,
IN UCHAR BssIdx,
IN UCHAR KeyIdx,
IN UCHAR CipherAlg,
IN MAC_TABLE_ENTRY *pEntry);
CHAR *GetEncryptType(
CHAR enc);
CHAR *GetAuthMode(
CHAR auth);
VOID RTMPIoctlGetSiteSurvey(
IN PRTMP_ADAPTER pAdapter,
IN struct iwreq *wrq);
VOID RTMPIoctlGetMacTable(
IN PRTMP_ADAPTER pAd,
IN struct iwreq *wrq);
VOID RTMPAddBSSIDCipher(
IN PRTMP_ADAPTER pAd,
IN UCHAR Aid,
IN PNDIS_802_11_KEY pKey,
IN UCHAR CipherAlg);
VOID RTMPSetHT(
IN PRTMP_ADAPTER pAd,
IN OID_SET_HT_PHYMODE *pHTPhyMode);
VOID RTMPSetIndividualHT(
IN PRTMP_ADAPTER pAd,
IN UCHAR apidx);
VOID RTMPSendWirelessEvent(
IN PRTMP_ADAPTER pAd,
IN USHORT Event_flag,
IN PUCHAR pAddr,
IN UCHAR BssIdx,
IN CHAR Rssi);
//
// prototype in wpa.c
//
BOOLEAN WpaMsgTypeSubst(
IN UCHAR EAPType,
OUT INT *MsgType);
VOID WpaPskStateMachineInit(
IN PRTMP_ADAPTER pAd,
IN STATE_MACHINE *S,
OUT STATE_MACHINE_FUNC Trans[]);
VOID WpaEAPOLKeyAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID WpaPairMsg1Action(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID WpaPairMsg3Action(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID WpaGroupMsg1Action(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID WpaMacHeaderInit(
IN PRTMP_ADAPTER pAd,
IN OUT PHEADER_802_11 pHdr80211,
IN UCHAR wep,
IN PUCHAR pAddr1);
VOID Wpa2PairMsg1Action(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID Wpa2PairMsg3Action(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
BOOLEAN ParseKeyData(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pKeyData,
IN UCHAR KeyDataLen,
IN UCHAR bPairewise);
VOID RTMPToWirelessSta(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pHeader802_3,
IN UINT HdrLen,
IN PUCHAR pData,
IN UINT DataLen,
IN BOOLEAN is4wayFrame);
VOID HMAC_SHA1(
IN UCHAR *text,
IN UINT text_len,
IN UCHAR *key,
IN UINT key_len,
IN UCHAR *digest);
VOID PRF(
IN UCHAR *key,
IN INT key_len,
IN UCHAR *prefix,
IN INT prefix_len,
IN UCHAR *data,
IN INT data_len,
OUT UCHAR *output,
IN INT len);
VOID CCKMPRF(
IN UCHAR *key,
IN INT key_len,
IN UCHAR *data,
IN INT data_len,
OUT UCHAR *output,
IN INT len);
VOID WpaCountPTK(
IN PRTMP_ADAPTER pAd,
IN UCHAR *PMK,
IN UCHAR *ANonce,
IN UCHAR *AA,
IN UCHAR *SNonce,
IN UCHAR *SA,
OUT UCHAR *output,
IN UINT len);
VOID GenRandom(
IN PRTMP_ADAPTER pAd,
IN UCHAR *macAddr,
OUT UCHAR *random);
//
// prototype in aironet.c
//
VOID AironetStateMachineInit(
IN PRTMP_ADAPTER pAd,
IN STATE_MACHINE *S,
OUT STATE_MACHINE_FUNC Trans[]);
VOID AironetMsgAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID AironetRequestAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID ChannelLoadRequestAction(
IN PRTMP_ADAPTER pAd,
IN UCHAR Index);
VOID NoiseHistRequestAction(
IN PRTMP_ADAPTER pAd,
IN UCHAR Index);
VOID BeaconRequestAction(
IN PRTMP_ADAPTER pAd,
IN UCHAR Index);
VOID AironetReportAction(
IN PRTMP_ADAPTER pAd,
IN MLME_QUEUE_ELEM *Elem);
VOID ChannelLoadReportAction(
IN PRTMP_ADAPTER pAd,
IN UCHAR Index);
VOID NoiseHistReportAction(
IN PRTMP_ADAPTER pAd,
IN UCHAR Index);
VOID AironetFinalReportAction(
IN PRTMP_ADAPTER pAd);
VOID BeaconReportAction(
IN PRTMP_ADAPTER pAd,
IN UCHAR Index);
VOID AironetAddBeaconReport(
IN PRTMP_ADAPTER pAd,
IN ULONG Index,
IN PMLME_QUEUE_ELEM pElem);
VOID AironetCreateBeaconReportFromBssTable(
IN PRTMP_ADAPTER pAd);
CHAR ConvertToRssi(
IN PRTMP_ADAPTER pAd,
IN CHAR Rssi,
IN UCHAR RssiNumber);
//
// function prototype in cmm_wpa.c
//
BOOLEAN RTMPCheckWPAframe(
IN PRTMP_ADAPTER pAd,
IN PMAC_TABLE_ENTRY pEntry,
IN PUCHAR pData,
IN ULONG DataByteCount,
IN UCHAR FromWhichBSSID);
VOID AES_GTK_KEY_UNWRAP(
IN UCHAR *key,
OUT UCHAR *plaintext,
IN UCHAR c_len,
IN UCHAR *ciphertext);
VOID RTMPMakeRSNIE(
IN PRTMP_ADAPTER pAd,
IN UINT AuthMode,
IN UINT WepStatus,
IN UCHAR apidx);
//
// function prototype in ap_wpa.c
//
VOID HandleCounterMeasure(
IN PRTMP_ADAPTER pAd,
IN MAC_TABLE_ENTRY *pEntry);
/* timeout -- ms */
VOID RTMP_SetPeriodicTimer(
IN NDIS_MINIPORT_TIMER *pTimer,
IN unsigned long timeout);
VOID RTMP_OS_Init_Timer(
IN PRTMP_ADAPTER pAd,
IN NDIS_MINIPORT_TIMER *pTimer,
IN TIMER_FUNCTION function,
IN PVOID data);
VOID RTMP_OS_Add_Timer(
IN NDIS_MINIPORT_TIMER *pTimer,
IN unsigned long timeout);
VOID RTMP_OS_Mod_Timer(
IN NDIS_MINIPORT_TIMER *pTimer,
IN unsigned long timeout);
VOID RTMP_OS_Del_Timer(
IN NDIS_MINIPORT_TIMER *pTimer,
OUT BOOLEAN *pCancelled);
VOID RTMP_OS_Release_Packet(
IN PRTMP_ADAPTER pAd,
IN PQUEUE_ENTRY pEntry);
VOID RTMPusecDelay(
IN ULONG usec);
NDIS_STATUS os_alloc_mem(
IN PRTMP_ADAPTER pAd,
OUT PUCHAR *mem,
IN ULONG size);
NDIS_STATUS os_free_mem(
IN PRTMP_ADAPTER pAd,
IN PUCHAR mem);
void RTMP_AllocateSharedMemory(
IN PRTMP_ADAPTER pAd,
IN ULONG Length,
IN BOOLEAN Cached,
OUT PVOID *VirtualAddress,
OUT PNDIS_PHYSICAL_ADDRESS PhysicalAddress);
VOID RTMPFreeTxRxRingMemory(
IN PRTMP_ADAPTER pAd);
NDIS_STATUS AdapterBlockAllocateMemory(
IN PVOID handle,
OUT PVOID *ppAd);
void RTMP_AllocateTxDescMemory(
IN PRTMP_ADAPTER pAd,
IN UINT Index,
IN ULONG Length,
IN BOOLEAN Cached,
OUT PVOID *VirtualAddress,
OUT PNDIS_PHYSICAL_ADDRESS PhysicalAddress);
void RTMP_AllocateFirstTxBuffer(
IN PRTMP_ADAPTER pAd,
IN UINT Index,
IN ULONG Length,
IN BOOLEAN Cached,
OUT PVOID *VirtualAddress,
OUT PNDIS_PHYSICAL_ADDRESS PhysicalAddress);
void RTMP_AllocateMgmtDescMemory(
IN PRTMP_ADAPTER pAd,
IN ULONG Length,
IN BOOLEAN Cached,
OUT PVOID *VirtualAddress,
OUT PNDIS_PHYSICAL_ADDRESS PhysicalAddress);
void RTMP_AllocateRxDescMemory(
IN PRTMP_ADAPTER pAd,
IN ULONG Length,
IN BOOLEAN Cached,
OUT PVOID *VirtualAddress,
OUT PNDIS_PHYSICAL_ADDRESS PhysicalAddress);
PNDIS_PACKET RTMP_AllocateRxPacketBuffer(
IN PRTMP_ADAPTER pAd,
IN ULONG Length,
IN BOOLEAN Cached,
OUT PVOID *VirtualAddress,
OUT PNDIS_PHYSICAL_ADDRESS PhysicalAddress);
PNDIS_PACKET RTMP_AllocateTxPacketBuffer(
IN PRTMP_ADAPTER pAd,
IN ULONG Length,
IN BOOLEAN Cached,
OUT PVOID *VirtualAddress);
PNDIS_PACKET RTMP_AllocateFragPacketBuffer(
IN PRTMP_ADAPTER pAd,
IN ULONG Length);
void RTMP_QueryPacketInfo(
IN PNDIS_PACKET pPacket,
OUT PACKET_INFO *pPacketInfo,
OUT PUCHAR *pSrcBufVA,
OUT UINT *pSrcBufLen);
void RTMP_QueryNextPacketInfo(
IN PNDIS_PACKET *ppPacket,
OUT PACKET_INFO *pPacketInfo,
OUT PUCHAR *pSrcBufVA,
OUT UINT *pSrcBufLen);
BOOLEAN RTMP_FillTxBlkInfo(
IN RTMP_ADAPTER *pAd,
IN TX_BLK *pTxBlk);
PRTMP_SCATTER_GATHER_LIST
rt_get_sg_list_from_packet(PNDIS_PACKET pPacket, RTMP_SCATTER_GATHER_LIST *sg);
void announce_802_3_packet(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET pPacket);
UINT BA_Reorder_AMSDU_Annnounce(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET pPacket);
PNET_DEV get_netdev_from_bssid(
IN PRTMP_ADAPTER pAd,
IN UCHAR FromWhichBSSID);
PNDIS_PACKET duplicate_pkt(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pHeader802_3,
IN UINT HdrLen,
IN PUCHAR pData,
IN ULONG DataSize,
IN UCHAR FromWhichBSSID);
PNDIS_PACKET duplicate_pkt_with_TKIP_MIC(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET pOldPkt);
void ba_flush_reordering_timeout_mpdus(
IN PRTMP_ADAPTER pAd,
IN PBA_REC_ENTRY pBAEntry,
IN ULONG Now32);
VOID BAOriSessionSetUp(
IN PRTMP_ADAPTER pAd,
IN MAC_TABLE_ENTRY *pEntry,
IN UCHAR TID,
IN USHORT TimeOut,
IN ULONG DelayTime,
IN BOOLEAN isForced);
VOID BASessionTearDownALL(
IN OUT PRTMP_ADAPTER pAd,
IN UCHAR Wcid);
BOOLEAN OS_Need_Clone_Packet(void);
VOID build_tx_packet(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET pPacket,
IN PUCHAR pFrame,
IN ULONG FrameLen);
VOID BAOriSessionTearDown(
IN OUT PRTMP_ADAPTER pAd,
IN UCHAR Wcid,
IN UCHAR TID,
IN BOOLEAN bPassive,
IN BOOLEAN bForceSend);
VOID BARecSessionTearDown(
IN OUT PRTMP_ADAPTER pAd,
IN UCHAR Wcid,
IN UCHAR TID,
IN BOOLEAN bPassive);
BOOLEAN ba_reordering_resource_init(PRTMP_ADAPTER pAd, int num);
void ba_reordering_resource_release(PRTMP_ADAPTER pAd);
BOOLEAN rtstrmactohex(
IN char *s1,
IN char *s2);
BOOLEAN rtstrcasecmp(
IN char *s1,
IN char *s2);
char *rtstrstruncasecmp(
IN char *s1,
IN char *s2);
char *rtstrstr(
IN const char * s1,
IN const char * s2);
char *rstrtok(
IN char * s,
IN const char * ct);
int rtinet_aton(
const char *cp,
unsigned int *addr);
////////// common ioctl functions //////////
INT Set_DriverVersion_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_CountryRegion_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_CountryRegionABand_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_WirelessMode_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_Channel_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_ShortSlot_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_TxPower_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_BGProtection_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_TxPreamble_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_RTSThreshold_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_FragThreshold_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_TxBurst_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
#ifdef AGGREGATION_SUPPORT
INT Set_PktAggregate_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
#endif
INT Set_IEEE80211H_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
#ifdef DBG
INT Set_Debug_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
#endif
INT Show_DescInfo_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_ResetStatCounter_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_BASetup_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_BADecline_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_BAOriTearDown_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_BARecTearDown_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtBw_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtMcs_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtGi_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtOpMode_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtStbc_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtHtc_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtExtcha_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtMpduDensity_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtBaWinSize_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtRdg_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtLinkAdapt_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtAmsdu_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtAutoBa_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtProtect_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtMimoPs_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_ForceShortGI_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_ForceGF_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT SetCommonHT(
IN PRTMP_ADAPTER pAd);
INT Set_SendPSMPAction_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtMIMOPSmode_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT Set_HtTxBASize_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT WpaCheckEapCode(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pFrame,
IN USHORT FrameLen,
IN USHORT OffSet);
VOID WpaSendMicFailureToWpaSupplicant(
IN PRTMP_ADAPTER pAd,
IN BOOLEAN bUnicast);
int wext_notify_event_assoc(
IN RTMP_ADAPTER *pAd);
BOOLEAN STARxDoneInterruptHandle(
IN PRTMP_ADAPTER pAd,
IN BOOLEAN argc);
// AMPDU packet indication
VOID Indicate_AMPDU_Packet(
IN PRTMP_ADAPTER pAd,
IN RX_BLK *pRxBlk,
IN UCHAR FromWhichBSSID);
// AMSDU packet indication
VOID Indicate_AMSDU_Packet(
IN PRTMP_ADAPTER pAd,
IN RX_BLK *pRxBlk,
IN UCHAR FromWhichBSSID);
// Normal legacy Rx packet indication
VOID Indicate_Legacy_Packet(
IN PRTMP_ADAPTER pAd,
IN RX_BLK *pRxBlk,
IN UCHAR FromWhichBSSID);
VOID Indicate_EAPOL_Packet(
IN PRTMP_ADAPTER pAd,
IN RX_BLK *pRxBlk,
IN UCHAR FromWhichBSSID);
void update_os_packet_info(
IN PRTMP_ADAPTER pAd,
IN RX_BLK *pRxBlk,
IN UCHAR FromWhichBSSID);
void wlan_802_11_to_802_3_packet(
IN PRTMP_ADAPTER pAd,
IN RX_BLK *pRxBlk,
IN PUCHAR pHeader802_3,
IN UCHAR FromWhichBSSID);
UINT deaggregate_AMSDU_announce(
IN PRTMP_ADAPTER pAd,
PNDIS_PACKET pPacket,
IN PUCHAR pData,
IN ULONG DataSize);
// remove LLC and get 802_3 Header
#define RTMP_802_11_REMOVE_LLC_AND_CONVERT_TO_802_3(_pRxBlk, _pHeader802_3) \
{ \
PUCHAR _pRemovedLLCSNAP = NULL, _pDA, _pSA; \
\
if (RX_BLK_TEST_FLAG(_pRxBlk, fRX_MESH)) \
{ \
_pDA = _pRxBlk->pHeader->Addr3; \
_pSA = (PUCHAR)_pRxBlk->pHeader + sizeof(HEADER_802_11); \
} \
else \
{ \
if (RX_BLK_TEST_FLAG(_pRxBlk, fRX_INFRA)) \
{ \
_pDA = _pRxBlk->pHeader->Addr1; \
if (RX_BLK_TEST_FLAG(_pRxBlk, fRX_DLS)) \
_pSA = _pRxBlk->pHeader->Addr2; \
else \
_pSA = _pRxBlk->pHeader->Addr3; \
} \
else \
{ \
_pDA = _pRxBlk->pHeader->Addr1; \
_pSA = _pRxBlk->pHeader->Addr2; \
} \
} \
\
CONVERT_TO_802_3(_pHeader802_3, _pDA, _pSA, _pRxBlk->pData, \
_pRxBlk->DataSize, _pRemovedLLCSNAP); \
}
VOID Sta_Announce_or_Forward_802_3_Packet(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET pPacket,
IN UCHAR FromWhichBSSID);
#define ANNOUNCE_OR_FORWARD_802_3_PACKET(_pAd, _pPacket, _FromWhichBSS)\
Sta_Announce_or_Forward_802_3_Packet(_pAd, _pPacket, _FromWhichBSS);
//announce_802_3_packet(_pAd, _pPacket);
PNDIS_PACKET DuplicatePacket(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET pPacket,
IN UCHAR FromWhichBSSID);
PNDIS_PACKET ClonePacket(
IN PRTMP_ADAPTER pAd,
IN PNDIS_PACKET pPacket,
IN PUCHAR pData,
IN ULONG DataSize);
// Normal, AMPDU or AMSDU
VOID CmmRxnonRalinkFrameIndicate(
IN PRTMP_ADAPTER pAd,
IN RX_BLK *pRxBlk,
IN UCHAR FromWhichBSSID);
VOID CmmRxRalinkFrameIndicate(
IN PRTMP_ADAPTER pAd,
IN MAC_TABLE_ENTRY *pEntry,
IN RX_BLK *pRxBlk,
IN UCHAR FromWhichBSSID);
VOID Update_Rssi_Sample(
IN PRTMP_ADAPTER pAd,
IN RSSI_SAMPLE *pRssi,
IN PRXWI_STRUC pRxWI);
PNDIS_PACKET RTMPDeFragmentDataFrame(
IN PRTMP_ADAPTER pAd,
IN RX_BLK *pRxBlk);
////////////////////////////////////////
enum {
DIDmsg_lnxind_wlansniffrm = 0x00000044,
DIDmsg_lnxind_wlansniffrm_hosttime = 0x00010044,
DIDmsg_lnxind_wlansniffrm_mactime = 0x00020044,
DIDmsg_lnxind_wlansniffrm_channel = 0x00030044,
DIDmsg_lnxind_wlansniffrm_rssi = 0x00040044,
DIDmsg_lnxind_wlansniffrm_sq = 0x00050044,
DIDmsg_lnxind_wlansniffrm_signal = 0x00060044,
DIDmsg_lnxind_wlansniffrm_noise = 0x00070044,
DIDmsg_lnxind_wlansniffrm_rate = 0x00080044,
DIDmsg_lnxind_wlansniffrm_istx = 0x00090044,
DIDmsg_lnxind_wlansniffrm_frmlen = 0x000A0044
};
enum {
P80211ENUM_msgitem_status_no_value = 0x00
};
enum {
P80211ENUM_truth_false = 0x00,
P80211ENUM_truth_true = 0x01
};
/* Definition from madwifi */
typedef struct {
UINT32 did;
UINT16 status;
UINT16 len;
UINT32 data;
} p80211item_uint32_t;
typedef struct {
UINT32 msgcode;
UINT32 msglen;
#define WLAN_DEVNAMELEN_MAX 16
UINT8 devname[WLAN_DEVNAMELEN_MAX];
p80211item_uint32_t hosttime;
p80211item_uint32_t mactime;
p80211item_uint32_t channel;
p80211item_uint32_t rssi;
p80211item_uint32_t sq;
p80211item_uint32_t signal;
p80211item_uint32_t noise;
p80211item_uint32_t rate;
p80211item_uint32_t istx;
p80211item_uint32_t frmlen;
} wlan_ng_prism2_header;
/* The radio capture header precedes the 802.11 header. */
typedef struct PACKED _ieee80211_radiotap_header {
UINT8 it_version; /* Version 0. Only increases
* for drastic changes,
* introduction of compatible
* new fields does not count.
*/
UINT8 it_pad;
UINT16 it_len; /* length of the whole
* header in bytes, including
* it_version, it_pad,
* it_len, and data fields.
*/
UINT32 it_present; /* A bitmap telling which
* fields are present. Set bit 31
* (0x80000000) to extend the
* bitmap by another 32 bits.
* Additional extensions are made
* by setting bit 31.
*/
}ieee80211_radiotap_header ;
enum ieee80211_radiotap_type {
IEEE80211_RADIOTAP_TSFT = 0,
IEEE80211_RADIOTAP_FLAGS = 1,
IEEE80211_RADIOTAP_RATE = 2,
IEEE80211_RADIOTAP_CHANNEL = 3,
IEEE80211_RADIOTAP_FHSS = 4,
IEEE80211_RADIOTAP_DBM_ANTSIGNAL = 5,
IEEE80211_RADIOTAP_DBM_ANTNOISE = 6,
IEEE80211_RADIOTAP_LOCK_QUALITY = 7,
IEEE80211_RADIOTAP_TX_ATTENUATION = 8,
IEEE80211_RADIOTAP_DB_TX_ATTENUATION = 9,
IEEE80211_RADIOTAP_DBM_TX_POWER = 10,
IEEE80211_RADIOTAP_ANTENNA = 11,
IEEE80211_RADIOTAP_DB_ANTSIGNAL = 12,
IEEE80211_RADIOTAP_DB_ANTNOISE = 13
};
#define WLAN_RADIOTAP_PRESENT ( \
(1 << IEEE80211_RADIOTAP_TSFT) | \
(1 << IEEE80211_RADIOTAP_FLAGS) | \
(1 << IEEE80211_RADIOTAP_RATE) | \
0)
typedef struct _wlan_radiotap_header {
ieee80211_radiotap_header wt_ihdr;
INT64 wt_tsft;
UINT8 wt_flags;
UINT8 wt_rate;
} wlan_radiotap_header;
/* Definition from madwifi */
void send_monitor_packets(
IN PRTMP_ADAPTER pAd,
IN RX_BLK *pRxBlk);
// This function will be called when query /proc
struct iw_statistics *rt28xx_get_wireless_stats(
IN struct net_device *net_dev);
VOID RTMPSetDesiredRates(
IN PRTMP_ADAPTER pAdapter,
IN LONG Rates);
INT Set_FixedTxMode_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
static inline char* GetPhyMode(
int Mode)
{
switch(Mode)
{
case MODE_CCK:
return "CCK";
case MODE_OFDM:
return "OFDM";
case MODE_HTMIX:
return "HTMIX";
case MODE_HTGREENFIELD:
return "GREEN";
default:
return "N/A";
}
}
static inline char* GetBW(
int BW)
{
switch(BW)
{
case BW_10:
return "10M";
case BW_20:
return "20M";
case BW_40:
return "40M";
default:
return "N/A";
}
}
VOID RT28xxThreadTerminate(
IN RTMP_ADAPTER *pAd);
BOOLEAN RT28XXChipsetCheck(
IN void *_dev_p);
BOOLEAN RT28XXNetDevInit(
IN void *_dev_p,
IN struct net_device *net_dev,
IN RTMP_ADAPTER *pAd);
BOOLEAN RT28XXProbePostConfig(
IN void *_dev_p,
IN RTMP_ADAPTER *pAd,
IN INT32 argc);
VOID RT28XXDMADisable(
IN RTMP_ADAPTER *pAd);
VOID RT28XXDMAEnable(
IN RTMP_ADAPTER *pAd);
VOID RT28xx_UpdateBeaconToAsic(
IN RTMP_ADAPTER * pAd,
IN INT apidx,
IN ULONG BeaconLen,
IN ULONG UpdatePos);
INT rt28xx_sta_ioctl(
IN struct net_device *net_dev,
IN OUT struct ifreq *rq,
IN INT cmd);
////////////////////////////////////////
PNDIS_PACKET GetPacketFromRxRing(
IN PRTMP_ADAPTER pAd,
OUT PRT28XX_RXD_STRUC pSaveRxD,
OUT BOOLEAN *pbReschedule,
IN OUT UINT32 *pRxPending);
void kill_thread_task(PRTMP_ADAPTER pAd);
void tbtt_tasklet(unsigned long data);
#ifdef RT2860
//
// Function Prototype in cmm_data_2860.c
//
USHORT RtmpPCI_WriteTxResource(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN BOOLEAN bIsLast,
OUT USHORT *FreeNumber);
USHORT RtmpPCI_WriteSingleTxResource(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN BOOLEAN bIsLast,
OUT USHORT *FreeNumber);
USHORT RtmpPCI_WriteMultiTxResource(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN UCHAR frameNum,
OUT USHORT *FreeNumber);
USHORT RtmpPCI_WriteFragTxResource(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN UCHAR fragNum,
OUT USHORT *FreeNumber);
USHORT RtmpPCI_WriteSubTxResource(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN BOOLEAN bIsLast,
OUT USHORT *FreeNumber);
VOID RtmpPCI_FinalWriteTxResource(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN USHORT totalMPDUSize,
IN USHORT FirstTxIdx);
VOID RtmpPCIDataLastTxIdx(
IN PRTMP_ADAPTER pAd,
IN UCHAR QueIdx,
IN USHORT LastTxIdx);
VOID RtmpPCIDataKickOut(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN UCHAR QueIdx);
int RtmpPCIMgmtKickOut(
IN RTMP_ADAPTER *pAd,
IN UCHAR QueIdx,
IN PNDIS_PACKET pPacket,
IN PUCHAR pSrcBufVA,
IN UINT SrcBufLen);
NDIS_STATUS RTMPCheckRxError(
IN PRTMP_ADAPTER pAd,
IN PHEADER_802_11 pHeader,
IN PRXWI_STRUC pRxWI,
IN PRT28XX_RXD_STRUC pRxD);
VOID RTMPInitPCIeLinkCtrlValue(
IN PRTMP_ADAPTER pAd);
VOID RTMPFindHostPCIDev(
IN PRTMP_ADAPTER pAd);
VOID RTMPPCIeLinkCtrlValueRestore(
IN PRTMP_ADAPTER pAd,
IN UCHAR Level);
VOID RTMPPCIeLinkCtrlSetting(
IN PRTMP_ADAPTER pAd,
IN USHORT Max);
VOID RT28xxPciAsicRadioOff(
IN PRTMP_ADAPTER pAd,
IN UCHAR Level,
IN USHORT TbttNumToNextWakeUp);
BOOLEAN RT28xxPciAsicRadioOn(
IN PRTMP_ADAPTER pAd,
IN UCHAR Level);
VOID RT28xxPciStaAsicForceWakeup(
IN PRTMP_ADAPTER pAd,
IN UCHAR Level);
VOID RT28xxPciStaAsicSleepThenAutoWakeup(
IN PRTMP_ADAPTER pAd,
IN USHORT TbttNumToNextWakeUp);
VOID PsPollWakeExec(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
VOID RadioOnExec(
IN PVOID SystemSpecific1,
IN PVOID FunctionContext,
IN PVOID SystemSpecific2,
IN PVOID SystemSpecific3);
VOID RT28xxPciMlmeRadioOn(
IN PRTMP_ADAPTER pAd);
VOID RT28xxPciMlmeRadioOFF(
IN PRTMP_ADAPTER pAd);
#endif /* RT2860 */
VOID AsicTurnOffRFClk(
IN PRTMP_ADAPTER pAd,
IN UCHAR Channel);
VOID AsicTurnOnRFClk(
IN PRTMP_ADAPTER pAd,
IN UCHAR Channel);
NTSTATUS RT30xxWriteRFRegister(
IN PRTMP_ADAPTER pAd,
IN UCHAR RegID,
IN UCHAR Value);
NTSTATUS RT30xxReadRFRegister(
IN PRTMP_ADAPTER pAd,
IN UCHAR RegID,
IN PUCHAR pValue);
UCHAR eFuseReadRegisters(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
IN USHORT Length,
OUT USHORT* pData);
VOID eFuseReadPhysical(
IN PRTMP_ADAPTER pAd,
IN PUSHORT lpInBuffer,
IN ULONG nInBufferSize,
OUT PUSHORT lpOutBuffer,
IN ULONG nOutBufferSize
);
NTSTATUS eFuseRead(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
OUT PUCHAR pData,
IN USHORT Length);
VOID eFusePhysicalWriteRegisters(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
IN USHORT Length,
OUT USHORT* pData);
NTSTATUS eFuseWriteRegisters(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
IN USHORT Length,
IN USHORT* pData);
VOID eFuseWritePhysical(
IN PRTMP_ADAPTER pAd,
PUSHORT lpInBuffer,
ULONG nInBufferSize,
PUCHAR lpOutBuffer,
ULONG nOutBufferSize
);
NTSTATUS eFuseWrite(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
IN PUCHAR pData,
IN USHORT length);
INT set_eFuseGetFreeBlockCount_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT set_eFusedump_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
INT set_eFuseLoadFromBin_Proc(
IN PRTMP_ADAPTER pAd,
IN PUCHAR arg);
NTSTATUS eFuseWriteRegistersFromBin(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
IN USHORT Length,
IN USHORT* pData);
VOID eFusePhysicalReadRegisters(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
IN USHORT Length,
OUT USHORT* pData);
VOID RT30xxLoadRFNormalModeSetup(
IN PRTMP_ADAPTER pAd);
VOID RT30xxLoadRFSleepModeSetup(
IN PRTMP_ADAPTER pAd);
VOID RT30xxReverseRFSleepModeSetup(
IN PRTMP_ADAPTER pAd);
#ifdef RT2870
//
// Function Prototype in rtusb_bulk.c
//
VOID RTUSBInitTxDesc(
IN PRTMP_ADAPTER pAd,
IN PTX_CONTEXT pTxContext,
IN UCHAR BulkOutPipeId,
IN usb_complete_t Func);
VOID RTUSBInitHTTxDesc(
IN PRTMP_ADAPTER pAd,
IN PHT_TX_CONTEXT pTxContext,
IN UCHAR BulkOutPipeId,
IN ULONG BulkOutSize,
IN usb_complete_t Func);
VOID RTUSBCleanUpDataBulkOutQueue(
IN PRTMP_ADAPTER pAd);
VOID RTUSBCancelPendingBulkOutIRP(
IN PRTMP_ADAPTER pAd);
VOID RTUSBBulkOutDataPacket(
IN PRTMP_ADAPTER pAd,
IN UCHAR BulkOutPipeId,
IN UCHAR Index);
VOID RTUSBBulkOutNullFrame(
IN PRTMP_ADAPTER pAd);
VOID RTUSBBulkOutRTSFrame(
IN PRTMP_ADAPTER pAd);
VOID RTUSBCancelPendingBulkInIRP(
IN PRTMP_ADAPTER pAd);
VOID RTUSBCancelPendingIRPs(
IN PRTMP_ADAPTER pAd);
VOID RTUSBBulkOutMLMEPacket(
IN PRTMP_ADAPTER pAd,
IN UCHAR Index);
VOID RTUSBBulkOutPsPoll(
IN PRTMP_ADAPTER pAd);
VOID RTUSBCleanUpMLMEBulkOutQueue(
IN PRTMP_ADAPTER pAd);
VOID RTUSBKickBulkOut(
IN PRTMP_ADAPTER pAd);
VOID RTUSBBulkReceive(
IN PRTMP_ADAPTER pAd);
VOID DoBulkIn(
IN RTMP_ADAPTER *pAd);
VOID RTUSBInitRxDesc(
IN PRTMP_ADAPTER pAd,
IN PRX_CONTEXT pRxContext);
//
// Function Prototype in rtusb_io.c
//
NTSTATUS RTUSBMultiRead(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
OUT PUCHAR pData,
IN USHORT length);
NTSTATUS RTUSBMultiWrite(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
IN PUCHAR pData,
IN USHORT length);
NTSTATUS RTUSBMultiWrite_OneByte(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
IN PUCHAR pData);
NTSTATUS RTUSBReadBBPRegister(
IN PRTMP_ADAPTER pAd,
IN UCHAR Id,
IN PUCHAR pValue);
NTSTATUS RTUSBWriteBBPRegister(
IN PRTMP_ADAPTER pAd,
IN UCHAR Id,
IN UCHAR Value);
NTSTATUS RTUSBWriteRFRegister(
IN PRTMP_ADAPTER pAd,
IN UINT32 Value);
NTSTATUS RTUSB_VendorRequest(
IN PRTMP_ADAPTER pAd,
IN UINT32 TransferFlags,
IN UCHAR ReservedBits,
IN UCHAR Request,
IN USHORT Value,
IN USHORT Index,
IN PVOID TransferBuffer,
IN UINT32 TransferBufferLength);
NTSTATUS RTUSBReadEEPROM(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
OUT PUCHAR pData,
IN USHORT length);
NTSTATUS RTUSBWriteEEPROM(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
IN PUCHAR pData,
IN USHORT length);
VOID RTUSBPutToSleep(
IN PRTMP_ADAPTER pAd);
NTSTATUS RTUSBWakeUp(
IN PRTMP_ADAPTER pAd);
VOID RTUSBInitializeCmdQ(
IN PCmdQ cmdq);
NDIS_STATUS RTUSBEnqueueCmdFromNdis(
IN PRTMP_ADAPTER pAd,
IN NDIS_OID Oid,
IN BOOLEAN SetInformation,
IN PVOID pInformationBuffer,
IN UINT32 InformationBufferLength);
NDIS_STATUS RTUSBEnqueueInternalCmd(
IN PRTMP_ADAPTER pAd,
IN NDIS_OID Oid,
IN PVOID pInformationBuffer,
IN UINT32 InformationBufferLength);
VOID RTUSBDequeueCmd(
IN PCmdQ cmdq,
OUT PCmdQElmt *pcmdqelmt);
INT RTUSBCmdThread(
IN OUT PVOID Context);
INT TimerQThread(
IN OUT PVOID Context);
RT2870_TIMER_ENTRY *RT2870_TimerQ_Insert(
IN RTMP_ADAPTER *pAd,
IN RALINK_TIMER_STRUCT *pTimer);
BOOLEAN RT2870_TimerQ_Remove(
IN RTMP_ADAPTER *pAd,
IN RALINK_TIMER_STRUCT *pTimer);
void RT2870_TimerQ_Exit(
IN RTMP_ADAPTER *pAd);
void RT2870_TimerQ_Init(
IN RTMP_ADAPTER *pAd);
VOID RT2870_BssBeaconExit(
IN RTMP_ADAPTER *pAd);
VOID RT2870_BssBeaconStop(
IN RTMP_ADAPTER *pAd);
VOID RT2870_BssBeaconStart(
IN RTMP_ADAPTER * pAd);
VOID RT2870_BssBeaconInit(
IN RTMP_ADAPTER *pAd);
VOID RT2870_WatchDog(
IN RTMP_ADAPTER *pAd);
NTSTATUS RTUSBWriteMACRegister(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
IN UINT32 Value);
NTSTATUS RTUSBReadMACRegister(
IN PRTMP_ADAPTER pAd,
IN USHORT Offset,
OUT PUINT32 pValue);
NTSTATUS RTUSBSingleWrite(
IN RTMP_ADAPTER *pAd,
IN USHORT Offset,
IN USHORT Value);
NTSTATUS RTUSBFirmwareRun(
IN PRTMP_ADAPTER pAd);
NTSTATUS RTUSBFirmwareWrite(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pFwImage,
IN ULONG FwLen);
NTSTATUS RTUSBFirmwareOpmode(
IN PRTMP_ADAPTER pAd,
OUT PUINT32 pValue);
NTSTATUS RTUSBVenderReset(
IN PRTMP_ADAPTER pAd);
VOID CMDHandler(
IN PRTMP_ADAPTER pAd);
NDIS_STATUS CreateThreads(
IN struct net_device *net_dev );
VOID MacTableInitialize(
IN PRTMP_ADAPTER pAd);
VOID MlmeSetPsm(
IN PRTMP_ADAPTER pAd,
IN USHORT psm);
NDIS_STATUS RTMPWPAAddKeyProc(
IN PRTMP_ADAPTER pAd,
IN PVOID pBuf);
VOID AsicRxAntEvalAction(
IN PRTMP_ADAPTER pAd);
NDIS_STATUS RTMPCheckRxError(
IN PRTMP_ADAPTER pAd,
IN PHEADER_802_11 pHeader,
IN PRXWI_STRUC pRxWI,
IN PRT28XX_RXD_STRUC pRxINFO);
INT MlmeThread(
IN PVOID Context);
//
// Function Prototype in rtusb_data.c
//
NDIS_STATUS RTUSBFreeDescriptorRequest(
IN PRTMP_ADAPTER pAd,
IN UCHAR BulkOutPipeId,
IN UINT32 NumberRequired);
BOOLEAN RTUSBNeedQueueBackForAgg(
IN RTMP_ADAPTER *pAd,
IN UCHAR BulkOutPipeId);
VOID RTMPWriteTxInfo(
IN PRTMP_ADAPTER pAd,
IN PTXINFO_STRUC pTxInfo,
IN USHORT USBDMApktLen,
IN BOOLEAN bWiv,
IN UCHAR QueueSel,
IN UCHAR NextValid,
IN UCHAR TxBurst);
//
// Function Prototype in cmm_data_2870.c
//
USHORT RtmpUSB_WriteSubTxResource(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN BOOLEAN bIsLast,
OUT USHORT *FreeNumber);
USHORT RtmpUSB_WriteSingleTxResource(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN BOOLEAN bIsLast,
OUT USHORT *FreeNumber);
USHORT RtmpUSB_WriteFragTxResource(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN UCHAR fragNum,
OUT USHORT *FreeNumber);
USHORT RtmpUSB_WriteMultiTxResource(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN UCHAR frameNum,
OUT USHORT *FreeNumber);
VOID RtmpUSB_FinalWriteTxResource(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN USHORT totalMPDUSize,
#ifdef RT2860
IN USHORT FirstTxIdx);
#endif
IN USHORT TxIdx);
VOID RtmpUSBDataLastTxIdx(
IN PRTMP_ADAPTER pAd,
IN UCHAR QueIdx,
IN USHORT TxIdx);
VOID RtmpUSBDataKickOut(
IN PRTMP_ADAPTER pAd,
IN TX_BLK *pTxBlk,
IN UCHAR QueIdx);
int RtmpUSBMgmtKickOut(
IN RTMP_ADAPTER *pAd,
IN UCHAR QueIdx,
IN PNDIS_PACKET pPacket,
IN PUCHAR pSrcBufVA,
IN UINT SrcBufLen);
VOID RtmpUSBNullFrameKickOut(
IN RTMP_ADAPTER *pAd,
IN UCHAR QueIdx,
IN UCHAR *pNullFrame,
IN UINT32 frameLen);
VOID RT28xxUsbStaAsicForceWakeup(
IN PRTMP_ADAPTER pAd,
IN BOOLEAN bFromTx);
VOID RT28xxUsbStaAsicSleepThenAutoWakeup(
IN PRTMP_ADAPTER pAd,
IN USHORT TbttNumToNextWakeUp);
VOID RT28xxUsbMlmeRadioOn(
IN PRTMP_ADAPTER pAd);
VOID RT28xxUsbMlmeRadioOFF(
IN PRTMP_ADAPTER pAd);
#endif // RT2870 //
INT RTMPShowCfgValue(
IN PRTMP_ADAPTER pAd,
IN PUCHAR pName,
IN PUCHAR pBuf);
PCHAR RTMPGetRalinkAuthModeStr(
IN NDIS_802_11_AUTHENTICATION_MODE authMode);
PCHAR RTMPGetRalinkEncryModeStr(
IN USHORT encryMode);
VOID AsicStaBbpTuning(
IN PRTMP_ADAPTER pAd);
#ifdef RT2860
VOID AsicResetFromDMABusy(
IN PRTMP_ADAPTER pAd);
VOID AsicResetBBP(
IN PRTMP_ADAPTER pAd);
VOID AsicResetMAC(
IN PRTMP_ADAPTER pAd);
VOID AsicResetPBF(
IN PRTMP_ADAPTER pAd);
#endif
#ifdef RT2870
BOOLEAN StaAddMacTableEntry(
IN PRTMP_ADAPTER pAd,
IN PMAC_TABLE_ENTRY pEntry,
IN UCHAR MaxSupportedRateIn500Kbps,
IN HT_CAPABILITY_IE *pHtCapability,
IN UCHAR HtCapabilityLen,
IN USHORT CapabilityInfo);
#endif
void RTMP_IndicateMediaState(
IN PRTMP_ADAPTER pAd);
VOID ReSyncBeaconTime(
IN PRTMP_ADAPTER pAd);
VOID RTMPSetAGCInitValue(
IN PRTMP_ADAPTER pAd,
IN UCHAR BandWidth);
int rt28xx_close(IN PNET_DEV dev);
int rt28xx_open(IN PNET_DEV dev);
__inline INT VIRTUAL_IF_UP(PRTMP_ADAPTER pAd)
{
if (VIRTUAL_IF_NUM(pAd) == 0)
{
if (rt28xx_open(pAd->net_dev) != 0)
return -1;
}
else
{
}
VIRTUAL_IF_INC(pAd);
return 0;
}
__inline VOID VIRTUAL_IF_DOWN(PRTMP_ADAPTER pAd)
{
VIRTUAL_IF_DEC(pAd);
if (VIRTUAL_IF_NUM(pAd) == 0)
rt28xx_close(pAd->net_dev);
return;
}
#endif // __RTMP_H__
