diff options
Diffstat (limited to 'drivers/staging/rt3090/rtmp_phy.h')
-rw-r--r-- | drivers/staging/rt3090/rtmp_phy.h | 631 |
1 files changed, 0 insertions, 631 deletions
diff --git a/drivers/staging/rt3090/rtmp_phy.h b/drivers/staging/rt3090/rtmp_phy.h deleted file mode 100644 index b9848cac282e..000000000000 --- a/drivers/staging/rt3090/rtmp_phy.h +++ /dev/null @@ -1,631 +0,0 @@ -/* - ************************************************************************* - * 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_phy.h - - Abstract: - Ralink Wireless Chip PHY(BBP/RF) related definition & structures - - Revision History: - Who When What - -------- ---------- ---------------------------------------------- -*/ - -#ifndef __RTMP_PHY_H__ -#define __RTMP_PHY_H__ - - -/* - RF sections -*/ -#define RF_R00 0 -#define RF_R01 1 -#define RF_R02 2 -#define RF_R03 3 -#define RF_R04 4 -#define RF_R05 5 -#define RF_R06 6 -#define RF_R07 7 -#define RF_R08 8 -#define RF_R09 9 -#define RF_R10 10 -#define RF_R11 11 -#define RF_R12 12 -#define RF_R13 13 -#define RF_R14 14 -#define RF_R15 15 -#define RF_R16 16 -#define RF_R17 17 -#define RF_R18 18 -#define RF_R19 19 -#define RF_R20 20 -#define RF_R21 21 -#define RF_R22 22 -#define RF_R23 23 -#define RF_R24 24 -#define RF_R25 25 -#define RF_R26 26 -#define RF_R27 27 -#define RF_R28 28 -#define RF_R29 29 -#define RF_R30 30 -#define RF_R31 31 - - -// value domain of pAd->RfIcType -#define RFIC_2820 1 // 2.4G 2T3R -#define RFIC_2850 2 // 2.4G/5G 2T3R -#define RFIC_2720 3 // 2.4G 1T2R -#define RFIC_2750 4 // 2.4G/5G 1T2R -#define RFIC_3020 5 // 2.4G 1T1R -#define RFIC_2020 6 // 2.4G B/G -#define RFIC_3021 7 // 2.4G 1T2R -#define RFIC_3022 8 // 2.4G 2T2R -#define RFIC_3052 9 // 2.4G/5G 2T2R - -/* - BBP sections -*/ -#define BBP_R0 0 // version -#define BBP_R1 1 // TSSI -#define BBP_R2 2 // TX configure -#define BBP_R3 3 -#define BBP_R4 4 -#define BBP_R5 5 -#define BBP_R6 6 -#define BBP_R14 14 // RX configure -#define BBP_R16 16 -#define BBP_R17 17 // RX sensibility -#define BBP_R18 18 -#define BBP_R21 21 -#define BBP_R22 22 -#define BBP_R24 24 -#define BBP_R25 25 -#define BBP_R26 26 -#define BBP_R27 27 -#define BBP_R31 31 -#define BBP_R49 49 //TSSI -#define BBP_R50 50 -#define BBP_R51 51 -#define BBP_R52 52 -#define BBP_R55 55 -#define BBP_R62 62 // Rx SQ0 Threshold HIGH -#define BBP_R63 63 -#define BBP_R64 64 -#define BBP_R65 65 -#define BBP_R66 66 -#define BBP_R67 67 -#define BBP_R68 68 -#define BBP_R69 69 -#define BBP_R70 70 // Rx AGC SQ CCK Xcorr threshold -#define BBP_R73 73 -#define BBP_R75 75 -#define BBP_R77 77 -#define BBP_R78 78 -#define BBP_R79 79 -#define BBP_R80 80 -#define BBP_R81 81 -#define BBP_R82 82 -#define BBP_R83 83 -#define BBP_R84 84 -#define BBP_R86 86 -#define BBP_R91 91 -#define BBP_R92 92 -#define BBP_R94 94 // Tx Gain Control -#define BBP_R103 103 -#define BBP_R105 105 -#define BBP_R106 106 -#define BBP_R113 113 -#define BBP_R114 114 -#define BBP_R115 115 -#define BBP_R116 116 -#define BBP_R117 117 -#define BBP_R118 118 -#define BBP_R119 119 -#define BBP_R120 120 -#define BBP_R121 121 -#define BBP_R122 122 -#define BBP_R123 123 -#ifdef RT30xx -#define BBP_R138 138 // add by johnli, RF power sequence setup, ADC dynamic on/off control -#endif // RT30xx // - - -#define BBPR94_DEFAULT 0x06 // Add 1 value will gain 1db - - -#ifdef MERGE_ARCH_TEAM - #define MAX_BBP_ID 200 - #define MAX_BBP_MSG_SIZE 4096 -#else -#ifdef RT30xx - // edit by johnli, RF power sequence setup, add BBP R138 for ADC dynamic on/off control - #define MAX_BBP_ID 138 -#endif // RT30xx // -#ifndef RT30xx - #define MAX_BBP_ID 136 -#endif // RT30xx // - #define MAX_BBP_MSG_SIZE 2048 -#endif // MERGE_ARCH_TEAM // - - -// -// 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 - -//#define PHY_TR_SWITCH_TIME 5 // usec - -//#define BBP_R17_LOW_SENSIBILITY 0x50 -//#define BBP_R17_MID_SENSIBILITY 0x41 -//#define BBP_R17_DYNAMIC_UP_BOUND 0x40 - -#define RSSI_FOR_VERY_LOW_SENSIBILITY -35 -#define RSSI_FOR_LOW_SENSIBILITY -58 -#define RSSI_FOR_MID_LOW_SENSIBILITY -80 -#define RSSI_FOR_MID_SENSIBILITY -90 - -/***************************************************************************** - RF register Read/Write marco definition - *****************************************************************************/ -#ifdef RTMP_MAC_PCI -#define RTMP_RF_IO_WRITE32(_A, _V) \ -{ \ - if ((_A)->bPCIclkOff == FALSE) \ - { \ - PHY_CSR4_STRUC _value; \ - ULONG _busyCnt = 0; \ - \ - 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)); \ - } \ - } \ -} -#endif // RTMP_MAC_PCI // - - - -#ifdef RT30xx -#define RTMP_RF_IO_READ8_BY_REG_ID(_A, _I, _pV) RT30xxReadRFRegister(_A, _I, _pV) -#define RTMP_RF_IO_WRITE8_BY_REG_ID(_A, _I, _V) RT30xxWriteRFRegister(_A, _I, _V) -#endif // RT30xx // - - -/***************************************************************************** - BBP register Read/Write marco definitions. - we read/write the bbp value by register's ID. - Generate PER to test BA - *****************************************************************************/ -#ifdef RTMP_MAC_PCI -/* - basic marco for BBP read operation. - _pAd: the data structure pointer of RTMP_ADAPTER - _bbpID : the bbp register ID - _pV: data pointer used to save the value of queried bbp register. - _bViaMCU: if we need access the bbp via the MCU. -*/ -#define RTMP_BBP_IO_READ8(_pAd, _bbpID, _pV, _bViaMCU) \ - do{ \ - BBP_CSR_CFG_STRUC BbpCsr; \ - int _busyCnt, _secCnt, _regID; \ - \ - _regID = ((_bViaMCU) == TRUE ? H2M_BBP_AGENT : BBP_CSR_CFG); \ - for (_busyCnt=0; _busyCnt<MAX_BUSY_COUNT; _busyCnt++) \ - { \ - RTMP_IO_READ32(_pAd, _regID, &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 = _bbpID; \ - RTMP_IO_WRITE32(_pAd, _regID, BbpCsr.word); \ - if ((_bViaMCU) == TRUE) \ - { \ - AsicSendCommandToMcu(_pAd, 0x80, 0xff, 0x0, 0x0); \ - RTMPusecDelay(1000); \ - } \ - for (_secCnt=0; _secCnt<MAX_BUSY_COUNT; _secCnt++) \ - { \ - RTMP_IO_READ32(_pAd, _regID, &BbpCsr.word); \ - if (BbpCsr.field.Busy == IDLE) \ - break; \ - } \ - if ((BbpCsr.field.Busy == IDLE) && \ - (BbpCsr.field.RegNum == _bbpID)) \ - { \ - *(_pV) = (UCHAR)BbpCsr.field.Value; \ - break; \ - } \ - } \ - if (BbpCsr.field.Busy == BUSY) \ - { \ - DBGPRINT_ERR(("BBP(viaMCU=%d) read R%d fail\n", (_bViaMCU), _bbpID)); \ - *(_pV) = (_pAd)->BbpWriteLatch[_bbpID]; \ - if ((_bViaMCU) == TRUE) \ - { \ - RTMP_IO_READ32(_pAd, _regID, &BbpCsr.word); \ - BbpCsr.field.Busy = 0; \ - RTMP_IO_WRITE32(_pAd, _regID, BbpCsr.word); \ - } \ - } \ - }while(0) - -/* - This marco used for the BBP read operation which didn't need via MCU. -*/ -#define BBP_IO_READ8_BY_REG_ID(_A, _I, _pV) \ - RTMP_BBP_IO_READ8((_A), (_I), (_pV), FALSE) - -/* - This marco used for the BBP read operation which need via MCU. - But for some chipset which didn't have mcu (e.g., RBUS based chipset), we - will use this function too and didn't access the bbp register via the MCU. -*/ -#ifndef CONFIG_STA_SUPPORT -#define RTMP_BBP_IO_READ8_BY_REG_ID(_A, _I, _pV) \ - do{ \ - if ((_A)->bPCIclkOff == FALSE) \ - { \ - if ((_A)->infType == RTMP_DEV_INF_RBUS) \ - RTMP_BBP_IO_READ8((_A), (_I), (_pV), FALSE); \ - else \ - RTMP_BBP_IO_READ8((_A), (_I), (_pV), TRUE); \ - } \ - }while(0) -#endif // CONFIG_STA_SUPPORT // -#ifdef CONFIG_STA_SUPPORT -// 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; \ - BOOLEAN brc; \ - BbpCsr.field.Busy = IDLE; \ - if ((IS_RT3090((_A)) || IS_RT3572((_A)) || IS_RT3390((_A))) && ((_A)->StaCfg.PSControl.field.rt30xxPowerMode == 3) \ - && ((_A)->StaCfg.PSControl.field.EnableNewPS == TRUE) \ - && ((_A)->bPCIclkOff == FALSE) \ - && ((_A)->brt30xxBanMcuCmd == 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); \ - brc = AsicSendCommandToMcu(_A, 0x80, 0xff, 0x0, 0x0); \ - if (brc == TRUE) \ - { \ - 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; \ - } \ - } \ - else \ - { \ - BbpCsr.field.Busy = 0; \ - RTMP_IO_WRITE32(_A, H2M_BBP_AGENT, BbpCsr.word); \ - } \ - } \ - } \ - else if (!((IS_RT3090((_A)) || IS_RT3572((_A)) || IS_RT3390((_A))) && ((_A)->StaCfg.PSControl.field.rt30xxPowerMode == 3) \ - && ((_A)->StaCfg.PSControl.field.EnableNewPS == TRUE)) \ - && ((_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); \ - 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; \ - } \ - } \ - } \ - else \ - { \ - DBGPRINT_ERR((" , brt30xxBanMcuCmd = %d, Read BBP %d \n", (_A)->brt30xxBanMcuCmd, (_I))); \ - *(_pV) = (_A)->BbpWriteLatch[_I]; \ - } \ - if ((BbpCsr.field.Busy == BUSY) || ((_A)->bPCIclkOff == TRUE)) \ - { \ - DBGPRINT_ERR(("BBP read R%d=0x%x fail\n", _I, BbpCsr.word)); \ - *(_pV) = (_A)->BbpWriteLatch[_I]; \ - } \ -} -#endif // CONFIG_STA_SUPPORT // - -/* - basic marco for BBP write operation. - _pAd: the data structure pointer of RTMP_ADAPTER - _bbpID : the bbp register ID - _pV: data used to save the value of queried bbp register. - _bViaMCU: if we need access the bbp via the MCU. -*/ -#define RTMP_BBP_IO_WRITE8(_pAd, _bbpID, _pV, _bViaMCU) \ - do{ \ - BBP_CSR_CFG_STRUC BbpCsr; \ - int _busyCnt, _regID; \ - \ - _regID = ((_bViaMCU) == TRUE ? H2M_BBP_AGENT : BBP_CSR_CFG); \ - for (_busyCnt=0; _busyCnt<MAX_BUSY_COUNT; _busyCnt++) \ - { \ - RTMP_IO_READ32((_pAd), 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 = _pV; \ - BbpCsr.field.RegNum = _bbpID; \ - RTMP_IO_WRITE32((_pAd), BBP_CSR_CFG, BbpCsr.word); \ - if ((_bViaMCU) == TRUE) \ - { \ - AsicSendCommandToMcu(_pAd, 0x80, 0xff, 0x0, 0x0); \ - if ((_pAd)->OpMode == OPMODE_AP) \ - RTMPusecDelay(1000); \ - } \ - (_pAd)->BbpWriteLatch[_bbpID] = _pV; \ - break; \ - } \ - if (_busyCnt == MAX_BUSY_COUNT) \ - { \ - DBGPRINT_ERR(("BBP write R%d fail\n", _bbpID)); \ - if((_bViaMCU) == TRUE) \ - { \ - RTMP_IO_READ32(_pAd, H2M_BBP_AGENT, &BbpCsr.word); \ - BbpCsr.field.Busy = 0; \ - RTMP_IO_WRITE32(_pAd, H2M_BBP_AGENT, BbpCsr.word); \ - } \ - } \ - }while(0) - - -/* - This marco used for the BBP write operation which didn't need via MCU. -*/ -#define BBP_IO_WRITE8_BY_REG_ID(_A, _I, _pV) \ - RTMP_BBP_IO_WRITE8((_A), (_I), (_pV), FALSE) - -/* - This marco used for the BBP write operation which need via MCU. - But for some chipset which didn't have mcu (e.g., RBUS based chipset), we - will use this function too and didn't access the bbp register via the MCU. -*/ -#ifndef CONFIG_STA_SUPPORT -#define RTMP_BBP_IO_WRITE8_BY_REG_ID(_A, _I, _pV) \ - do{ \ - if ((_A)->bPCIclkOff == FALSE) \ - { \ - if ((_A)->infType == RTMP_DEV_INF_RBUS) \ - RTMP_BBP_IO_WRITE8((_A), (_I), (_pV), FALSE); \ - else \ - RTMP_BBP_IO_WRITE8((_A), (_I), (_pV), TRUE); \ - } \ - }while(0) -#endif // CONFIG_STA_SUPPORT // -#ifdef CONFIG_STA_SUPPORT -// 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 = 0; \ - BOOLEAN brc; \ - if (_I < MAX_NUM_OF_BBP_LATCH) \ - { \ - if ((IS_RT3090((_A)) || IS_RT3572((_A)) || IS_RT3390((_A))) && ((_A)->StaCfg.PSControl.field.rt30xxPowerMode == 3) \ - && ((_A)->StaCfg.PSControl.field.EnableNewPS == TRUE) \ - && ((_A)->bPCIclkOff == FALSE) \ - && ((_A)->brt30xxBanMcuCmd == FALSE)) \ - { \ - if (_A->AccessBBPFailCount > 20) \ - { \ - AsicResetBBPAgent(_A); \ - _A->AccessBBPFailCount = 0; \ - } \ - 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); \ - brc = AsicSendCommandToMcu(_A, 0x80, 0xff, 0x0, 0x0); \ - if (brc == TRUE) \ - { \ - (_A)->BbpWriteLatch[_I] = _V; \ - } \ - else \ - { \ - BbpCsr.field.Busy = 0; \ - RTMP_IO_WRITE32(_A, H2M_BBP_AGENT, BbpCsr.word); \ - } \ - break; \ - } \ - } \ - else if (!((IS_RT3090((_A)) || IS_RT3572((_A)) || IS_RT3390((_A))) && ((_A)->StaCfg.PSControl.field.rt30xxPowerMode == 3) \ - && ((_A)->StaCfg.PSControl.field.EnableNewPS == TRUE)) \ - && ((_A)->bPCIclkOff == FALSE)) \ - { \ - if (_A->AccessBBPFailCount > 20) \ - { \ - AsicResetBBPAgent(_A); \ - _A->AccessBBPFailCount = 0; \ - } \ - 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); \ - (_A)->BbpWriteLatch[_I] = _V; \ - break; \ - } \ - } \ - else \ - { \ - DBGPRINT_ERR((" brt30xxBanMcuCmd = %d. Write BBP %d \n", (_A)->brt30xxBanMcuCmd, (_I))); \ - } \ - if ((BusyCnt == MAX_BUSY_COUNT) || ((_A)->bPCIclkOff == TRUE)) \ - { \ - if (BusyCnt == MAX_BUSY_COUNT) \ - (_A)->AccessBBPFailCount++; \ - DBGPRINT_ERR(("BBP write R%d=0x%x fail. BusyCnt= %d.bPCIclkOff = %d. \n", _I, BbpCsr.word, BusyCnt, (_A)->bPCIclkOff )); \ - } \ - } \ - else \ - { \ - DBGPRINT_ERR(("****** BBP_Write_Latch Buffer exceeds max boundry ****** \n")); \ - } \ -} -#endif // CONFIG_STA_SUPPORT // -#endif // RTMP_MAC_PCI // - - - -#ifdef RT30xx -//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 RTMP_ASIC_MMPS_DISABLE(_pAd) \ - do{ \ - UCHAR _bbpData; \ - UINT32 _macData; \ - /* disable MMPS BBP control register */ \ - RTMP_BBP_IO_READ8_BY_REG_ID(_pAd, BBP_R3, &_bbpData); \ - _bbpData &= ~(0x04); /*bit 2*/ \ - RTMP_BBP_IO_WRITE8_BY_REG_ID(_pAd, BBP_R3, _bbpData); \ - \ - /* disable MMPS MAC control register */ \ - RTMP_IO_READ32(_pAd, 0x1210, &_macData); \ - _macData &= ~(0x09); /*bit 0, 3*/ \ - RTMP_IO_WRITE32(_pAd, 0x1210, _macData); \ - }while(0) - - -#define RTMP_ASIC_MMPS_ENABLE(_pAd) \ - do{ \ - UCHAR _bbpData; \ - UINT32 _macData; \ - /* enable MMPS BBP control register */ \ - RTMP_BBP_IO_READ8_BY_REG_ID(_pAd, BBP_R3, &_bbpData); \ - _bbpData |= (0x04); /*bit 2*/ \ - RTMP_BBP_IO_WRITE8_BY_REG_ID(_pAd, BBP_R3, _bbpData); \ - \ - /* enable MMPS MAC control register */ \ - RTMP_IO_READ32(_pAd, 0x1210, &_macData); \ - _macData |= (0x09); /*bit 0, 3*/ \ - RTMP_IO_WRITE32(_pAd, 0x1210, _macData); \ - }while(0) - -#endif // RT30xx // - -#endif // __RTMP_PHY_H__ // |