cregit-Linux how code gets into the kernel

Release 4.7 drivers/staging/rtl8723au/hal/odm_HWConfig.c

/******************************************************************************
 *
 * Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
 *
 * This program is free software; you can redistribute it and/or modify it
 * under the terms of version 2 of the GNU General Public License as
 * published by the Free Software Foundation.
 *
 * 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.
 *
 ******************************************************************************/

/*  */
/*  include files */
/*  */

#include "odm_precomp.h"


static u8 odm_QueryRxPwrPercentage(s8 AntPower) { if ((AntPower <= -100) || (AntPower >= 20)) return 0; else if (AntPower >= 0) return 100; else return 100 + AntPower; }

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static s32 odm_SignalScaleMapping_92CSeries(struct dm_odm_t *pDM_Odm, s32 CurrSig) { s32 RetSig = 0; if (CurrSig >= 51 && CurrSig <= 100) RetSig = 100; else if (CurrSig >= 41 && CurrSig <= 50) RetSig = 80 + ((CurrSig - 40)*2); else if (CurrSig >= 31 && CurrSig <= 40) RetSig = 66 + (CurrSig - 30); else if (CurrSig >= 21 && CurrSig <= 30) RetSig = 54 + (CurrSig - 20); else if (CurrSig >= 10 && CurrSig <= 20) RetSig = 42 + (((CurrSig - 10) * 2) / 3); else if (CurrSig >= 5 && CurrSig <= 9) RetSig = 22 + (((CurrSig - 5) * 3) / 2); else if (CurrSig >= 1 && CurrSig <= 4) RetSig = 6 + (((CurrSig - 1) * 3) / 2); else RetSig = CurrSig; return RetSig; }

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static s32 odm_SignalScaleMapping(struct dm_odm_t *pDM_Odm, s32 CurrSig) { return odm_SignalScaleMapping_92CSeries(pDM_Odm, CurrSig); }

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static u8 odm_EVMdbToPercentage( s8 Value ) { /* */ /* -33dB~0dB to 0%~99% */ /* */ s8 ret_val; ret_val = Value; if (ret_val >= 0) ret_val = 0; if (ret_val <= -33) ret_val = -33; ret_val = 0 - ret_val; ret_val *= 3; if (ret_val == 99) ret_val = 100; return ret_val; }

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static void odm_RxPhyStatus92CSeries_Parsing(struct dm_odm_t *pDM_Odm, struct phy_info *pPhyInfo, u8 *pPhyStatus, struct odm_packet_info *pPktinfo) { struct phy_status_rpt *pPhyStaRpt = (struct phy_status_rpt *)pPhyStatus; u8 i, Max_spatial_stream; s8 rx_pwr[4], rx_pwr_all = 0; u8 EVM, PWDB_ALL = 0, PWDB_ALL_BT; u8 RSSI, total_rssi = 0; u8 isCCKrate = 0; u8 rf_rx_num = 0; u8 cck_highpwr = 0; isCCKrate = (pPktinfo->Rate <= DESC92C_RATE11M) ? true : false; pPhyInfo->RxMIMOSignalQuality[RF_PATH_A] = -1; pPhyInfo->RxMIMOSignalQuality[RF_PATH_B] = -1; if (isCCKrate) { u8 report; u8 cck_agc_rpt; pDM_Odm->PhyDbgInfo.NumQryPhyStatusCCK++; /* (1)Hardware does not provide RSSI for CCK */ /* (2)PWDB, Average PWDB cacluated by hardware (for rate adaptive) */ cck_highpwr = pDM_Odm->bCckHighPower; cck_agc_rpt = pPhyStaRpt->cck_agc_rpt_ofdm_cfosho_a; /* The RSSI formula should be modified according to the gain table */ if (!cck_highpwr) { report = (cck_agc_rpt & 0xc0)>>6; switch (report) { /* Modify the RF RNA gain value to -40, -20, -2, 14 by Jenyu's suggestion */ /* Note: different RF with the different RNA gain. */ case 0x3: rx_pwr_all = -46 - (cck_agc_rpt & 0x3e); break; case 0x2: rx_pwr_all = -26 - (cck_agc_rpt & 0x3e); break; case 0x1: rx_pwr_all = -12 - (cck_agc_rpt & 0x3e); break; case 0x0: rx_pwr_all = 16 - (cck_agc_rpt & 0x3e); break; } } else { report = (cck_agc_rpt & 0x60)>>5; switch (report) { case 0x3: rx_pwr_all = -46 - ((cck_agc_rpt & 0x1f)<<1); break; case 0x2: rx_pwr_all = -26 - ((cck_agc_rpt & 0x1f)<<1); break; case 0x1: rx_pwr_all = -12 - ((cck_agc_rpt & 0x1f)<<1); break; case 0x0: rx_pwr_all = 16 - ((cck_agc_rpt & 0x1f)<<1); break; } } PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all); /* Modification for ext-LNA board */ if (pDM_Odm->BoardType == ODM_BOARD_HIGHPWR) { if ((cck_agc_rpt>>7) == 0) { PWDB_ALL = (PWDB_ALL > 94) ? 100 : (PWDB_ALL+6); } else { if (PWDB_ALL > 38) PWDB_ALL -= 16; else PWDB_ALL = (PWDB_ALL <= 16) ? (PWDB_ALL>>2) : (PWDB_ALL-12); } /* CCK modification */ if (PWDB_ALL > 25 && PWDB_ALL <= 60) PWDB_ALL += 6; } else { /* Modification for int-LNA board */ if (PWDB_ALL > 99) PWDB_ALL -= 8; else if (PWDB_ALL > 50 && PWDB_ALL <= 68) PWDB_ALL += 4; } pPhyInfo->RxPWDBAll = PWDB_ALL; pPhyInfo->BTRxRSSIPercentage = PWDB_ALL; pPhyInfo->RecvSignalPower = rx_pwr_all; /* (3) Get Signal Quality (EVM) */ if (pPktinfo->bPacketMatchBSSID) { u8 SQ, SQ_rpt; SQ_rpt = pPhyStaRpt->cck_sig_qual_ofdm_pwdb_all; if (SQ_rpt > 64) SQ = 0; else if (SQ_rpt < 20) SQ = 100; else SQ = ((64-SQ_rpt) * 100) / 44; pPhyInfo->SignalQuality = SQ; pPhyInfo->RxMIMOSignalQuality[RF_PATH_A] = SQ; pPhyInfo->RxMIMOSignalQuality[RF_PATH_B] = -1; } } else { /* is OFDM rate */ pDM_Odm->PhyDbgInfo.NumQryPhyStatusOFDM++; /* (1)Get RSSI for HT rate */ for (i = RF_PATH_A; i < RF_PATH_MAX; i++) { /* 2008/01/30 MH we will judge RF RX path now. */ if (pDM_Odm->RFPathRxEnable & BIT(i)) rf_rx_num++; rx_pwr[i] = ((pPhyStaRpt->path_agc[i].gain & 0x3F)*2) - 110; pPhyInfo->RxPwr[i] = rx_pwr[i]; /* Translate DBM to percentage. */ RSSI = odm_QueryRxPwrPercentage(rx_pwr[i]); total_rssi += RSSI; /* Modification for ext-LNA board */ if (pDM_Odm->BoardType == ODM_BOARD_HIGHPWR) { if ((pPhyStaRpt->path_agc[i].trsw) == 1) RSSI = (RSSI > 94) ? 100 : (RSSI+6); else RSSI = (RSSI <= 16) ? (RSSI>>3) : (RSSI-16); if ((RSSI <= 34) && (RSSI >= 4)) RSSI -= 4; } pPhyInfo->RxMIMOSignalStrength[i] = (u8) RSSI; /* Get Rx snr value in DB */ pPhyInfo->RxSNR[i] = pDM_Odm->PhyDbgInfo.RxSNRdB[i] = (s32)(pPhyStaRpt->path_rxsnr[i]/2); } /* (2)PWDB, Average PWDB cacluated by hardware (for rate adaptive) */ rx_pwr_all = (((pPhyStaRpt->cck_sig_qual_ofdm_pwdb_all) >> 1) & 0x7f)-110; PWDB_ALL = odm_QueryRxPwrPercentage(rx_pwr_all); PWDB_ALL_BT = PWDB_ALL; pPhyInfo->RxPWDBAll = PWDB_ALL; pPhyInfo->BTRxRSSIPercentage = PWDB_ALL_BT; pPhyInfo->RxPower = rx_pwr_all; pPhyInfo->RecvSignalPower = rx_pwr_all; /* (3)EVM of HT rate */ if (pPktinfo->Rate >= DESC92C_RATEMCS8 && pPktinfo->Rate <= DESC92C_RATEMCS15) Max_spatial_stream = 2; /* both spatial stream make sense */ else Max_spatial_stream = 1; /* only spatial stream 1 makes sense */ for (i = 0; i < Max_spatial_stream; i++) { /* Do not use shift operation like "rx_evmX >>= 1" because the compilor of free build environment */ /* fill most significant bit to "zero" when doing shifting operation which may change a negative */ /* value to positive one, then the dbm value (which is supposed to be negative) is not correct anymore. */ EVM = odm_EVMdbToPercentage((pPhyStaRpt->stream_rxevm[i])); /* dbm */ if (pPktinfo->bPacketMatchBSSID) { if (i == RF_PATH_A) { /* Fill value in RFD, Get the first spatial stream only */ pPhyInfo->SignalQuality = (u8)(EVM & 0xff); } pPhyInfo->RxMIMOSignalQuality[i] = (u8)(EVM & 0xff); } } } /* UI BSS List signal strength(in percentage), make it good looking, from 0~100. */ /* It is assigned to the BSS List in GetValueFromBeaconOrProbeRsp(). */ if (isCCKrate) { pPhyInfo->SignalStrength = (u8)(odm_SignalScaleMapping(pDM_Odm, PWDB_ALL));/* PWDB_ALL; */ } else { if (rf_rx_num != 0) pPhyInfo->SignalStrength = (u8)(odm_SignalScaleMapping(pDM_Odm, total_rssi /= rf_rx_num)); } }

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static void odm_Process_RSSIForDM(struct dm_odm_t *pDM_Odm, struct phy_info *pPhyInfo, struct odm_packet_info *pPktinfo) { s32 UndecoratedSmoothedPWDB, UndecoratedSmoothedCCK; s32 UndecoratedSmoothedOFDM, RSSI_Ave; u8 isCCKrate = 0; u8 RSSI_max, RSSI_min, i; u32 OFDM_pkt = 0; u32 Weighting = 0; struct sta_info *pEntry; if (pPktinfo->StationID == 0xFF) return; pEntry = pDM_Odm->pODM_StaInfo[pPktinfo->StationID]; if (!pEntry) return; if ((!pPktinfo->bPacketMatchBSSID)) return; isCCKrate = (pPktinfo->Rate <= DESC92C_RATE11M) ? true : false; /* Smart Antenna Debug Message------------------*/ UndecoratedSmoothedCCK = pEntry->rssi_stat.UndecoratedSmoothedCCK; UndecoratedSmoothedOFDM = pEntry->rssi_stat.UndecoratedSmoothedOFDM; UndecoratedSmoothedPWDB = pEntry->rssi_stat.UndecoratedSmoothedPWDB; if (pPktinfo->bPacketToSelf || pPktinfo->bPacketBeacon) { if (!isCCKrate) { /* ofdm rate */ if (pPhyInfo->RxMIMOSignalStrength[RF_PATH_B] == 0) { RSSI_Ave = pPhyInfo->RxMIMOSignalStrength[RF_PATH_A]; } else { if (pPhyInfo->RxMIMOSignalStrength[RF_PATH_A] > pPhyInfo->RxMIMOSignalStrength[RF_PATH_B]) { RSSI_max = pPhyInfo->RxMIMOSignalStrength[RF_PATH_A]; RSSI_min = pPhyInfo->RxMIMOSignalStrength[RF_PATH_B]; } else { RSSI_max = pPhyInfo->RxMIMOSignalStrength[RF_PATH_B]; RSSI_min = pPhyInfo->RxMIMOSignalStrength[RF_PATH_A]; } if ((RSSI_max - RSSI_min) < 3) RSSI_Ave = RSSI_max; else if ((RSSI_max - RSSI_min) < 6) RSSI_Ave = RSSI_max - 1; else if ((RSSI_max - RSSI_min) < 10) RSSI_Ave = RSSI_max - 2; else RSSI_Ave = RSSI_max - 3; } /* 1 Process OFDM RSSI */ if (UndecoratedSmoothedOFDM <= 0) { /* initialize */ UndecoratedSmoothedOFDM = pPhyInfo->RxPWDBAll; } else { if (pPhyInfo->RxPWDBAll > (u32)UndecoratedSmoothedOFDM) { UndecoratedSmoothedOFDM = (((UndecoratedSmoothedOFDM)*(Rx_Smooth_Factor-1)) + (RSSI_Ave)) / (Rx_Smooth_Factor); UndecoratedSmoothedOFDM = UndecoratedSmoothedOFDM + 1; } else { UndecoratedSmoothedOFDM = (((UndecoratedSmoothedOFDM)*(Rx_Smooth_Factor-1)) + (RSSI_Ave)) / (Rx_Smooth_Factor); } } pEntry->rssi_stat.PacketMap = (pEntry->rssi_stat.PacketMap<<1) | BIT(0); } else { RSSI_Ave = pPhyInfo->RxPWDBAll; /* 1 Process CCK RSSI */ if (UndecoratedSmoothedCCK <= 0) { /* initialize */ UndecoratedSmoothedCCK = pPhyInfo->RxPWDBAll; } else { if (pPhyInfo->RxPWDBAll > (u32)UndecoratedSmoothedCCK) { UndecoratedSmoothedCCK = (((UndecoratedSmoothedCCK)*(Rx_Smooth_Factor-1)) + (pPhyInfo->RxPWDBAll)) / (Rx_Smooth_Factor); UndecoratedSmoothedCCK = UndecoratedSmoothedCCK + 1; } else { UndecoratedSmoothedCCK = (((UndecoratedSmoothedCCK)*(Rx_Smooth_Factor-1)) + (pPhyInfo->RxPWDBAll)) / (Rx_Smooth_Factor); } } pEntry->rssi_stat.PacketMap = pEntry->rssi_stat.PacketMap<<1; } /* 2011.07.28 LukeLee: modified to prevent unstable CCK RSSI */ if (pEntry->rssi_stat.ValidBit >= 64) pEntry->rssi_stat.ValidBit = 64; else pEntry->rssi_stat.ValidBit++; for (i = 0; i < pEntry->rssi_stat.ValidBit; i++) OFDM_pkt += (u8)(pEntry->rssi_stat.PacketMap>>i) & BIT(0); if (pEntry->rssi_stat.ValidBit == 64) { Weighting = ((OFDM_pkt<<4) > 64)?64:(OFDM_pkt<<4); UndecoratedSmoothedPWDB = (Weighting*UndecoratedSmoothedOFDM+(64-Weighting)*UndecoratedSmoothedCCK)>>6; } else { if (pEntry->rssi_stat.ValidBit != 0) UndecoratedSmoothedPWDB = (OFDM_pkt*UndecoratedSmoothedOFDM+(pEntry->rssi_stat.ValidBit-OFDM_pkt)*UndecoratedSmoothedCCK)/pEntry->rssi_stat.ValidBit; else UndecoratedSmoothedPWDB = 0; } pEntry->rssi_stat.UndecoratedSmoothedCCK = UndecoratedSmoothedCCK; pEntry->rssi_stat.UndecoratedSmoothedOFDM = UndecoratedSmoothedOFDM; pEntry->rssi_stat.UndecoratedSmoothedPWDB = UndecoratedSmoothedPWDB; } }

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void ODM_PhyStatusQuery23a(struct dm_odm_t *pDM_Odm, struct phy_info *pPhyInfo, u8 *pPhyStatus, struct odm_packet_info *pPktinfo) { odm_RxPhyStatus92CSeries_Parsing(pDM_Odm, pPhyInfo, pPhyStatus, pPktinfo); odm_Process_RSSIForDM(pDM_Odm, pPhyInfo, pPktinfo); }

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