/* ************************************************************************* * 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: rt30xx.c Abstract: Specific funcitons and variables for RT30xx. Revision History: Who When What -------- ---------- ---------------------------------------------- */ #ifdef RT30xx #ifndef RTMP_RF_RW_SUPPORT #error "You Should Enable compile flag RTMP_RF_RW_SUPPORT for this chip" #endif /* RTMP_RF_RW_SUPPORT // */ #include "../rt_config.h" /* */ /* RF register initialization set */ /* */ struct rt_reg_pair RT30xx_RFRegTable[] = { {RF_R04, 0x40} , {RF_R05, 0x03} , {RF_R06, 0x02} , {RF_R07, 0x70} , {RF_R09, 0x0F} , {RF_R10, 0x41} , {RF_R11, 0x21} , {RF_R12, 0x7B} , {RF_R14, 0x90} , {RF_R15, 0x58} , {RF_R16, 0xB3} , {RF_R17, 0x92} , {RF_R18, 0x2C} , {RF_R19, 0x02} , {RF_R20, 0xBA} , {RF_R21, 0xDB} , {RF_R24, 0x16} , {RF_R25, 0x01} , {RF_R29, 0x1F} , }; u8 NUM_RF_REG_PARMS = (sizeof(RT30xx_RFRegTable) / sizeof(struct rt_reg_pair)); /* Antenna divesity use GPIO3 and EESK pin for control */ /* Antenna and EEPROM access are both using EESK pin, */ /* Therefor we should avoid accessing EESK at the same time */ /* Then restore antenna after EEPROM access */ /* The original name of this function is AsicSetRxAnt(), now change to */ /*void AsicSetRxAnt( */ void RT30xxSetRxAnt(struct rt_rtmp_adapter *pAd, u8 Ant) { u32 Value; #ifdef RTMP_MAC_PCI u32 x; #endif if ((pAd->EepromAccess) || (RTMP_TEST_FLAG(pAd, fRTMP_ADAPTER_RESET_IN_PROGRESS)) || (RTMP_TEST_FLAG(pAd, fRTMP_ADAPTER_HALT_IN_PROGRESS)) || (RTMP_TEST_FLAG(pAd, fRTMP_ADAPTER_RADIO_OFF)) || (RTMP_TEST_FLAG(pAd, fRTMP_ADAPTER_NIC_NOT_EXIST))) { return; } /* the antenna selection is through firmware and MAC register(GPIO3) */ if (Ant == 0) { /* Main antenna */ #ifdef RTMP_MAC_PCI RTMP_IO_READ32(pAd, E2PROM_CSR, &x); x |= (EESK); RTMP_IO_WRITE32(pAd, E2PROM_CSR, x); #else AsicSendCommandToMcu(pAd, 0x73, 0xFF, 0x1, 0x0); #endif /* RTMP_MAC_PCI // */ RTMP_IO_READ32(pAd, GPIO_CTRL_CFG, &Value); Value &= ~(0x0808); RTMP_IO_WRITE32(pAd, GPIO_CTRL_CFG, Value); DBGPRINT_RAW(RT_DEBUG_TRACE, ("AsicSetRxAnt, switch to main antenna\n")); } else { /* Aux antenna */ #ifdef RTMP_MAC_PCI RTMP_IO_READ32(pAd, E2PROM_CSR, &x); x &= ~(EESK); RTMP_IO_WRITE32(pAd, E2PROM_CSR, x); #else AsicSendCommandToMcu(pAd, 0x73, 0xFF, 0x0, 0x0); #endif /* RTMP_MAC_PCI // */ RTMP_IO_READ32(pAd, GPIO_CTRL_CFG, &Value); Value &= ~(0x0808); Value |= 0x08; RTMP_IO_WRITE32(pAd, GPIO_CTRL_CFG, Value); DBGPRINT_RAW(RT_DEBUG_TRACE, ("AsicSetRxAnt, switch to aux antenna\n")); } } /* ======================================================================== Routine Description: For RF filter calibration purpose Arguments: pAd Pointer to our adapter Return Value: None IRQL = PASSIVE_LEVEL ======================================================================== */ void RTMPFilterCalibration(struct rt_rtmp_adapter *pAd) { u8 R55x = 0, value, FilterTarget = 0x1E, BBPValue = 0; u32 loop = 0, count = 0, loopcnt = 0, ReTry = 0; u8 RF_R24_Value = 0; /* Give bbp filter initial value */ pAd->Mlme.CaliBW20RfR24 = 0x1F; pAd->Mlme.CaliBW40RfR24 = 0x2F; /*Bit[5] must be 1 for BW 40 */ do { if (loop == 1) /*BandWidth = 40 MHz */ { /* Write 0x27 to RF_R24 to program filter */ RF_R24_Value = 0x27; RT30xxWriteRFRegister(pAd, RF_R24, RF_R24_Value); if (IS_RT3090(pAd) || IS_RT3572(pAd) || IS_RT3390(pAd)) FilterTarget = 0x15; else FilterTarget = 0x19; /* when calibrate BW40, BBP mask must set to BW40. */ RTMP_BBP_IO_READ8_BY_REG_ID(pAd, BBP_R4, &BBPValue); BBPValue &= (~0x18); BBPValue |= (0x10); RTMP_BBP_IO_WRITE8_BY_REG_ID(pAd, BBP_R4, BBPValue); /* set to BW40 */ RT30xxReadRFRegister(pAd, RF_R31, &value); value |= 0x20; RT30xxWriteRFRegister(pAd, RF_R31, value); } else /*BandWidth = 20 MHz */ { /* Write 0x07 to RF_R24 to program filter */ RF_R24_Value = 0x07; RT30xxWriteRFRegister(pAd, RF_R24, RF_R24_Value); if (IS_RT3090(pAd) || IS_RT3572(pAd) || IS_RT3390(pAd)) FilterTarget = 0x13; else FilterTarget = 0x16; /* set to BW20 */ RT30xxReadRFRegister(pAd, RF_R31, &value); value &= (~0x20); RT30xxWriteRFRegister(pAd, RF_R31, value); } /* Write 0x01 to RF_R22 to enable baseband loopback mode */ RT30xxReadRFRegister(pAd, RF_R22, &value); value |= 0x01; RT30xxWriteRFRegister(pAd, RF_R22, value); /* Write 0x00 to BBP_R24 to set power & frequency of passband test tone */ RTMP_BBP_IO_WRITE8_BY_REG_ID(pAd, BBP_R24, 0); do { /* Write 0x90 to BBP_R25 to transmit test tone */ RTMP_BBP_IO_WRITE8_BY_REG_ID(pAd, BBP_R25, 0x90); RTMPusecDelay(1000); /* Read BBP_R55[6:0] for received power, set R55x = BBP_R55[6:0] */ RTMP_BBP_IO_READ8_BY_REG_ID(pAd, BBP_R55, &value); R55x = value & 0xFF; } while ((ReTry++ < 100) && (R55x == 0)); /* Write 0x06 to BBP_R24 to set power & frequency of stopband test tone */ RTMP_BBP_IO_WRITE8_BY_REG_ID(pAd, BBP_R24, 0x06); while (TRUE) { /* Write 0x90 to BBP_R25 to transmit test tone */ RTMP_BBP_IO_WRITE8_BY_REG_ID(pAd, BBP_R25, 0x90); /*We need to wait for calibration */ RTMPusecDelay(1000); RTMP_BBP_IO_READ8_BY_REG_ID(pAd, BBP_R55, &value); value &= 0xFF; if ((R55x - value) < FilterTarget) { RF_R24_Value++; } else if ((R55x - value) == FilterTarget) { RF_R24_Value++; count++; } else { break; } /* prevent infinite loop cause driver hang. */ if (loopcnt++ > 100) { DBGPRINT(RT_DEBUG_ERROR, ("RTMPFilterCalibration - can't find a valid value, loopcnt=%d stop calibrating", loopcnt)); break; } /* Write RF_R24 to program filter */ RT30xxWriteRFRegister(pAd, RF_R24, RF_R24_Value); } if (count > 0) { RF_R24_Value = RF_R24_Value - ((count) ? (1) : (0)); } /* Store for future usage */ if (loopcnt < 100) { if (loop++ == 0) { /*BandWidth = 20 MHz */ pAd->Mlme.CaliBW20RfR24 = (u8)RF_R24_Value; } else { /*BandWidth = 40 MHz */ pAd->Mlme.CaliBW40RfR24 = (u8)RF_R24_Value; break; } } else break; RT30xxWriteRFRegister(pAd, RF_R24, RF_R24_Value); /* reset count */ count = 0; } while (TRUE); /* */ /* Set back to initial state */ /* */ RTMP_BBP_IO_WRITE8_BY_REG_ID(pAd, BBP_R24, 0); RT30xxReadRFRegister(pAd, RF_R22, &value); value &= ~(0x01); RT30xxWriteRFRegister(pAd, RF_R22, value); /* set BBP back to BW20 */ RTMP_BBP_IO_READ8_BY_REG_ID(pAd, BBP_R4, &BBPValue); BBPValue &= (~0x18); RTMP_BBP_IO_WRITE8_BY_REG_ID(pAd, BBP_R4, BBPValue); DBGPRINT(RT_DEBUG_TRACE, ("RTMPFilterCalibration - CaliBW20RfR24=0x%x, CaliBW40RfR24=0x%x\n", pAd->Mlme.CaliBW20RfR24, pAd->Mlme.CaliBW40RfR24)); } /* add by johnli, RF power sequence setup */ /* ========================================================================== Description: Load RF normal operation-mode setup ========================================================================== */ void RT30xxLoadRFNormalModeSetup(struct rt_rtmp_adapter *pAd) { u8 RFValue; /* RX0_PD & TX0_PD, RF R1 register Bit 2 & Bit 3 to 0 and RF_BLOCK_en,RX1_PD & TX1_PD, Bit0, Bit 4 & Bit5 to 1 */ RT30xxReadRFRegister(pAd, RF_R01, &RFValue); RFValue = (RFValue & (~0x0C)) | 0x31; RT30xxWriteRFRegister(pAd, RF_R01, RFValue); /* TX_LO2_en, RF R15 register Bit 3 to 0 */ RT30xxReadRFRegister(pAd, RF_R15, &RFValue); RFValue &= (~0x08); RT30xxWriteRFRegister(pAd, RF_R15, RFValue); /* move to NICInitRT30xxRFRegisters // TX_LO1_en, RF R17 register Bit 3 to 0 RT30xxReadRFRegister(pAd, RF_R17, &RFValue); RFValue &= (~0x08); // to fix rx long range issue if (((pAd->MACVersion & 0xffff) >= 0x0211) && (pAd->NicConfig2.field.ExternalLNAForG == 0)) { RFValue |= 0x20; } // set RF_R17_bit[2:0] equal to EEPROM setting at 0x48h if (pAd->TxMixerGain24G >= 2) { RFValue &= (~0x7); // clean bit [2:0] RFValue |= pAd->TxMixerGain24G; } RT30xxWriteRFRegister(pAd, RF_R17, RFValue); */ /* RX_LO1_en, RF R20 register Bit 3 to 0 */ RT30xxReadRFRegister(pAd, RF_R20, &RFValue); RFValue &= (~0x08); RT30xxWriteRFRegister(pAd, RF_R20, RFValue); /* RX_LO2_en, RF R21 register Bit 3 to 0 */ RT30xxReadRFRegister(pAd, RF_R21, &RFValue); RFValue &= (~0x08); RT30xxWriteRFRegister(pAd, RF_R21, RFValue); /* add by johnli, reset RF_R27 when interface down & up to fix throughput problem */ /* LDORF_VC, RF R27 register Bit 2 to 0 */ RT30xxReadRFRegister(pAd, RF_R27, &RFValue); /* TX to RX IQ glitch(RF_R27) has been fixed in RT3070(F). */ /* Raising RF voltage is no longer needed for RT3070(F) */ if (IS_RT3090(pAd)) /* RT309x and RT3071/72 */ { if ((pAd->MACVersion & 0xffff) < 0x0211) RFValue = (RFValue & (~0x77)) | 0x3; else RFValue = (RFValue & (~0x77)); RT30xxWriteRFRegister(pAd, RF_R27, RFValue); } /* end johnli */ } /* ========================================================================== Description: Load RF sleep-mode setup ========================================================================== */ void RT30xxLoadRFSleepModeSetup(struct rt_rtmp_adapter *pAd) { u8 RFValue; u32 MACValue; #ifdef RTMP_MAC_USB if (!IS_RT3572(pAd)) #endif /* RTMP_MAC_USB // */ { /* RF_BLOCK_en. RF R1 register Bit 0 to 0 */ RT30xxReadRFRegister(pAd, RF_R01, &RFValue); RFValue &= (~0x01); RT30xxWriteRFRegister(pAd, RF_R01, RFValue); /* VCO_IC, RF R7 register Bit 4 & Bit 5 to 0 */ RT30xxReadRFRegister(pAd, RF_R07, &RFValue); RFValue &= (~0x30); RT30xxWriteRFRegister(pAd, RF_R07, RFValue); /* Idoh, RF R9 register Bit 1, Bit 2 & Bit 3 to 0 */ RT30xxReadRFRegister(pAd, RF_R09, &RFValue); RFValue &= (~0x0E); RT30xxWriteRFRegister(pAd, RF_R09, RFValue); /* RX_CTB_en, RF R21 register Bit 7 to 0 */ RT30xxReadRFRegister(pAd, RF_R21, &RFValue); RFValue &= (~0x80); RT30xxWriteRFRegister(pAd, RF_R21, RFValue); } if (IS_RT3090(pAd) || /* IS_RT3090 including RT309x and RT3071/72 */ IS_RT3572(pAd) || (IS_RT3070(pAd) && ((pAd->MACVersion & 0xffff) < 0x0201))) { #ifdef RTMP_MAC_USB if (!IS_RT3572(pAd)) #endif /* RTMP_MAC_USB // */ { RT30xxReadRFRegister(pAd, RF_R27, &RFValue); RFValue |= 0x77; RT30xxWriteRFRegister(pAd, RF_R27, RFValue); } RTMP_IO_READ32(pAd, LDO_CFG0, &MACValue); MACValue |= 0x1D000000; RTMP_IO_WRITE32(pAd, LDO_CFG0, MACValue); } } /* ========================================================================== Description: Reverse RF sleep-mode setup ========================================================================== */ void RT30xxReverseRFSleepModeSetup(struct rt_rtmp_adapter *pAd) { u8 RFValue; u32 MACValue; #ifdef RTMP_MAC_USB if (!IS_RT3572(pAd)) #endif /* RTMP_MAC_USB // */ { /* RF_BLOCK_en, RF R1 register Bit 0 to 1 */ RT30xxReadRFRegister(pAd, RF_R01, &RFValue); RFValue |= 0x01; RT30xxWriteRFRegister(pAd, RF_R01, RFValue); /* VCO_IC, RF R7 register Bit 4 & Bit 5 to 1 */ RT30xxReadRFRegister(pAd, RF_R07, &RFValue); RFValue |= 0x30; RT30xxWriteRFRegister(pAd, RF_R07, RFValue); /* Idoh, RF R9 register Bit 1, Bit 2 & Bit 3 to 1 */ RT30xxReadRFRegister(pAd, RF_R09, &RFValue); RFValue |= 0x0E; RT30xxWriteRFRegister(pAd, RF_R09, RFValue); /* RX_CTB_en, RF R21 register Bit 7 to 1 */ RT30xxReadRFRegister(pAd, RF_R21, &RFValue); RFValue |= 0x80; RT30xxWriteRFRegister(pAd, RF_R21, RFValue); } if (IS_RT3090(pAd) || /* IS_RT3090 including RT309x and RT3071/72 */ IS_RT3572(pAd) || IS_RT3390(pAd) || (IS_RT3070(pAd) && ((pAd->MACVersion & 0xffff) < 0x0201))) { #ifdef RTMP_MAC_USB if (!IS_RT3572(pAd)) #endif /* RTMP_MAC_USB // */ { RT30xxReadRFRegister(pAd, RF_R27, &RFValue); if ((pAd->MACVersion & 0xffff) < 0x0211) RFValue = (RFValue & (~0x77)) | 0x3; else RFValue = (RFValue & (~0x77)); RT30xxWriteRFRegister(pAd, RF_R27, RFValue); } /* RT3071 version E has fixed this issue */ if ((pAd->NicConfig2.field.DACTestBit == 1) && ((pAd->MACVersion & 0xffff) < 0x0211)) { /* patch tx EVM issue temporarily */ RTMP_IO_READ32(pAd, LDO_CFG0, &MACValue); MACValue = ((MACValue & 0xE0FFFFFF) | 0x0D000000); RTMP_IO_WRITE32(pAd, LDO_CFG0, MACValue); } else { RTMP_IO_READ32(pAd, LDO_CFG0, &MACValue); MACValue = ((MACValue & 0xE0FFFFFF) | 0x01000000); RTMP_IO_WRITE32(pAd, LDO_CFG0, MACValue); } } if (IS_RT3572(pAd)) RT30xxWriteRFRegister(pAd, RF_R08, 0x80); } /* end johnli */ void RT30xxHaltAction(struct rt_rtmp_adapter *pAd) { u32 TxPinCfg = 0x00050F0F; /* */ /* Turn off LNA_PE or TRSW_POL */ /* */ if (IS_RT3070(pAd) || IS_RT3071(pAd) || IS_RT3572(pAd)) { if ((IS_RT3071(pAd) || IS_RT3572(pAd)) #ifdef RTMP_EFUSE_SUPPORT && (pAd->bUseEfuse) #endif /* RTMP_EFUSE_SUPPORT // */ ) { TxPinCfg &= 0xFFFBF0F0; /* bit18 off */ } else { TxPinCfg &= 0xFFFFF0F0; } RTMP_IO_WRITE32(pAd, TX_PIN_CFG, TxPinCfg); } } #endif /* RT30xx // */