/****************************************************************************** * * Name: sklm80.c * Project: Gigabit Ethernet Adapters, TWSI-Module * Purpose: Functions to access Voltage and Temperature Sensor (LM80) * ******************************************************************************/ /****************************************************************************** * * (C)Copyright 1998-2002 SysKonnect. * (C)Copyright 2002-2003 Marvell. * * 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. * * The information in this file is provided "AS IS" without warranty. * ******************************************************************************/ /* LM80 functions */ #if (defined(DEBUG) || ((!defined(LINT)) && (!defined(SK_SLIM)))) static const char SysKonnectFileId[] = "@(#) $Id: sklm80.c,v 1.22 2003/10/20 09:08:21 rschmidt Exp $ (C) Marvell. "; #endif #include "h/skdrv1st.h" /* Driver Specific Definitions */ #include "h/lm80.h" #include "h/skdrv2nd.h" /* Adapter Control- and Driver specific Def. */ #ifdef SK_DIAG #define BREAK_OR_WAIT(pAC,IoC,Event) SkI2cWait(pAC,IoC,Event) #else /* nSK_DIAG */ #define BREAK_OR_WAIT(pAC,IoC,Event) break #endif /* nSK_DIAG */ #ifdef SK_DIAG /* * read the register 'Reg' from the device 'Dev' * * return read error -1 * success the read value */ int SkLm80RcvReg( SK_IOC IoC, /* Adapter Context */ int Dev, /* I2C device address */ int Reg) /* register to read */ { int Val = 0; int TempExt; /* Signal device number */ if (SkI2cSndDev(IoC, Dev, I2C_WRITE)) { return(-1); } if (SkI2cSndByte(IoC, Reg)) { return(-1); } /* repeat start */ if (SkI2cSndDev(IoC, Dev, I2C_READ)) { return(-1); } switch (Reg) { case LM80_TEMP_IN: Val = (int)SkI2cRcvByte(IoC, 1); /* First: correct the value: it might be negative */ if ((Val & 0x80) != 0) { /* Value is negative */ Val = Val - 256; } Val = Val * SK_LM80_TEMP_LSB; SkI2cStop(IoC); TempExt = (int)SkLm80RcvReg(IoC, LM80_ADDR, LM80_TEMP_CTRL); if (Val > 0) { Val += ((TempExt >> 7) * SK_LM80_TEMPEXT_LSB); } else { Val -= ((TempExt >> 7) * SK_LM80_TEMPEXT_LSB); } return(Val); break; case LM80_VT0_IN: case LM80_VT1_IN: case LM80_VT2_IN: case LM80_VT3_IN: Val = (int)SkI2cRcvByte(IoC, 1) * SK_LM80_VT_LSB; break; default: Val = (int)SkI2cRcvByte(IoC, 1); break; } SkI2cStop(IoC); return(Val); } #endif /* SK_DIAG */ /* * read a sensors value (LM80 specific) * * This function reads a sensors value from the I2C sensor chip LM80. * The sensor is defined by its index into the sensors database in the struct * pAC points to. * * Returns 1 if the read is completed * 0 if the read must be continued (I2C Bus still allocated) */ int SkLm80ReadSensor( SK_AC *pAC, /* Adapter Context */ SK_IOC IoC, /* I/O Context needed in level 1 and 2 */ SK_SENSOR *pSen) /* Sensor to be read */ { SK_I32 Value; switch (pSen->SenState) { case SK_SEN_IDLE: /* Send address to ADDR register */ SK_I2C_CTL(IoC, I2C_READ, pSen->SenDev, I2C_025K_DEV, pSen->SenReg, 0); pSen->SenState = SK_SEN_VALUE ; BREAK_OR_WAIT(pAC, IoC, I2C_READ); case SK_SEN_VALUE: /* Read value from data register */ SK_IN32(IoC, B2_I2C_DATA, ((SK_U32 *)&Value)); Value &= 0xff; /* only least significant byte is valid */ /* Do NOT check the Value against the thresholds */ /* Checking is done in the calling instance */ if (pSen->SenType == SK_SEN_VOLT) { /* Voltage sensor */ pSen->SenValue = Value * SK_LM80_VT_LSB; pSen->SenState = SK_SEN_IDLE ; return(1); } if (pSen->SenType == SK_SEN_FAN) { if (Value != 0 && Value != 0xff) { /* Fan speed counter */ pSen->SenValue = SK_LM80_FAN_FAKTOR/Value; } else { /* Indicate Fan error */ pSen->SenValue = 0; } pSen->SenState = SK_SEN_IDLE ; return(1); } /* First: correct the value: it might be negative */ if ((Value & 0x80) != 0) { /* Value is negative */ Value = Value - 256; } /* We have a temperature sensor and need to get the signed extension. * For now we get the extension from the last reading, so in the normal * case we won't see flickering temperatures. */ pSen->SenValue = (Value * SK_LM80_TEMP_LSB) + (pSen->SenValue % SK_LM80_TEMP_LSB); /* Send address to ADDR register */ SK_I2C_CTL(IoC, I2C_READ, pSen->SenDev, I2C_025K_DEV, LM80_TEMP_CTRL, 0); pSen->SenState = SK_SEN_VALEXT ; BREAK_OR_WAIT(pAC, IoC, I2C_READ); case SK_SEN_VALEXT: /* Read value from data register */ SK_IN32(IoC, B2_I2C_DATA, ((SK_U32 *)&Value)); Value &= LM80_TEMP_LSB_9; /* only bit 7 is valid */ /* cut the LSB bit */ pSen->SenValue = ((pSen->SenValue / SK_LM80_TEMP_LSB) * SK_LM80_TEMP_LSB); if (pSen->SenValue < 0) { /* Value negative: The bit value must be subtracted */ pSen->SenValue -= ((Value >> 7) * SK_LM80_TEMPEXT_LSB); } else { /* Value positive: The bit value must be added */ pSen->SenValue += ((Value >> 7) * SK_LM80_TEMPEXT_LSB); } pSen->SenState = SK_SEN_IDLE ; return(1); default: SK_ERR_LOG(pAC, SK_ERRCL_SW, SKERR_I2C_E007, SKERR_I2C_E007MSG); return(1); } /* Not completed */ return(0); }