freebsd-nq/sys/dev/mk48txx/mk48txx.c

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/*-
* Copyright (c) 2000 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by Paul Kranenburg.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
* TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
* $NetBSD: mk48txx.c,v 1.25 2008/04/28 20:23:50 martin Exp $
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
/*
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* Mostek MK48T02, MK48T08, MK48T18, MK48T37 and MK48T59 time-of-day chip
* subroutines
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/bus.h>
#include <sys/clock.h>
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
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#include <sys/eventhandler.h>
#include <sys/lock.h>
#include <sys/mutex.h>
#include <sys/rman.h>
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
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#include <sys/watchdog.h>
#include <machine/bus.h>
#include <dev/mk48txx/mk48txxreg.h>
#include <dev/mk48txx/mk48txxvar.h>
#include "clock_if.h"
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static uint8_t mk48txx_def_nvrd(device_t dev, int off);
static void mk48txx_def_nvwr(device_t dev, int off, uint8_t v);
static void mk48txx_watchdog(void *arg, u_int cmd, int *error);
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static const struct {
const char *name;
bus_size_t nvramsz;
bus_size_t clkoff;
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u_int flags;
#define MK48TXX_EXT_REGISTERS 1 /* Has extended register set. */
} mk48txx_models[] = {
{ "mk48t02", MK48T02_CLKSZ, MK48T02_CLKOFF, 0 },
{ "mk48t08", MK48T08_CLKSZ, MK48T08_CLKOFF, 0 },
{ "mk48t18", MK48T18_CLKSZ, MK48T18_CLKOFF, 0 },
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{ "mk48t37", MK48T37_CLKSZ, MK48T37_CLKOFF, MK48TXX_EXT_REGISTERS },
{ "mk48t59", MK48T59_CLKSZ, MK48T59_CLKOFF, MK48TXX_EXT_REGISTERS },
};
int
mk48txx_attach(device_t dev)
{
struct mk48txx_softc *sc;
int i;
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
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uint8_t wday;
sc = device_get_softc(dev);
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
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if (mtx_initialized(&sc->sc_mtx) == 0) {
device_printf(dev, "%s: mutex not initialized\n", __func__);
return (ENXIO);
}
device_printf(dev, "model %s", sc->sc_model);
i = sizeof(mk48txx_models) / sizeof(mk48txx_models[0]);
while (--i >= 0) {
if (strcmp(sc->sc_model, mk48txx_models[i].name) == 0) {
break;
}
}
if (i < 0) {
device_printf(dev, " (unsupported)\n");
return (ENXIO);
}
printf("\n");
sc->sc_nvramsz = mk48txx_models[i].nvramsz;
sc->sc_clkoffset = mk48txx_models[i].clkoff;
if (sc->sc_nvrd == NULL)
sc->sc_nvrd = mk48txx_def_nvrd;
if (sc->sc_nvwr == NULL)
sc->sc_nvwr = mk48txx_def_nvwr;
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
if (mk48txx_models[i].flags & MK48TXX_EXT_REGISTERS) {
mtx_lock(&sc->sc_mtx);
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if ((*sc->sc_nvrd)(dev, sc->sc_clkoffset + MK48TXX_FLAGS) &
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
MK48TXX_FLAGS_BL) {
mtx_unlock(&sc->sc_mtx);
device_printf(dev, "%s: battery low\n", __func__);
return (ENXIO);
}
mtx_unlock(&sc->sc_mtx);
}
if (sc->sc_flag & MK48TXX_NO_CENT_ADJUST) {
/*
* Use MK48TXX_WDAY_CB instead of manually adjusting the
* century.
*/
if (!(mk48txx_models[i].flags & MK48TXX_EXT_REGISTERS)) {
device_printf(dev, "%s: no century bit\n", __func__);
return (ENXIO);
} else {
mtx_lock(&sc->sc_mtx);
wday = (*sc->sc_nvrd)
(dev, sc->sc_clkoffset + MK48TXX_IWDAY);
wday |= MK48TXX_WDAY_CEB;
(*sc->sc_nvwr)
(dev, sc->sc_clkoffset + MK48TXX_IWDAY, wday);
mtx_unlock(&sc->sc_mtx);
}
- Some of the upper bits of the time related (seconds, minutes, etc.) registers are control bits or depending on the model contain additional time bits with a different meaning than the lower ones. In order to only read the desired time bits and not change the upper bits on write use appropriate masks in the gettime and settime function respectively. Due to the polarity of the stop oscillator bit and the fact that the century bits aren't used on sparc64 not masking them didn't cause problems so far. - Fix two off-by-one errors in the handling of the day of week. The genclock code represents the dow as 0 - 6 with 0 being Sunday but the mk48txx use 1 - 7 with 1 being Sunday. In the settime function when writing the dow to the clock the range wasn't adjusted accordingly but the clock apparently played along nicely otherwise the second bug in the gettime function which mapped 1 - 7 to 0 - 6 but with 0 meaning Saturday would have been triggered. Fixing these makes the date being stored in the same format Sun/Solaris uses and cures the "Invalid time in real time clock. Check and reset the date immediately!" when the date was set under Solaris prior to booting FreeBSD/sparc64. [1] Looking at other clock drivers/code e.g. FreeBSD/alpha the former "bug", i.e. storing the dow as 0 - 6 even when the clock uses 1 - 7, seems to be common but might be on purpose for compatibility when multi-booting with other OS which do the same. So it might make sense to add a flag to handle the dow off-by-one for use of this driver on platforms other than sparc64. - Check the state of the battery on mk48txx that support this in the attach function. - Add a note that use of the century bit should be implemented but isn't required at the moment because it isn't used on sparc64. Problem noted by: joerg [1] MT5 candidate.
2004-09-19 21:38:11 +00:00
}
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clock_register(dev, 1000000); /* 1 second resolution */
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
if ((sc->sc_flag & MK48TXX_WDOG_REGISTER) &&
(mk48txx_models[i].flags & MK48TXX_EXT_REGISTERS)) {
sc->sc_wet = EVENTHANDLER_REGISTER(watchdog_list,
mk48txx_watchdog, dev, 0);
device_printf(dev,
"watchdog registered, timeout interval max. 128 sec\n");
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
}
return (0);
}
/*
* Get time-of-day and convert to a `struct timespec'
* Return 0 on success; an error number otherwise.
*/
int
mk48txx_gettime(device_t dev, struct timespec *ts)
{
struct mk48txx_softc *sc;
bus_size_t clkoff;
struct clocktime ct;
int year;
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
uint8_t csr;
sc = device_get_softc(dev);
clkoff = sc->sc_clkoffset;
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
mtx_lock(&sc->sc_mtx);
/* enable read (stop time) */
csr = (*sc->sc_nvrd)(dev, clkoff + MK48TXX_ICSR);
csr |= MK48TXX_CSR_READ;
(*sc->sc_nvwr)(dev, clkoff + MK48TXX_ICSR, csr);
#define FROMREG(reg, mask) ((*sc->sc_nvrd)(dev, clkoff + (reg)) & (mask))
- Some of the upper bits of the time related (seconds, minutes, etc.) registers are control bits or depending on the model contain additional time bits with a different meaning than the lower ones. In order to only read the desired time bits and not change the upper bits on write use appropriate masks in the gettime and settime function respectively. Due to the polarity of the stop oscillator bit and the fact that the century bits aren't used on sparc64 not masking them didn't cause problems so far. - Fix two off-by-one errors in the handling of the day of week. The genclock code represents the dow as 0 - 6 with 0 being Sunday but the mk48txx use 1 - 7 with 1 being Sunday. In the settime function when writing the dow to the clock the range wasn't adjusted accordingly but the clock apparently played along nicely otherwise the second bug in the gettime function which mapped 1 - 7 to 0 - 6 but with 0 meaning Saturday would have been triggered. Fixing these makes the date being stored in the same format Sun/Solaris uses and cures the "Invalid time in real time clock. Check and reset the date immediately!" when the date was set under Solaris prior to booting FreeBSD/sparc64. [1] Looking at other clock drivers/code e.g. FreeBSD/alpha the former "bug", i.e. storing the dow as 0 - 6 even when the clock uses 1 - 7, seems to be common but might be on purpose for compatibility when multi-booting with other OS which do the same. So it might make sense to add a flag to handle the dow off-by-one for use of this driver on platforms other than sparc64. - Check the state of the battery on mk48txx that support this in the attach function. - Add a note that use of the century bit should be implemented but isn't required at the moment because it isn't used on sparc64. Problem noted by: joerg [1] MT5 candidate.
2004-09-19 21:38:11 +00:00
ct.nsec = 0;
- Some of the upper bits of the time related (seconds, minutes, etc.) registers are control bits or depending on the model contain additional time bits with a different meaning than the lower ones. In order to only read the desired time bits and not change the upper bits on write use appropriate masks in the gettime and settime function respectively. Due to the polarity of the stop oscillator bit and the fact that the century bits aren't used on sparc64 not masking them didn't cause problems so far. - Fix two off-by-one errors in the handling of the day of week. The genclock code represents the dow as 0 - 6 with 0 being Sunday but the mk48txx use 1 - 7 with 1 being Sunday. In the settime function when writing the dow to the clock the range wasn't adjusted accordingly but the clock apparently played along nicely otherwise the second bug in the gettime function which mapped 1 - 7 to 0 - 6 but with 0 meaning Saturday would have been triggered. Fixing these makes the date being stored in the same format Sun/Solaris uses and cures the "Invalid time in real time clock. Check and reset the date immediately!" when the date was set under Solaris prior to booting FreeBSD/sparc64. [1] Looking at other clock drivers/code e.g. FreeBSD/alpha the former "bug", i.e. storing the dow as 0 - 6 even when the clock uses 1 - 7, seems to be common but might be on purpose for compatibility when multi-booting with other OS which do the same. So it might make sense to add a flag to handle the dow off-by-one for use of this driver on platforms other than sparc64. - Check the state of the battery on mk48txx that support this in the attach function. - Add a note that use of the century bit should be implemented but isn't required at the moment because it isn't used on sparc64. Problem noted by: joerg [1] MT5 candidate.
2004-09-19 21:38:11 +00:00
ct.sec = FROMBCD(FROMREG(MK48TXX_ISEC, MK48TXX_SEC_MASK));
ct.min = FROMBCD(FROMREG(MK48TXX_IMIN, MK48TXX_MIN_MASK));
ct.hour = FROMBCD(FROMREG(MK48TXX_IHOUR, MK48TXX_HOUR_MASK));
ct.day = FROMBCD(FROMREG(MK48TXX_IDAY, MK48TXX_DAY_MASK));
#if 0
- Some of the upper bits of the time related (seconds, minutes, etc.) registers are control bits or depending on the model contain additional time bits with a different meaning than the lower ones. In order to only read the desired time bits and not change the upper bits on write use appropriate masks in the gettime and settime function respectively. Due to the polarity of the stop oscillator bit and the fact that the century bits aren't used on sparc64 not masking them didn't cause problems so far. - Fix two off-by-one errors in the handling of the day of week. The genclock code represents the dow as 0 - 6 with 0 being Sunday but the mk48txx use 1 - 7 with 1 being Sunday. In the settime function when writing the dow to the clock the range wasn't adjusted accordingly but the clock apparently played along nicely otherwise the second bug in the gettime function which mapped 1 - 7 to 0 - 6 but with 0 meaning Saturday would have been triggered. Fixing these makes the date being stored in the same format Sun/Solaris uses and cures the "Invalid time in real time clock. Check and reset the date immediately!" when the date was set under Solaris prior to booting FreeBSD/sparc64. [1] Looking at other clock drivers/code e.g. FreeBSD/alpha the former "bug", i.e. storing the dow as 0 - 6 even when the clock uses 1 - 7, seems to be common but might be on purpose for compatibility when multi-booting with other OS which do the same. So it might make sense to add a flag to handle the dow off-by-one for use of this driver on platforms other than sparc64. - Check the state of the battery on mk48txx that support this in the attach function. - Add a note that use of the century bit should be implemented but isn't required at the moment because it isn't used on sparc64. Problem noted by: joerg [1] MT5 candidate.
2004-09-19 21:38:11 +00:00
/* Map dow from 1 - 7 to 0 - 6; FROMBCD() isn't necessary here. */
ct.dow = FROMREG(MK48TXX_IWDAY, MK48TXX_WDAY_MASK) - 1;
#else
/*
* Set dow = -1 because some drivers (for example the NetBSD and
* OpenBSD mk48txx(4)) don't set it correctly.
*/
ct.dow = -1;
#endif
- Some of the upper bits of the time related (seconds, minutes, etc.) registers are control bits or depending on the model contain additional time bits with a different meaning than the lower ones. In order to only read the desired time bits and not change the upper bits on write use appropriate masks in the gettime and settime function respectively. Due to the polarity of the stop oscillator bit and the fact that the century bits aren't used on sparc64 not masking them didn't cause problems so far. - Fix two off-by-one errors in the handling of the day of week. The genclock code represents the dow as 0 - 6 with 0 being Sunday but the mk48txx use 1 - 7 with 1 being Sunday. In the settime function when writing the dow to the clock the range wasn't adjusted accordingly but the clock apparently played along nicely otherwise the second bug in the gettime function which mapped 1 - 7 to 0 - 6 but with 0 meaning Saturday would have been triggered. Fixing these makes the date being stored in the same format Sun/Solaris uses and cures the "Invalid time in real time clock. Check and reset the date immediately!" when the date was set under Solaris prior to booting FreeBSD/sparc64. [1] Looking at other clock drivers/code e.g. FreeBSD/alpha the former "bug", i.e. storing the dow as 0 - 6 even when the clock uses 1 - 7, seems to be common but might be on purpose for compatibility when multi-booting with other OS which do the same. So it might make sense to add a flag to handle the dow off-by-one for use of this driver on platforms other than sparc64. - Check the state of the battery on mk48txx that support this in the attach function. - Add a note that use of the century bit should be implemented but isn't required at the moment because it isn't used on sparc64. Problem noted by: joerg [1] MT5 candidate.
2004-09-19 21:38:11 +00:00
ct.mon = FROMBCD(FROMREG(MK48TXX_IMON, MK48TXX_MON_MASK));
year = FROMBCD(FROMREG(MK48TXX_IYEAR, MK48TXX_YEAR_MASK));
year += sc->sc_year0;
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
if (sc->sc_flag & MK48TXX_NO_CENT_ADJUST)
year += (FROMREG(MK48TXX_IWDAY, MK48TXX_WDAY_CB) >>
MK48TXX_WDAY_CB_SHIFT) * 100;
else if (year < POSIX_BASE_YEAR)
year += 100;
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
#undef FROMREG
ct.year = year;
/* time wears on */
csr = (*sc->sc_nvrd)(dev, clkoff + MK48TXX_ICSR);
csr &= ~MK48TXX_CSR_READ;
(*sc->sc_nvwr)(dev, clkoff + MK48TXX_ICSR, csr);
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
mtx_unlock(&sc->sc_mtx);
return (clock_ct_to_ts(&ct, ts));
}
/*
* Set the time-of-day clock based on the value of the `struct timespec' arg.
* Return 0 on success; an error number otherwise.
*/
int
mk48txx_settime(device_t dev, struct timespec *ts)
{
struct mk48txx_softc *sc;
bus_size_t clkoff;
struct clocktime ct;
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
uint8_t csr;
int cent, year;
sc = device_get_softc(dev);
clkoff = sc->sc_clkoffset;
/* Accuracy is only one second. */
if (ts->tv_nsec >= 500000000)
ts->tv_sec++;
ts->tv_nsec = 0;
clock_ts_to_ct(ts, &ct);
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
mtx_lock(&sc->sc_mtx);
/* enable write */
csr = (*sc->sc_nvrd)(dev, clkoff + MK48TXX_ICSR);
csr |= MK48TXX_CSR_WRITE;
(*sc->sc_nvwr)(dev, clkoff + MK48TXX_ICSR, csr);
- Some of the upper bits of the time related (seconds, minutes, etc.) registers are control bits or depending on the model contain additional time bits with a different meaning than the lower ones. In order to only read the desired time bits and not change the upper bits on write use appropriate masks in the gettime and settime function respectively. Due to the polarity of the stop oscillator bit and the fact that the century bits aren't used on sparc64 not masking them didn't cause problems so far. - Fix two off-by-one errors in the handling of the day of week. The genclock code represents the dow as 0 - 6 with 0 being Sunday but the mk48txx use 1 - 7 with 1 being Sunday. In the settime function when writing the dow to the clock the range wasn't adjusted accordingly but the clock apparently played along nicely otherwise the second bug in the gettime function which mapped 1 - 7 to 0 - 6 but with 0 meaning Saturday would have been triggered. Fixing these makes the date being stored in the same format Sun/Solaris uses and cures the "Invalid time in real time clock. Check and reset the date immediately!" when the date was set under Solaris prior to booting FreeBSD/sparc64. [1] Looking at other clock drivers/code e.g. FreeBSD/alpha the former "bug", i.e. storing the dow as 0 - 6 even when the clock uses 1 - 7, seems to be common but might be on purpose for compatibility when multi-booting with other OS which do the same. So it might make sense to add a flag to handle the dow off-by-one for use of this driver on platforms other than sparc64. - Check the state of the battery on mk48txx that support this in the attach function. - Add a note that use of the century bit should be implemented but isn't required at the moment because it isn't used on sparc64. Problem noted by: joerg [1] MT5 candidate.
2004-09-19 21:38:11 +00:00
#define TOREG(reg, mask, val) \
((*sc->sc_nvwr)(dev, clkoff + (reg), \
((*sc->sc_nvrd)(dev, clkoff + (reg)) & ~(mask)) | \
- Some of the upper bits of the time related (seconds, minutes, etc.) registers are control bits or depending on the model contain additional time bits with a different meaning than the lower ones. In order to only read the desired time bits and not change the upper bits on write use appropriate masks in the gettime and settime function respectively. Due to the polarity of the stop oscillator bit and the fact that the century bits aren't used on sparc64 not masking them didn't cause problems so far. - Fix two off-by-one errors in the handling of the day of week. The genclock code represents the dow as 0 - 6 with 0 being Sunday but the mk48txx use 1 - 7 with 1 being Sunday. In the settime function when writing the dow to the clock the range wasn't adjusted accordingly but the clock apparently played along nicely otherwise the second bug in the gettime function which mapped 1 - 7 to 0 - 6 but with 0 meaning Saturday would have been triggered. Fixing these makes the date being stored in the same format Sun/Solaris uses and cures the "Invalid time in real time clock. Check and reset the date immediately!" when the date was set under Solaris prior to booting FreeBSD/sparc64. [1] Looking at other clock drivers/code e.g. FreeBSD/alpha the former "bug", i.e. storing the dow as 0 - 6 even when the clock uses 1 - 7, seems to be common but might be on purpose for compatibility when multi-booting with other OS which do the same. So it might make sense to add a flag to handle the dow off-by-one for use of this driver on platforms other than sparc64. - Check the state of the battery on mk48txx that support this in the attach function. - Add a note that use of the century bit should be implemented but isn't required at the moment because it isn't used on sparc64. Problem noted by: joerg [1] MT5 candidate.
2004-09-19 21:38:11 +00:00
((val) & (mask))))
TOREG(MK48TXX_ISEC, MK48TXX_SEC_MASK, TOBCD(ct.sec));
TOREG(MK48TXX_IMIN, MK48TXX_MIN_MASK, TOBCD(ct.min));
TOREG(MK48TXX_IHOUR, MK48TXX_HOUR_MASK, TOBCD(ct.hour));
/* Map dow from 0 - 6 to 1 - 7; TOBCD() isn't necessary here. */
TOREG(MK48TXX_IWDAY, MK48TXX_WDAY_MASK, ct.dow + 1);
TOREG(MK48TXX_IDAY, MK48TXX_DAY_MASK, TOBCD(ct.day));
TOREG(MK48TXX_IMON, MK48TXX_MON_MASK, TOBCD(ct.mon));
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
year = ct.year - sc->sc_year0;
if (sc->sc_flag & MK48TXX_NO_CENT_ADJUST) {
cent = year / 100;
TOREG(MK48TXX_IWDAY, MK48TXX_WDAY_CB,
cent << MK48TXX_WDAY_CB_SHIFT);
year -= cent * 100;
} else if (year > 99)
year -= 100;
TOREG(MK48TXX_IYEAR, MK48TXX_YEAR_MASK, TOBCD(year));
- Some of the upper bits of the time related (seconds, minutes, etc.) registers are control bits or depending on the model contain additional time bits with a different meaning than the lower ones. In order to only read the desired time bits and not change the upper bits on write use appropriate masks in the gettime and settime function respectively. Due to the polarity of the stop oscillator bit and the fact that the century bits aren't used on sparc64 not masking them didn't cause problems so far. - Fix two off-by-one errors in the handling of the day of week. The genclock code represents the dow as 0 - 6 with 0 being Sunday but the mk48txx use 1 - 7 with 1 being Sunday. In the settime function when writing the dow to the clock the range wasn't adjusted accordingly but the clock apparently played along nicely otherwise the second bug in the gettime function which mapped 1 - 7 to 0 - 6 but with 0 meaning Saturday would have been triggered. Fixing these makes the date being stored in the same format Sun/Solaris uses and cures the "Invalid time in real time clock. Check and reset the date immediately!" when the date was set under Solaris prior to booting FreeBSD/sparc64. [1] Looking at other clock drivers/code e.g. FreeBSD/alpha the former "bug", i.e. storing the dow as 0 - 6 even when the clock uses 1 - 7, seems to be common but might be on purpose for compatibility when multi-booting with other OS which do the same. So it might make sense to add a flag to handle the dow off-by-one for use of this driver on platforms other than sparc64. - Check the state of the battery on mk48txx that support this in the attach function. - Add a note that use of the century bit should be implemented but isn't required at the moment because it isn't used on sparc64. Problem noted by: joerg [1] MT5 candidate.
2004-09-19 21:38:11 +00:00
#undef TOREG
/* load them up */
csr = (*sc->sc_nvrd)(dev, clkoff + MK48TXX_ICSR);
csr &= ~MK48TXX_CSR_WRITE;
(*sc->sc_nvwr)(dev, clkoff + MK48TXX_ICSR, csr);
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
mtx_unlock(&sc->sc_mtx);
return (0);
}
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
static uint8_t
mk48txx_def_nvrd(device_t dev, int off)
{
struct mk48txx_softc *sc;
sc = device_get_softc(dev);
return (bus_read_1(sc->sc_res, off));
}
static void
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
mk48txx_def_nvwr(device_t dev, int off, uint8_t v)
{
struct mk48txx_softc *sc;
sc = device_get_softc(dev);
bus_write_1(sc->sc_res, off, v);
}
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
static void
mk48txx_watchdog(void *arg, u_int cmd, int *error)
{
device_t dev;
struct mk48txx_softc *sc;
uint8_t t, wdog;
dev = arg;
sc = device_get_softc(dev);
t = cmd & WD_INTERVAL;
if (t >= 26 && t <= 37) {
wdog = 0;
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
if (t <= WD_TO_2SEC) {
wdog |= MK48TXX_WDOG_RB_1_16;
t -= 26;
} else if (t <= WD_TO_8SEC) {
wdog |= MK48TXX_WDOG_RB_1_4;
t -= WD_TO_250MS;
} else if (t <= WD_TO_32SEC) {
wdog |= MK48TXX_WDOG_RB_1;
t -= WD_TO_1SEC;
} else {
wdog |= MK48TXX_WDOG_RB_4;
t -= WD_TO_4SEC;
}
wdog |= (min(1 << t,
MK48TXX_WDOG_BMB_MASK >> MK48TXX_WDOG_BMB_SHIFT)) <<
MK48TXX_WDOG_BMB_SHIFT;
if (sc->sc_flag & MK48TXX_WDOG_ENABLE_WDS)
wdog |= MK48TXX_WDOG_WDS;
*error = 0;
} else {
wdog = 0;
- Add locking. - Add support for storing the century in MK48TXX_WDAY_CB on MK48Txx with extended registers when the MK48TXX_NO_CENT_ADJUST flag is set (and which is termed somewhat confusing as it actually means don't manually adjust the century in the driver). - Add the MI part of interfacing the watchdog functionality of MK48Txx with extended registers with watchdog(9). This is inspired by the SunOS/Solaris drivers for the 'eeprom' devices also having watchdog support. I actually expected this to work out of the box on Sun Exx00 machines with 'eeprom' devices which have a 'watchdog-enable' property. On terminal count of the the watchdog timer however only the MK48TXX_FLAGS_WDF bit rises but the reset signal and the interrupt respectively (depending on whether the MK48TXX_WDOG_WDS bit of the chip and the MK48TXX_WDOG_ENABLE_WDS flag of the driver respectively is set) goes nowhere. Apparently passing the reset signal on to the WDR line of the CPUs has to be enabled somewhere else but we don't have documentation for the Exx00 specific controllers. I decided to commit this nevertheless so it can be enabled in the eeprom(4) front-end later in e.g. 6.0-STABLE without breaking the API. Besides the Exx00 the watchdog part of the MK48Txx should also work on E250 and E450. Possibly also without extra fiddling on these machines but I haven't found someone willing to give it a try on such a machine so far. - Use uintXX_t instead of u_intXX_t, use __func__ instead of hardcoded function names in error strings.
2005-05-19 21:16:50 +00:00
}
mtx_lock(&sc->sc_mtx);
(*sc->sc_nvwr)(dev, sc->sc_clkoffset + MK48TXX_WDOG, wdog);
mtx_unlock(&sc->sc_mtx);
}