/*- * Copyright (c) 2004 Texas A&M University * All rights reserved. * * Developer: Wm. Daryl Hawkins * * 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 AUTHOR 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 AUTHOR 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. */ /* * Intel ICH Watchdog Timer (WDT) driver * * Originally developed by Wm. Daryl Hawkins of Texas A&M * Heavily modified by * * This is a tricky one. The ICH WDT can't be treated as a regular PCI * device as it's actually an integrated function of the ICH LPC interface * bridge. Detection is also awkward, because we can only infer the * presence of the watchdog timer from the fact that the machine has an * ICH chipset, or, on ACPI 2.x systems, by the presence of the 'WDDT' * ACPI table (although this driver does not support the ACPI detection * method). * * There is one slight problem on non-ACPI or ACPI 1.x systems: we have no * way of knowing if the WDT is permanently disabled (either by the BIOS * or in hardware). * * The WDT is programmed through I/O registers in the ACPI I/O space. * Intel swears it's always at offset 0x60, so we use that. * * For details about the ICH WDT, see Intel Application Note AP-725 * (document no. 292273-001). The WDT is also described in the individual * chipset datasheets, e.g. Intel82801EB ICH5 / 82801ER ICH5R Datasheet * (document no. 252516-001) sections 9.10 and 9.11. * * ICH6/7/8 support by Takeharu KATO */ #include __FBSDID("$FreeBSD$"); #include #include #include #include #include #include #include #include #include #include #include #include static struct ichwd_device ichwd_devices[] = { { DEVICEID_82801AA, "Intel 82801AA watchdog timer", 1 }, { DEVICEID_82801AB, "Intel 82801AB watchdog timer", 1 }, { DEVICEID_82801BA, "Intel 82801BA watchdog timer", 2 }, { DEVICEID_82801BAM, "Intel 82801BAM watchdog timer", 2 }, { DEVICEID_82801CA, "Intel 82801CA watchdog timer", 3 }, { DEVICEID_82801CAM, "Intel 82801CAM watchdog timer", 3 }, { DEVICEID_82801DB, "Intel 82801DB watchdog timer", 4 }, { DEVICEID_82801DBM, "Intel 82801DBM watchdog timer", 4 }, { DEVICEID_82801E, "Intel 82801E watchdog timer", 5 }, { DEVICEID_82801EB, "Intel 82801EB watchdog timer", 5 }, { DEVICEID_82801EBR, "Intel 82801EB/ER watchdog timer", 5 }, { DEVICEID_6300ESB, "Intel 6300ESB watchdog timer", 5 }, { DEVICEID_82801FBR, "Intel 82801FB/FR watchdog timer", 6 }, { DEVICEID_ICH6M, "Intel ICH6M watchdog timer", 6 }, { DEVICEID_ICH6W, "Intel ICH6W watchdog timer", 6 }, { DEVICEID_ICH7, "Intel ICH7 watchdog timer", 7 }, { DEVICEID_ICH7DH, "Intel ICH7DH watchdog timer", 7 }, { DEVICEID_ICH7M, "Intel ICH7M watchdog timer", 7 }, { DEVICEID_ICH7MDH, "Intel ICH7MDH watchdog timer", 7 }, { DEVICEID_NM10, "Intel NM10 watchdog timer", 7 }, { DEVICEID_ICH8, "Intel ICH8 watchdog timer", 8 }, { DEVICEID_ICH8DH, "Intel ICH8DH watchdog timer", 8 }, { DEVICEID_ICH8DO, "Intel ICH8DO watchdog timer", 8 }, { DEVICEID_ICH8M, "Intel ICH8M watchdog timer", 8 }, { DEVICEID_ICH8ME, "Intel ICH8M-E watchdog timer", 8 }, { DEVICEID_63XXESB, "Intel 63XXESB watchdog timer", 8 }, { DEVICEID_ICH9, "Intel ICH9 watchdog timer", 9 }, { DEVICEID_ICH9DH, "Intel ICH9DH watchdog timer", 9 }, { DEVICEID_ICH9DO, "Intel ICH9DO watchdog timer", 9 }, { DEVICEID_ICH9M, "Intel ICH9M watchdog timer", 9 }, { DEVICEID_ICH9ME, "Intel ICH9M-E watchdog timer", 9 }, { DEVICEID_ICH9R, "Intel ICH9R watchdog timer", 9 }, { DEVICEID_ICH10, "Intel ICH10 watchdog timer", 10 }, { DEVICEID_ICH10D, "Intel ICH10D watchdog timer", 10 }, { DEVICEID_ICH10DO, "Intel ICH10DO watchdog timer", 10 }, { DEVICEID_ICH10R, "Intel ICH10R watchdog timer", 10 }, { DEVICEID_PCH, "Intel PCH watchdog timer", 10 }, { DEVICEID_PCHM, "Intel PCH watchdog timer", 10 }, { DEVICEID_P55, "Intel P55 watchdog timer", 10 }, { DEVICEID_PM55, "Intel PM55 watchdog timer", 10 }, { DEVICEID_H55, "Intel H55 watchdog timer", 10 }, { DEVICEID_QM57, "Intel QM57 watchdog timer", 10 }, { DEVICEID_H57, "Intel H57 watchdog timer", 10 }, { DEVICEID_HM55, "Intel HM55 watchdog timer", 10 }, { DEVICEID_Q57, "Intel Q57 watchdog timer", 10 }, { DEVICEID_HM57, "Intel HM57 watchdog timer", 10 }, { DEVICEID_PCHMSFF, "Intel PCHMSFF watchdog timer", 10 }, { DEVICEID_QS57, "Intel QS57 watchdog timer", 10 }, { DEVICEID_3400, "Intel 3400 watchdog timer", 10 }, { DEVICEID_3420, "Intel 3420 watchdog timer", 10 }, { DEVICEID_3450, "Intel 3450 watchdog timer", 10 }, { DEVICEID_CPT0, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT1, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT2, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT3, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT4, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT5, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT6, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT7, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT8, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT9, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT10, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT11, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT12, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT13, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT14, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT15, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT16, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT17, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT18, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT19, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT20, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT21, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT22, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT23, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT23, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT25, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT26, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT27, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT28, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT29, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT30, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_CPT31, "Intel Cougar Point watchdog timer", 10 }, { DEVICEID_PATSBURG_LPC1, "Intel Patsburg watchdog timer", 10 }, { DEVICEID_PATSBURG_LPC2, "Intel Patsburg watchdog timer", 10 }, { DEVICEID_PPT0, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT1, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT2, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT3, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT4, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT5, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT6, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT7, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT8, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT9, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT10, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT11, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT12, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT13, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT14, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT15, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT16, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT17, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT18, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT19, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT20, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT21, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT22, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT23, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT24, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT25, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT26, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT27, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT28, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT29, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT30, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_PPT31, "Intel Panther Point watchdog timer", 10 }, { DEVICEID_DH89XXCC_LPC, "Intel DH89xxCC watchdog timer", 10 }, { 0, NULL, 0 }, }; static devclass_t ichwd_devclass; #define ichwd_read_tco_1(sc, off) \ bus_read_1((sc)->tco_res, (off)) #define ichwd_read_tco_2(sc, off) \ bus_read_2((sc)->tco_res, (off)) #define ichwd_read_tco_4(sc, off) \ bus_read_4((sc)->tco_res, (off)) #define ichwd_read_smi_4(sc, off) \ bus_read_4((sc)->smi_res, (off)) #define ichwd_read_gcs_4(sc, off) \ bus_read_4((sc)->gcs_res, (off)) #define ichwd_write_tco_1(sc, off, val) \ bus_write_1((sc)->tco_res, (off), (val)) #define ichwd_write_tco_2(sc, off, val) \ bus_write_2((sc)->tco_res, (off), (val)) #define ichwd_write_tco_4(sc, off, val) \ bus_write_4((sc)->tco_res, (off), (val)) #define ichwd_write_smi_4(sc, off, val) \ bus_write_4((sc)->smi_res, (off), (val)) #define ichwd_write_gcs_4(sc, off, val) \ bus_write_4((sc)->gcs_res, (off), (val)) #define ichwd_verbose_printf(dev, ...) \ do { \ if (bootverbose) \ device_printf(dev, __VA_ARGS__);\ } while (0) /* * Disable the watchdog timeout SMI handler. * * Apparently, some BIOSes install handlers that reset or disable the * watchdog timer instead of resetting the system, so we disable the SMI * (by clearing the SMI_TCO_EN bit of the SMI_EN register) to prevent this * from happening. */ static __inline void ichwd_smi_disable(struct ichwd_softc *sc) { ichwd_write_smi_4(sc, SMI_EN, ichwd_read_smi_4(sc, SMI_EN) & ~SMI_TCO_EN); } /* * Enable the watchdog timeout SMI handler. See above for details. */ static __inline void ichwd_smi_enable(struct ichwd_softc *sc) { ichwd_write_smi_4(sc, SMI_EN, ichwd_read_smi_4(sc, SMI_EN) | SMI_TCO_EN); } /* * Check if the watchdog SMI triggering is enabled. */ static __inline int ichwd_smi_is_enabled(struct ichwd_softc *sc) { return ((ichwd_read_smi_4(sc, SMI_EN) & SMI_TCO_EN) != 0); } /* * Reset the watchdog status bits. */ static __inline void ichwd_sts_reset(struct ichwd_softc *sc) { /* * The watchdog status bits are set to 1 by the hardware to * indicate various conditions. They can be cleared by software * by writing a 1, not a 0. */ ichwd_write_tco_2(sc, TCO1_STS, TCO_TIMEOUT); /* * According to Intel's docs, clearing SECOND_TO_STS and BOOT_STS must * be done in two separate operations. */ ichwd_write_tco_2(sc, TCO2_STS, TCO_SECOND_TO_STS); ichwd_write_tco_2(sc, TCO2_STS, TCO_BOOT_STS); } /* * Enable the watchdog timer by clearing the TCO_TMR_HALT bit in the * TCO1_CNT register. This is complicated by the need to preserve bit 9 * of that same register, and the requirement that all other bits must be * written back as zero. */ static __inline void ichwd_tmr_enable(struct ichwd_softc *sc) { uint16_t cnt; cnt = ichwd_read_tco_2(sc, TCO1_CNT) & TCO_CNT_PRESERVE; ichwd_write_tco_2(sc, TCO1_CNT, cnt & ~TCO_TMR_HALT); sc->active = 1; ichwd_verbose_printf(sc->device, "timer enabled\n"); } /* * Disable the watchdog timer. See above for details. */ static __inline void ichwd_tmr_disable(struct ichwd_softc *sc) { uint16_t cnt; cnt = ichwd_read_tco_2(sc, TCO1_CNT) & TCO_CNT_PRESERVE; ichwd_write_tco_2(sc, TCO1_CNT, cnt | TCO_TMR_HALT); sc->active = 0; ichwd_verbose_printf(sc->device, "timer disabled\n"); } /* * Reload the watchdog timer: writing anything to any of the lower five * bits of the TCO_RLD register reloads the timer from the last value * written to TCO_TMR. */ static __inline void ichwd_tmr_reload(struct ichwd_softc *sc) { if (sc->ich_version <= 5) ichwd_write_tco_1(sc, TCO_RLD, 1); else ichwd_write_tco_2(sc, TCO_RLD, 1); ichwd_verbose_printf(sc->device, "timer reloaded\n"); } /* * Set the initial timeout value. Note that this must always be followed * by a reload. */ static __inline void ichwd_tmr_set(struct ichwd_softc *sc, unsigned int timeout) { if (timeout < TCO_RLD_TMR_MIN) timeout = TCO_RLD_TMR_MIN; if (sc->ich_version <= 5) { uint8_t tmr_val8 = ichwd_read_tco_1(sc, TCO_TMR1); tmr_val8 &= (~TCO_RLD1_TMR_MAX & 0xff); if (timeout > TCO_RLD1_TMR_MAX) timeout = TCO_RLD1_TMR_MAX; tmr_val8 |= timeout; ichwd_write_tco_1(sc, TCO_TMR1, tmr_val8); } else { uint16_t tmr_val16 = ichwd_read_tco_2(sc, TCO_TMR2); tmr_val16 &= (~TCO_RLD2_TMR_MAX & 0xffff); if (timeout > TCO_RLD2_TMR_MAX) timeout = TCO_RLD2_TMR_MAX; tmr_val16 |= timeout; ichwd_write_tco_2(sc, TCO_TMR2, tmr_val16); } sc->timeout = timeout; ichwd_verbose_printf(sc->device, "timeout set to %u ticks\n", timeout); } static __inline int ichwd_clear_noreboot(struct ichwd_softc *sc) { uint32_t status; int rc = 0; /* try to clear the NO_REBOOT bit */ if (sc->ich_version <= 5) { status = pci_read_config(sc->ich, ICH_GEN_STA, 1); status &= ~ICH_GEN_STA_NO_REBOOT; pci_write_config(sc->ich, ICH_GEN_STA, status, 1); status = pci_read_config(sc->ich, ICH_GEN_STA, 1); if (status & ICH_GEN_STA_NO_REBOOT) rc = EIO; } else { status = ichwd_read_gcs_4(sc, 0); status &= ~ICH_GCS_NO_REBOOT; ichwd_write_gcs_4(sc, 0, status); status = ichwd_read_gcs_4(sc, 0); if (status & ICH_GCS_NO_REBOOT) rc = EIO; } if (rc) device_printf(sc->device, "ICH WDT present but disabled in BIOS or hardware\n"); return (rc); } /* * Watchdog event handler - called by the framework to enable or disable * the watchdog or change the initial timeout value. */ static void ichwd_event(void *arg, unsigned int cmd, int *error) { struct ichwd_softc *sc = arg; unsigned int timeout; /* convert from power-of-two-ns to WDT ticks */ cmd &= WD_INTERVAL; timeout = ((uint64_t)1 << cmd) / ICHWD_TICK; if (cmd) { if (!sc->active) ichwd_tmr_enable(sc); if (timeout != sc->timeout) ichwd_tmr_set(sc, timeout); ichwd_tmr_reload(sc); *error = 0; } else { if (sc->active) ichwd_tmr_disable(sc); } } static device_t ichwd_find_ich_lpc_bridge(struct ichwd_device **id_p) { struct ichwd_device *id; device_t ich = NULL; /* look for an ICH LPC interface bridge */ for (id = ichwd_devices; id->desc != NULL; ++id) if ((ich = pci_find_device(VENDORID_INTEL, id->device)) != NULL) break; if (ich == NULL) return (NULL); ichwd_verbose_printf(ich, "found ICH%d or equivalent chipset: %s\n", id->version, id->desc); if (id_p) *id_p = id; return (ich); } /* * Look for an ICH LPC interface bridge. If one is found, register an * ichwd device. There can be only one. */ static void ichwd_identify(driver_t *driver, device_t parent) { struct ichwd_device *id_p; device_t ich = NULL; device_t dev; uint32_t rcba; int rc; ich = ichwd_find_ich_lpc_bridge(&id_p); if (ich == NULL) return; /* good, add child to bus */ if ((dev = device_find_child(parent, driver->name, 0)) == NULL) dev = BUS_ADD_CHILD(parent, 0, driver->name, 0); if (dev == NULL) return; device_set_desc_copy(dev, id_p->desc); if (id_p->version >= 6) { /* get RCBA (root complex base address) */ rcba = pci_read_config(ich, ICH_RCBA, 4); rc = bus_set_resource(ich, SYS_RES_MEMORY, 0, (rcba & 0xffffc000) + ICH_GCS_OFFSET, ICH_GCS_SIZE); if (rc) ichwd_verbose_printf(dev, "Can not set memory resource for RCBA\n"); } } static int ichwd_probe(device_t dev) { /* Do not claim some ISA PnP device by accident. */ if (isa_get_logicalid(dev) != 0) return (ENXIO); return (0); } static int ichwd_attach(device_t dev) { struct ichwd_softc *sc; struct ichwd_device *id_p; device_t ich; unsigned int pmbase = 0; sc = device_get_softc(dev); sc->device = dev; ich = ichwd_find_ich_lpc_bridge(&id_p); if (ich == NULL) { device_printf(sc->device, "Can not find ICH device.\n"); goto fail; } sc->ich = ich; sc->ich_version = id_p->version; /* get ACPI base address */ pmbase = pci_read_config(ich, ICH_PMBASE, 2) & ICH_PMBASE_MASK; if (pmbase == 0) { device_printf(dev, "ICH PMBASE register is empty\n"); goto fail; } /* allocate I/O register space */ sc->smi_rid = 0; sc->smi_res = bus_alloc_resource(dev, SYS_RES_IOPORT, &sc->smi_rid, pmbase + SMI_BASE, pmbase + SMI_BASE + SMI_LEN - 1, SMI_LEN, RF_ACTIVE | RF_SHAREABLE); if (sc->smi_res == NULL) { device_printf(dev, "unable to reserve SMI registers\n"); goto fail; } sc->tco_rid = 1; sc->tco_res = bus_alloc_resource(dev, SYS_RES_IOPORT, &sc->tco_rid, pmbase + TCO_BASE, pmbase + TCO_BASE + TCO_LEN - 1, TCO_LEN, RF_ACTIVE | RF_SHAREABLE); if (sc->tco_res == NULL) { device_printf(dev, "unable to reserve TCO registers\n"); goto fail; } sc->gcs_rid = 0; if (sc->ich_version >= 6) { sc->gcs_res = bus_alloc_resource_any(ich, SYS_RES_MEMORY, &sc->gcs_rid, RF_ACTIVE|RF_SHAREABLE); if (sc->gcs_res == NULL) { device_printf(dev, "unable to reserve GCS registers\n"); goto fail; } } if (ichwd_clear_noreboot(sc) != 0) goto fail; ichwd_verbose_printf(dev, "%s (ICH%d or equivalent)\n", device_get_desc(dev), sc->ich_version); /* * Determine if we are coming up after a watchdog-induced reset. Some * BIOSes may clear this bit at bootup, preventing us from reporting * this case on such systems. We clear this bit in ichwd_sts_reset(). */ if ((ichwd_read_tco_2(sc, TCO2_STS) & TCO_SECOND_TO_STS) != 0) device_printf(dev, "resuming after hardware watchdog timeout\n"); /* reset the watchdog status registers */ ichwd_sts_reset(sc); /* make sure the WDT starts out inactive */ ichwd_tmr_disable(sc); /* register the watchdog event handler */ sc->ev_tag = EVENTHANDLER_REGISTER(watchdog_list, ichwd_event, sc, 0); /* disable the SMI handler */ sc->smi_enabled = ichwd_smi_is_enabled(sc); ichwd_smi_disable(sc); return (0); fail: sc = device_get_softc(dev); if (sc->tco_res != NULL) bus_release_resource(dev, SYS_RES_IOPORT, sc->tco_rid, sc->tco_res); if (sc->smi_res != NULL) bus_release_resource(dev, SYS_RES_IOPORT, sc->smi_rid, sc->smi_res); if (sc->gcs_res != NULL) bus_release_resource(ich, SYS_RES_MEMORY, sc->gcs_rid, sc->gcs_res); return (ENXIO); } static int ichwd_detach(device_t dev) { struct ichwd_softc *sc; device_t ich = NULL; sc = device_get_softc(dev); /* halt the watchdog timer */ if (sc->active) ichwd_tmr_disable(sc); /* enable the SMI handler */ if (sc->smi_enabled != 0) ichwd_smi_enable(sc); /* deregister event handler */ if (sc->ev_tag != NULL) EVENTHANDLER_DEREGISTER(watchdog_list, sc->ev_tag); sc->ev_tag = NULL; /* reset the watchdog status registers */ ichwd_sts_reset(sc); /* deallocate I/O register space */ bus_release_resource(dev, SYS_RES_IOPORT, sc->tco_rid, sc->tco_res); bus_release_resource(dev, SYS_RES_IOPORT, sc->smi_rid, sc->smi_res); /* deallocate memory resource */ ich = ichwd_find_ich_lpc_bridge(NULL); if (sc->gcs_res && ich) bus_release_resource(ich, SYS_RES_MEMORY, sc->gcs_rid, sc->gcs_res); return (0); } static device_method_t ichwd_methods[] = { DEVMETHOD(device_identify, ichwd_identify), DEVMETHOD(device_probe, ichwd_probe), DEVMETHOD(device_attach, ichwd_attach), DEVMETHOD(device_detach, ichwd_detach), DEVMETHOD(device_shutdown, ichwd_detach), {0,0} }; static driver_t ichwd_driver = { "ichwd", ichwd_methods, sizeof(struct ichwd_softc), }; DRIVER_MODULE(ichwd, isa, ichwd_driver, ichwd_devclass, NULL, NULL);