/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* Added for prom interface */ #include #include #include #include #define DS1337_DEVICE_TYPE "rtc" /* * Driver entry routines */ static int todds1337_attach(dev_info_t *, ddi_attach_cmd_t); static int todds1337_detach(dev_info_t *, ddi_detach_cmd_t); static int todds1337_getinfo(dev_info_t *, ddi_info_cmd_t, void *, void **); /* * tod_ops entry routines */ static timestruc_t todds1337_get(void); static void todds1337_set(timestruc_t); static uint_t todds1337_set_watchdog_timer(uint_t); static uint_t todds1337_clear_watchdog_timer(void); static void todds1337_set_power_alarm(timestruc_t); static void todds1337_clear_power_alarm(void); static int todds1337_setup_prom(); static void todds1337_rele_prom(); static int todds1337_prom_getdate(struct rtc_t *rtc); static int todds1337_prom_setdate(struct rtc_t *rtc); /* * Local functions */ static int todds1337_read_rtc(struct rtc_t *); static int todds1337_write_rtc(struct rtc_t *); /* Anchor for soft state structure */ static void *ds1337_statep; static int instance = -1; static int todds1337_attach_done = 0; static kmutex_t todds1337_rd_lock; static kmutex_t todds1337_alarm_lock; static ihandle_t todds1337_ihandle = 0; /* one second time out */ #define I2C_CYCLIC_TIMEOUT 1000000000 uint_t i2c_cyclic_timeout = I2C_CYCLIC_TIMEOUT; static int sync_clock_once = 1; static struct rtc_t soft_rtc; /* * cp_ops structure */ static struct cb_ops ds1337_cbops = { nodev, /* open */ nodev, /* close */ nodev, /* strategy */ nodev, /* print */ nodev, /* dump */ nodev, /* read */ nodev, /* write */ nodev, /* ioctl */ nodev, /* devmap */ nodev, /* mmap */ nodev, /* segmap */ NULL, /* poll */ ddi_prop_op, /* cb_prop_op */ NULL, /* streamtab */ D_NEW | D_MP, /* Driver compatibility flag */ CB_REV, /* rev */ nodev, /* int (*cb_aread)() */ nodev /* int (*cb_awrite)() */ }; /* * dev_ops structure */ static struct dev_ops ds1337_ops = { DEVO_REV, /* devo_rev */ 0, /* refcnt - reference cnt always set to 0 */ todds1337_getinfo, /* getinfo - Maybe requred */ nulldev, /* identify */ nulldev, /* probe */ todds1337_attach, /* attach */ todds1337_detach, /* detach */ nodev, /* reset */ &ds1337_cbops, /* cb_ops - ds1337 does not need this(?) */ NULL }; static struct modldrv todds1337_modldrv = { &mod_driverops, /* Type of module. This one is a driver */ "tod driver for DS1337 %I%", /* Name of the module. */ &ds1337_ops, /* Pointer to dev_ops */ }; /* * Module linkage structure */ static struct modlinkage todds1337_modlinkage = { MODREV_1, &todds1337_modldrv, 0 }; int _init(void) { int error; if (strcmp(tod_module_name, "todds1337") == 0) { if ((error = ddi_soft_state_init(&ds1337_statep, sizeof (ds1337_state_t), 0)) != DDI_SUCCESS) { return (error); } tod_ops.tod_get = todds1337_get; tod_ops.tod_set = todds1337_set; tod_ops.tod_set_watchdog_timer = todds1337_set_watchdog_timer; tod_ops.tod_clear_watchdog_timer = todds1337_clear_watchdog_timer; tod_ops.tod_set_power_alarm = todds1337_set_power_alarm; tod_ops.tod_clear_power_alarm = todds1337_clear_power_alarm; } (void) todds1337_setup_prom(); /* * Install the module */ if ((error = mod_install(&todds1337_modlinkage)) != 0) { ddi_soft_state_fini(&ds1337_statep); return (error); } mutex_init(&todds1337_rd_lock, NULL, MUTEX_DEFAULT, NULL); mutex_init(&todds1337_alarm_lock, NULL, MUTEX_DEFAULT, NULL); return (0); } int _fini(void) { int error = 0; if (strcmp(tod_module_name, "todds1337") == 0) { error = EBUSY; } else { if ((error = mod_remove(&todds1337_modlinkage)) == 0) { ddi_soft_state_fini(&ds1337_statep); mutex_destroy(&todds1337_rd_lock); mutex_destroy(&todds1337_alarm_lock); todds1337_rele_prom(); } } return (error); } int _info(struct modinfo *modinfop) { return (mod_info(&todds1337_modlinkage, modinfop)); } /* * cyclical call to get tod. */ static void todds1337_cyclic(void *arg) { (void) todds1337_read_rtc((struct rtc_t *)arg); } /* * register ds1337 client device with i2c services, and * allocate & initialize soft state structure. */ static int todds1337_attach(dev_info_t *dip, ddi_attach_cmd_t cmd) { static ds1337_state_t *statep = NULL; i2c_transfer_t *i2c_tp = NULL; uint8_t tempVal = (uint8_t)0; cyc_handler_t cychand; cyc_time_t cyctime; switch (cmd) { case DDI_ATTACH: break; case DDI_RESUME: return (DDI_SUCCESS); default: return (DDI_FAILURE); } if (instance != -1) { cmn_err(CE_WARN, "todds1337_attach: wrong instance"); return (DDI_FAILURE); } instance = ddi_get_instance(dip); /* * Allocate soft state structure */ if (ddi_soft_state_zalloc(ds1337_statep, instance) != DDI_SUCCESS) { cmn_err(CE_WARN, "todds1337_attach: cannot allocate soft " "state"); instance = -1; return (DDI_FAILURE); } statep = ddi_get_soft_state(ds1337_statep, instance); if (statep == NULL) { cmn_err(CE_WARN, "todds1337_attach: cannot acquire soft " "state"); instance = -1; return (DDI_FAILURE); } statep->dip = dip; if (i2c_client_register(dip, &statep->ds1337_i2c_hdl) != I2C_SUCCESS) { ddi_soft_state_free(ds1337_statep, instance); cmn_err(CE_WARN, "todds1337_attach: cannot register i2c " "client"); instance = -1; return (DDI_FAILURE); } /* check and initialize the oscillator */ (void) i2c_transfer_alloc(statep->ds1337_i2c_hdl, &i2c_tp, 1, 1, I2C_SLEEP); i2c_tp->i2c_version = I2C_XFER_REV; i2c_tp->i2c_flags = I2C_WR_RD; i2c_tp->i2c_wbuf[0] = (uchar_t)RTC_STATUS; /* Read Status register */ i2c_tp->i2c_wlen = 1; i2c_tp->i2c_rlen = 1; if ((i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); i2c_client_unregister(statep->ds1337_i2c_hdl); ddi_soft_state_free(ds1337_statep, instance); cmn_err(CE_WARN, "todds1337_attach: failed to read DS1337 " "status register"); instance = -1; return (DDI_FAILURE); } tempVal = i2c_tp->i2c_rbuf[0]; (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); /* * Check Oscillator and initialize chip if OBP failed to do it */ if (tempVal & RTC_CTL_EOSC) { (void) i2c_transfer_alloc(statep->ds1337_i2c_hdl, &i2c_tp, 2, 0, I2C_SLEEP); i2c_tp->i2c_version = I2C_XFER_REV; i2c_tp->i2c_flags = I2C_WR; i2c_tp->i2c_wbuf[0] = RTC_CTL; /* Write Control register */ i2c_tp->i2c_wbuf[1] = (uchar_t)(RTC_CTL_RS2 | RTC_CTL_RS1 | RTC_CTL_INTCN); if ((i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); i2c_client_unregister(statep->ds1337_i2c_hdl); ddi_soft_state_free(ds1337_statep, instance); cmn_err(CE_WARN, "todds1337_attach: failed to write " "DS1337 control register"); instance = -1; return (DDI_FAILURE); } (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); /* * Now reset the OSF flag in the Status register */ (void) i2c_transfer_alloc(statep->ds1337_i2c_hdl, &i2c_tp, 2, 0, I2C_SLEEP); i2c_tp->i2c_version = I2C_XFER_REV; i2c_tp->i2c_flags = I2C_WR; i2c_tp->i2c_wbuf[0] = RTC_STATUS; i2c_tp->i2c_wbuf[1] = (uchar_t)0; if ((i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); i2c_client_unregister(statep->ds1337_i2c_hdl); ddi_soft_state_free(ds1337_statep, instance); cmn_err(CE_WARN, "todds1337_attach: failed to write " "DS1337 status register"); instance = -1; return (DDI_FAILURE); } (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); } /* Create a cyclic handler to read TOD */ cychand.cyh_func = todds1337_cyclic; cychand.cyh_arg = &soft_rtc; cychand.cyh_level = CY_LOW_LEVEL; cyctime.cyt_when = 0; cyctime.cyt_interval = i2c_cyclic_timeout; ASSERT(statep->cycid == CYCLIC_NONE); mutex_enter(&cpu_lock); statep->cycid = cyclic_add(&cychand, &cyctime); mutex_exit(&cpu_lock); ASSERT(statep->cycid != CYCLIC_NONE); statep->state = TOD_ATTACHED; todds1337_attach_done = 1; ddi_report_dev(dip); return (DDI_SUCCESS); } /*ARGSUSED*/ static int todds1337_detach(dev_info_t *dip, ddi_detach_cmd_t cmd) { /* * Once attached, do not allow detach because the system constantly * calling todds1337_get() to get the time. If the driver is detached * and the system try to get the time, the system will have memory * problem. * */ switch (cmd) { case DDI_SUSPEND: return (DDI_SUCCESS); default: return (DDI_FAILURE); } } /* *********************** tod_ops entry points ******************** */ /* * Read the current time from the DS1337 chip and convert to UNIX form. * Should be called with tod_clock held. */ static timestruc_t todds1337_get(void) { timestruc_t ts; todinfo_t tod; struct rtc_t rtc; ASSERT(MUTEX_HELD(&tod_lock)); if (sync_clock_once) { (void) todds1337_read_rtc(&soft_rtc); sync_clock_once = 0; } else { tod_fault_reset(); return (hrestime); } bcopy(&soft_rtc, &rtc, sizeof (rtc)); /* * 00 - 68 = 2000 thru 2068 * 69-99 = 1969 thru 1999 */ tod.tod_year = rtc.rtc_year; if (rtc.rtc_year <= 68) tod.tod_year += 100; tod.tod_month = rtc.rtc_mon; tod.tod_day = rtc.rtc_dom; tod.tod_dow = rtc.rtc_dow; tod.tod_hour = rtc.rtc_hrs; tod.tod_min = rtc.rtc_min; tod.tod_sec = rtc.rtc_sec; ts.tv_sec = tod_to_utc(tod); ts.tv_nsec = 0; return (ts); } /* * Program DS1337 with the specified time. * Must be called with tod_lock held. The TOD * chip supports date from 1969-2068 only. We must * reject requests to set date below 1969. */ static void todds1337_set(timestruc_t ts) { struct rtc_t rtc; todinfo_t tod = utc_to_tod(ts.tv_sec); int year; ASSERT(MUTEX_HELD(&tod_lock)); /* * Year is base 1900, valid year range 1969-2068 */ if ((tod.tod_year < 69) || (tod.tod_year > 168)) return; year = tod.tod_year; if (year >= 100) year -= 100; rtc.rtc_year = (uint8_t)year; rtc.rtc_mon = (uint8_t)tod.tod_month; rtc.rtc_dom = (uint8_t)tod.tod_day; rtc.rtc_dow = (uint8_t)tod.tod_dow; rtc.rtc_hrs = (uint8_t)tod.tod_hour; rtc.rtc_min = (uint8_t)tod.tod_min; rtc.rtc_sec = (uint8_t)tod.tod_sec; (void) todds1337_write_rtc(&rtc); } /* * Program ds1337 registers for alarm to go off at the specified time. * Alarm #1 is used (Alarm #2 stays idle) */ /* ARGSUSED */ static void todds1337_set_power_alarm(timestruc_t ts) { todinfo_t tod; ds1337_state_t *statep = NULL; i2c_transfer_t *i2c_tp = NULL; uint8_t tmpval; ASSERT(MUTEX_HELD(&tod_lock)); if (!todds1337_attach_done) { cmn_err(CE_WARN, "todds1337: driver not attached"); return; } statep = ddi_get_soft_state(ds1337_statep, instance); if (statep == NULL) { cmn_err(CE_WARN, "todds1337: ddi_get_soft_state failed"); return; } tod = utc_to_tod(ts.tv_sec); /* * i2c_transfe() may block; to avoid locking clock() which * is running in interrupt context at PIL10 we temporarely exit * the tod_mutex and enter alarm lock. Time/date and alarm hardware * have non-interlsecting registers, it is safe to use different locks. */ mutex_exit(&tod_lock); mutex_enter(&todds1337_alarm_lock); /* * Disable Power Alarm (A1IE) */ (void) i2c_transfer_alloc(statep->ds1337_i2c_hdl, &i2c_tp, 1, 1, I2C_SLEEP); i2c_tp->i2c_version = I2C_XFER_REV; i2c_tp->i2c_flags = I2C_WR_RD; i2c_tp->i2c_wbuf[0] = (uchar_t)RTC_CTL; /* Read Control register */ if ((i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); cmn_err(CE_WARN, "todds1337_set_power_alarm: failed to read " "DS1337 control register"); mutex_exit(&todds1337_alarm_lock); mutex_enter(&tod_lock); return; } tmpval = i2c_tp->i2c_rbuf[0]; (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); (void) i2c_transfer_alloc(statep->ds1337_i2c_hdl, &i2c_tp, 2, 0, I2C_SLEEP); i2c_tp->i2c_version = I2C_XFER_REV; i2c_tp->i2c_flags = I2C_WR; i2c_tp->i2c_wbuf[0] = (uchar_t)RTC_CTL; /* Write Control register */ i2c_tp->i2c_wbuf[1] = tmpval & ~RTC_CTL_A1IE; if ((i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); cmn_err(CE_WARN, "todds1337_set_power_alarm: failed to write " "DS1337control register"); mutex_exit(&todds1337_alarm_lock); mutex_enter(&tod_lock); return; } (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); /* * Write Alarm #1 registers */ (void) i2c_transfer_alloc(statep->ds1337_i2c_hdl, &i2c_tp, 5, 0, I2C_SLEEP); i2c_tp->i2c_version = I2C_XFER_REV; i2c_tp->i2c_flags = I2C_WR; i2c_tp->i2c_wbuf[0] = (uchar_t)RTC_ALARM_SEC; /* Alarm #1 Seconds */ i2c_tp->i2c_wbuf[1] = BYTE_TO_BCD(tod.tod_sec); i2c_tp->i2c_wbuf[2] = BYTE_TO_BCD(tod.tod_min); i2c_tp->i2c_wbuf[3] = BYTE_TO_BCD(tod.tod_hour); i2c_tp->i2c_wbuf[4] = BYTE_TO_BCD(tod.tod_day); if ((i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); cmn_err(CE_WARN, "todds1337_set_power_alarm: failed to write " "DS1337 alarm registers"); mutex_exit(&todds1337_alarm_lock); mutex_enter(&tod_lock); return; } (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); /* * Enable Power Alarm */ (void) i2c_transfer_alloc(statep->ds1337_i2c_hdl, &i2c_tp, 2, 0, I2C_SLEEP); i2c_tp->i2c_version = I2C_XFER_REV; i2c_tp->i2c_flags = I2C_WR; i2c_tp->i2c_wbuf[0] = (uchar_t)RTC_CTL; /* Write Control register */ i2c_tp->i2c_wbuf[1] = tmpval | RTC_CTL_A1IE; if ((i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); cmn_err(CE_WARN, "todds1337_set_power_alarm: failed to enable " "DS1337 alarm"); mutex_exit(&todds1337_alarm_lock); mutex_enter(&tod_lock); return; } (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); mutex_exit(&todds1337_alarm_lock); mutex_enter(&tod_lock); } /* ARGSUSED */ static void todds1337_clear_power_alarm(void) { ds1337_state_t *statep = NULL; i2c_transfer_t *i2c_tp = NULL; uint8_t tmpval; ASSERT(MUTEX_HELD(&tod_lock)); if (!todds1337_attach_done) { cmn_err(CE_WARN, "todds1337: driver was not attached"); return; } statep = ddi_get_soft_state(ds1337_statep, instance); if (statep == NULL) { cmn_err(CE_WARN, "todds1337: ddi_get_soft_state has failed"); return; } /* * i2c_transfe() may block; to avoid locking clock() which * is running in interrupt context at PIL10 we temporarely exit * the tod_mutex and enter alarm lock. Time/date and alarm hardware * have non-interlsecting registers, it is safe to use different locks. */ mutex_exit(&tod_lock); mutex_enter(&todds1337_alarm_lock); /* * Disable Alarm #1 Interrupt */ (void) i2c_transfer_alloc(statep->ds1337_i2c_hdl, &i2c_tp, 1, 1, I2C_SLEEP); i2c_tp->i2c_version = I2C_XFER_REV; i2c_tp->i2c_flags = I2C_WR_RD; i2c_tp->i2c_wbuf[0] = (uchar_t)RTC_CTL; /* Read Control register */ if ((i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); cmn_err(CE_WARN, "todds1337_clear_power_alarm: failed to read " "DS1337 control register"); mutex_exit(&todds1337_alarm_lock); mutex_enter(&tod_lock); return; } tmpval = i2c_tp->i2c_rbuf[0]; (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); (void) i2c_transfer_alloc(statep->ds1337_i2c_hdl, &i2c_tp, 2, 0, I2C_SLEEP); i2c_tp->i2c_version = I2C_XFER_REV; i2c_tp->i2c_flags = I2C_WR; i2c_tp->i2c_wbuf[0] = (uchar_t)RTC_CTL; /* Write Control register */ i2c_tp->i2c_wbuf[1] = tmpval & ~RTC_CTL_A1IE; if ((i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); cmn_err(CE_WARN, "todds1337_clear_power_alarm: failed to write " "DS1337 control register"); mutex_exit(&todds1337_alarm_lock); mutex_enter(&tod_lock); return; } (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); /* * Reset Alarm #1 Flag */ (void) i2c_transfer_alloc(statep->ds1337_i2c_hdl, &i2c_tp, 1, 1, I2C_SLEEP); i2c_tp->i2c_version = I2C_XFER_REV; i2c_tp->i2c_flags = I2C_WR_RD; i2c_tp->i2c_wbuf[0] = (uchar_t)RTC_STATUS; /* Read Status register */ if ((i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); cmn_err(CE_WARN, "todds1337_clear_power_alarm: failed to read " "DS1337 status register"); mutex_exit(&todds1337_alarm_lock); mutex_enter(&tod_lock); return; } tmpval = i2c_tp->i2c_rbuf[0]; (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); (void) i2c_transfer_alloc(statep->ds1337_i2c_hdl, &i2c_tp, 2, 0, I2C_SLEEP); i2c_tp->i2c_version = I2C_XFER_REV; i2c_tp->i2c_flags = I2C_WR; i2c_tp->i2c_wbuf[0] = (uchar_t)RTC_STATUS; /* Write Status register */ i2c_tp->i2c_wbuf[1] = tmpval & ~RTC_STATUS_A1F; if ((i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); cmn_err(CE_WARN, "todds1337_clear_power_alarm: failed to write " "DS1337 status register"); mutex_exit(&todds1337_alarm_lock); mutex_enter(&tod_lock); return; } (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); mutex_exit(&todds1337_alarm_lock); mutex_enter(&tod_lock); } /* ARGSUSED */ static uint_t todds1337_set_watchdog_timer(uint_t timeoutval) { ASSERT(MUTEX_HELD(&tod_lock)); return (0); } /* ARGSUSED */ static uint_t todds1337_clear_watchdog_timer(void) { ASSERT(MUTEX_HELD(&tod_lock)); return (0); } /* ********************** Local functions ***************************** */ static char tod_read[7] = {-1, -1, -1, -1, -1, -1, -1}; static int todds1337_read_rtc(struct rtc_t *rtc) { static ds1337_state_t *statep = NULL; i2c_transfer_t *i2c_tp = NULL; int i2c_cmd_status = I2C_FAILURE; int counter = 4; if (!todds1337_attach_done) { return (todds1337_prom_getdate(rtc)); } statep = ddi_get_soft_state(ds1337_statep, instance); if (statep == NULL) { cmn_err(CE_WARN, "todds1337: ddi_get_soft_state failing"); return (DDI_FAILURE); } mutex_enter(&todds1337_rd_lock); /* * Allocate 1 byte for write buffer and 7 bytes for read buffer to * to accomodate sec, min, hrs, dayOfWeek, dayOfMonth, year */ if ((i2c_transfer_alloc(statep->ds1337_i2c_hdl, &i2c_tp, 1, 7, I2C_SLEEP)) != I2C_SUCCESS) { mutex_exit(&todds1337_rd_lock); return (DDI_FAILURE); } do { i2c_tp->i2c_version = I2C_XFER_REV; i2c_tp->i2c_flags = I2C_WR_RD; i2c_tp->i2c_wbuf[0] = (uchar_t)RTC_SEC; /* Start from 0x00 */ i2c_tp->i2c_wlen = 1; /* Write one byte address */ i2c_tp->i2c_rlen = 7; /* Read 7 regs */ if ((i2c_cmd_status = i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { goto done; } /* for first read, need to get valid data */ while (tod_read[0] == -1 && counter > 0) { /* move data to static buffer */ bcopy(i2c_tp->i2c_rbuf, tod_read, 7); /* now read again */ /* Start reading reg from 0x00 */ i2c_tp->i2c_wbuf[0] = (uchar_t)0x00; i2c_tp->i2c_wlen = 1; /* Write one byte address */ i2c_tp->i2c_rlen = 7; /* Read 7 regs */ if ((i2c_cmd_status = i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { goto done; } /* if they are not the same, then read again */ if (bcmp(tod_read, i2c_tp->i2c_rbuf, 7) != 0) { tod_read[0] = -1; counter--; } } } while (i2c_tp->i2c_rbuf[0] == 0x59 && /* if seconds register is 0x59 (BCD), add data should match */ bcmp(&tod_read[1], &i2c_tp->i2c_rbuf[1], 6) != 0 && counter-- > 0); if (counter < 0) cmn_err(CE_WARN, "i2ctod: TOD Chip failed ??"); /* move data to static buffer */ bcopy(i2c_tp->i2c_rbuf, tod_read, 7); rtc->rtc_year = BCD_TO_BYTE(i2c_tp->i2c_rbuf[6]); rtc->rtc_mon = BCD_TO_BYTE(i2c_tp->i2c_rbuf[5]); rtc->rtc_dom = BCD_TO_BYTE(i2c_tp->i2c_rbuf[4]); rtc->rtc_dow = BCD_TO_BYTE(i2c_tp->i2c_rbuf[3]); rtc->rtc_hrs = BCD_TO_BYTE(i2c_tp->i2c_rbuf[2]); rtc->rtc_min = BCD_TO_BYTE(i2c_tp->i2c_rbuf[1]); rtc->rtc_sec = BCD_TO_BYTE(i2c_tp->i2c_rbuf[0]); done: (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); mutex_exit(&todds1337_rd_lock); return (i2c_cmd_status); } static int todds1337_write_rtc(struct rtc_t *rtc) { ds1337_state_t *statep = NULL; i2c_transfer_t *i2c_tp = NULL; int i2c_cmd_status = I2C_SUCCESS; if (!todds1337_attach_done) { return (todds1337_prom_setdate(rtc)); } statep = ddi_get_soft_state(ds1337_statep, instance); if (statep == NULL) { return (DDI_FAILURE); } if ((i2c_cmd_status = i2c_transfer_alloc(statep->ds1337_i2c_hdl, &i2c_tp, 8, 0, I2C_SLEEP)) != I2C_SUCCESS) { return (i2c_cmd_status); } i2c_tp->i2c_version = I2C_XFER_REV; i2c_tp->i2c_flags = I2C_WR; i2c_tp->i2c_wbuf[0] = (uchar_t)RTC_SEC; i2c_tp->i2c_wbuf[1] = BYTE_TO_BCD(rtc->rtc_sec); i2c_tp->i2c_wbuf[2] = BYTE_TO_BCD(rtc->rtc_min); i2c_tp->i2c_wbuf[3] = BYTE_TO_BCD(rtc->rtc_hrs); i2c_tp->i2c_wbuf[4] = BYTE_TO_BCD(rtc->rtc_dow); i2c_tp->i2c_wbuf[5] = BYTE_TO_BCD(rtc->rtc_dom); i2c_tp->i2c_wbuf[6] = BYTE_TO_BCD(rtc->rtc_mon); i2c_tp->i2c_wbuf[7] = BYTE_TO_BCD(rtc->rtc_year); i2c_tp->i2c_wlen = 8; if ((i2c_cmd_status = i2c_transfer(statep->ds1337_i2c_hdl, i2c_tp)) != I2C_SUCCESS) { (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); return (i2c_cmd_status); } tod_read[0] = -1; /* invalidate saved data from read routine */ (void) i2c_transfer_free(statep->ds1337_i2c_hdl, i2c_tp); return (i2c_cmd_status); } /*ARGSUSED*/ static int todds1337_getinfo(dev_info_t *dip, ddi_info_cmd_t infocmd, void *arg, void **result) { ds1337_state_t *softsp; if (instance == -1) { return (DDI_FAILURE); } switch (infocmd) { case DDI_INFO_DEVT2DEVINFO: if ((softsp = ddi_get_soft_state(ds1337_statep, instance)) == NULL) return (DDI_FAILURE); *result = (void *)softsp->dip; return (DDI_SUCCESS); case DDI_INFO_DEVT2INSTANCE: *result = (void *)(uintptr_t)instance; return (DDI_SUCCESS); default: return (DDI_FAILURE); } } /* * Finds the device node with device_type "rtc" and opens it to * execute the get-time method */ static int todds1337_setup_prom() { pnode_t todnode; char tod1337_devpath[MAXNAMELEN]; if ((todnode = prom_findnode_bydevtype(prom_rootnode(), DS1337_DEVICE_TYPE)) == OBP_NONODE) return (DDI_FAILURE); /* * We now have the phandle of the rtc node, we need to open the * node and get the ihandle */ if (prom_phandle_to_path(todnode, tod1337_devpath, sizeof (tod1337_devpath)) < 0) { cmn_err(CE_WARN, "prom_phandle_to_path failed"); return (DDI_FAILURE); } /* * Now open the node and store it's ihandle */ if ((todds1337_ihandle = prom_open(tod1337_devpath)) == NULL) { cmn_err(CE_WARN, "prom_open failed"); return (DDI_FAILURE); } return (DDI_SUCCESS); } /* * Closes the prom interface */ static void todds1337_rele_prom() { (void) prom_close(todds1337_ihandle); } /* * Read the date using "get-time" method in rtc node * PROM returns 1969-1999 when reading 69-99 and * 2000-2068 when reading 00-68 */ static int todds1337_prom_getdate(struct rtc_t *rtc) { int year; cell_t ci[12]; ci[0] = p1275_ptr2cell("call-method"); /* Service name */ ci[1] = 2; /* # of arguments */ ci[2] = 7; /* # of result cells */ ci[3] = p1275_ptr2cell("get-time"); ci[4] = p1275_ihandle2cell(todds1337_ihandle); promif_preprom(); (void) p1275_cif_handler(&ci); promif_postprom(); year = p1275_cell2int(ci[6]); rtc->rtc_mon = p1275_cell2int(ci[7]); rtc->rtc_dom = p1275_cell2int(ci[8]); rtc->rtc_dow = 0; rtc->rtc_hrs = p1275_cell2int(ci[9]); rtc->rtc_min = p1275_cell2int(ci[10]); rtc->rtc_sec = p1275_cell2int(ci[11]); if (year >= 2000) year -= 2000; else year -= 1900; rtc->rtc_year = year; return (DDI_SUCCESS); } /* * Read the date using "set-time" method in rtc node * For values 00 - 68, write 2000-2068, and for 69-99, * write 1969-1999 */ static int todds1337_prom_setdate(struct rtc_t *rtc) { int year; cell_t ci[12]; year = rtc->rtc_year; if ((year < 0) || (year > 99)) return (DDI_FAILURE); if (year <= 68) year = rtc->rtc_year + 2000; else year = rtc->rtc_year + 1900; ci[0] = p1275_ptr2cell("call-method"); /* Service name */ ci[1] = 8; /* # of arguments */ ci[2] = 0; /* # of result cells */ ci[3] = p1275_ptr2cell("set-time"); ci[4] = p1275_ihandle2cell(todds1337_ihandle); ci[5] = p1275_int2cell(year); ci[6] = p1275_int2cell(rtc->rtc_mon); ci[7] = p1275_int2cell(rtc->rtc_dom); ci[8] = p1275_int2cell(rtc->rtc_hrs); ci[9] = p1275_int2cell(rtc->rtc_min); ci[10] = p1275_int2cell(rtc->rtc_sec); promif_preprom(); (void) p1275_cif_handler(&ci); promif_postprom(); return (DDI_SUCCESS); }