491 lines
12 KiB
C
491 lines
12 KiB
C
/* $NetBSD: clock.c,v 1.9 1997/03/05 22:22:11 gwr Exp $ */
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/*
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* Copyright (c) 1994 Gordon W. Ross
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* Copyright (c) 1993 Adam Glass
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* Copyright (c) 1988 University of Utah.
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* Copyright (c) 1982, 1990, 1993
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* The Regents of the University of California. All rights reserved.
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*
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* This code is derived from software contributed to Berkeley by
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* the Systems Programming Group of the University of Utah Computer
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* Science Department.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. All advertising materials mentioning features or use of this software
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* must display the following acknowledgement:
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* This product includes software developed by the University of
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* California, Berkeley and its contributors.
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* 4. Neither the name of the University nor the names of its contributors
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* may be used to endorse or promote products derived from this software
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* without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* from: Utah Hdr: clock.c 1.18 91/01/21$
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* from: @(#)clock.c 8.2 (Berkeley) 1/12/94
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*/
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/*
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* Machine-dependent clock routines for the Mostek48t02
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*/
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#include <sys/param.h>
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#include <sys/systm.h>
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#include <sys/time.h>
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#include <sys/kernel.h>
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#include <sys/device.h>
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#include <m68k/asm_single.h>
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#include <machine/autoconf.h>
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#include <machine/cpu.h>
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#include <machine/mon.h>
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#include <machine/obio.h>
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#include <machine/machdep.h>
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#include <dev/clock_subr.h>
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#include <sun3/sun3/interreg.h>
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#include "mostek48t02.h"
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#define CLOCK_PRI 5
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#define IREG_CLK_BITS (IREG_CLOCK_ENAB_7 | IREG_CLOCK_ENAB_5)
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void _isr_clock __P((void)); /* in locore.s */
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void clock_intr __P((struct clockframe));
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static volatile void *clock_va;
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static int clock_match __P((struct device *, struct cfdata *, void *args));
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static void clock_attach __P((struct device *, struct device *, void *));
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struct cfattach clock_ca = {
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sizeof(struct device), clock_match, clock_attach
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};
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struct cfdriver clock_cd = {
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NULL, "clock", DV_DULL
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};
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/*
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* This is called very early (by obio_init()) but after
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* intreg_init() has found the PROM mapping for the
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* interrupt register and cleared it.
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*/
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void
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clock_init()
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{
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/* Yes, use the EEPROM address. It is the same H/W device. */
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clock_va = obio_find_mapping(OBIO_EEPROM, sizeof(struct clockreg));
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if (!clock_va) {
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mon_printf("clock_init\n");
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sunmon_abort();
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}
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}
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/*
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* XXX Need to determine which type of clock we have!
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* XXX The Sun3/80 always has the MK4802, while the
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* XXX Sun3/470 can (reportedly) have that or the old
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* XXX intersil7170. Should have two clock drivers...
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*/
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static int
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clock_match(parent, cf, args)
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struct device *parent;
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struct cfdata *cf;
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void *args;
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{
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struct confargs *ca = args;
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/* This driver only supports one unit. */
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if (cf->cf_unit != 0)
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return (0);
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/* Validate the given address. */
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if (ca->ca_paddr != OBIO_CLOCK2)
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return (0);
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/* Default interrupt priority. */
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if (ca->ca_intpri == -1)
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ca->ca_intpri = CLOCK_PRI;
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return (1);
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}
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static void
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clock_attach(parent, self, args)
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struct device *parent;
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struct device *self;
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void *args;
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{
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printf("\n");
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/*
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* Can not hook up the ISR until cpu_initclocks()
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* because hardclock is not ready until then.
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* For now, the handler is _isr_autovec(), which
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* will complain if it gets clock interrupts.
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*/
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}
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/*
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* Set and/or clear the desired clock bits in the interrupt
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* register. We have to be extremely careful that we do it
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* in such a manner that we don't get ourselves lost.
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* XXX: Watch out! It's really easy to break this!
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*/
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void
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set_clk_mode(on, off, enable_clk)
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u_char on, off;
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int enable_clk;
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{
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register u_char interreg;
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/*
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* If we have not yet mapped the register,
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* then we do not want to do any of this...
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*/
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if (!interrupt_reg)
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return;
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#ifdef DIAGNOSTIC
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/* Assertion: were are at splhigh! */
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if ((getsr() & PSL_IPL) < PSL_IPL7)
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panic("set_clk_mode: bad ipl");
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#endif
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/*
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* make sure that we are only playing w/
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* clock interrupt register bits
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*/
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on &= IREG_CLK_BITS;
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off &= IREG_CLK_BITS;
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/* First, turn off the "master" enable bit. */
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single_inst_bclr_b(*interrupt_reg, IREG_ALL_ENAB);
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/*
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* Save the current interrupt register clock bits,
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* and turn off/on the requested bits in the copy.
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*/
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interreg = *interrupt_reg & IREG_CLK_BITS;
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interreg &= ~off;
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interreg |= on;
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/* Clear the CLK5 and CLK7 bits to clear the flip-flops. */
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single_inst_bclr_b(*interrupt_reg, IREG_CLK_BITS);
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#ifdef SUN3_470
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if (intersil_va) {
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/*
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* Then disable clock interrupts, and read the clock's
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* interrupt register to clear any pending signals there.
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*/
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intersil_clock->clk_cmd_reg =
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intersil_command(INTERSIL_CMD_RUN, INTERSIL_CMD_IDISABLE);
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intersil_clear();
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}
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#endif /* SUN3_470 */
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/* Set the requested bits in the interrupt register. */
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single_inst_bset_b(*interrupt_reg, interreg);
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#ifdef SUN3_470
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/* Turn the clock back on (maybe) */
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if (intersil_va && enable_clk)
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intersil_clock->clk_cmd_reg =
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intersil_command(INTERSIL_CMD_RUN, INTERSIL_CMD_IENABLE);
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#endif /* SUN3_470 */
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/* Finally, turn the "master" enable back on. */
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single_inst_bset_b(*interrupt_reg, IREG_ALL_ENAB);
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}
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/*
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* Set up the real-time clock (enable clock interrupts).
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* Leave stathz 0 since there is no secondary clock available.
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* Note that clock interrupts MUST STAY DISABLED until here.
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*/
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void
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cpu_initclocks(void)
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{
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int s;
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s = splhigh();
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/* Install isr (in locore.s) that calls clock_intr(). */
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isr_add_custom(5, (void*)_isr_clock);
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/* Now enable the clock at level 5 in the interrupt reg. */
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set_clk_mode(IREG_CLOCK_ENAB_5, 0, 1);
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splx(s);
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}
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/*
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* This doesn't need to do anything, as we have only one timer and
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* profhz==stathz==hz.
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*/
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void
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setstatclockrate(newhz)
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int newhz;
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{
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/* nothing */
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}
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/*
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* This is is called by the "custom" interrupt handler.
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* Note that we can get ZS interrupts while this runs,
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* and zshard may touch the interrupt_reg, so we must
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* be careful to use the single_inst_* macros to modify
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* the interrupt register atomically.
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*/
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void
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clock_intr(cf)
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struct clockframe cf;
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{
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/* Pulse the clock intr. enable low. */
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single_inst_bclr_b(*interrupt_reg, IREG_CLOCK_ENAB_5);
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single_inst_bset_b(*interrupt_reg, IREG_CLOCK_ENAB_5);
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/* Call common clock interrupt handler. */
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hardclock(&cf);
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/* No LED frobbing on the 3/80 */
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}
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/*
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* Return the best possible estimate of the time in the timeval
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* to which tvp points. We do this by returning the current time
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* plus the amount of time since the last clock interrupt.
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*
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* Check that this time is no less than any previously-reported time,
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* which could happen around the time of a clock adjustment. Just for
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* fun, we guarantee that the time will be greater than the value
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* obtained by a previous call.
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*/
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void
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microtime(tvp)
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register struct timeval *tvp;
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{
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int s = splhigh();
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static struct timeval lasttime;
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*tvp = time;
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tvp->tv_usec++; /* XXX */
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while (tvp->tv_usec > 1000000) {
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tvp->tv_sec++;
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tvp->tv_usec -= 1000000;
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}
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if (tvp->tv_sec == lasttime.tv_sec &&
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tvp->tv_usec <= lasttime.tv_usec &&
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(tvp->tv_usec = lasttime.tv_usec + 1) > 1000000)
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{
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tvp->tv_sec++;
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tvp->tv_usec -= 1000000;
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}
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lasttime = *tvp;
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splx(s);
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}
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/*
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* Machine-dependent clock routines.
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*
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* Inittodr initializes the time of day hardware which provides
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* date functions.
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*
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* Resettodr restores the time of day hardware after a time change.
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*/
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static long clk_get_secs(void);
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static void clk_set_secs(long);
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/*
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* Initialize the time of day register, based on the time base
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* which is, e.g. from a filesystem.
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*/
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void inittodr(fs_time)
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time_t fs_time;
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{
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long diff, clk_time;
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long long_ago = (5 * SECYR);
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int clk_bad = 0;
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/*
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* Sanity check time from file system.
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* If it is zero,assume filesystem time is just unknown
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* instead of preposterous. Don't bark.
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*/
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if (fs_time < long_ago) {
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/*
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* If fs_time is zero, assume filesystem time is just
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* unknown instead of preposterous. Don't bark.
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*/
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if (fs_time != 0)
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printf("WARNING: preposterous time in file system\n");
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/* 1991/07/01 12:00:00 */
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fs_time = 21*SECYR + 186*SECDAY + SECDAY/2;
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}
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clk_time = clk_get_secs();
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/* Sanity check time from clock. */
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if (clk_time < long_ago) {
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printf("WARNING: bad date in battery clock");
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clk_bad = 1;
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clk_time = fs_time;
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} else {
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/* Does the clock time jive with the file system? */
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diff = clk_time - fs_time;
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if (diff < 0)
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diff = -diff;
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if (diff >= (SECDAY*2)) {
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printf("WARNING: clock %s %d days",
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(clk_time < fs_time) ? "lost" : "gained",
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(int) (diff / SECDAY));
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clk_bad = 1;
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}
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}
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if (clk_bad)
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printf(" -- CHECK AND RESET THE DATE!\n");
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time.tv_sec = clk_time;
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}
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/*
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* Resettodr restores the time of day hardware after a time change.
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*/
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void resettodr()
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{
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clk_set_secs(time.tv_sec);
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}
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/*
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* Routines to copy state into and out of the clock.
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* The clock CSR has to be set for read or write.
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*/
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static void
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clk_get_dt(struct clock_ymdhms *dt)
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{
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volatile struct clockreg *cl = clock_va;
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int s;
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s = splhigh();
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/* enable read (stop time) */
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cl->cl_csr |= CLK_READ;
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/* Copy the info */
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dt->dt_sec = cl->cl_sec;
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dt->dt_min = cl->cl_min;
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dt->dt_hour = cl->cl_hour;
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dt->dt_wday = cl->cl_wday;
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dt->dt_day = cl->cl_mday;
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dt->dt_mon = cl->cl_month;
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dt->dt_year = cl->cl_year;
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/* Done reading (time wears on) */
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cl->cl_csr &= ~CLK_READ;
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splx(s);
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}
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static void
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clk_set_dt(struct clock_ymdhms *dt)
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{
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volatile struct clockreg *cl = clock_va;
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int s;
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s = splhigh();
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/* enable write */
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cl->cl_csr |= CLK_WRITE;
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/* Copy the info */
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cl->cl_sec = dt->dt_sec;
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cl->cl_min = dt->dt_min;
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cl->cl_hour = dt->dt_hour;
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cl->cl_wday = dt->dt_wday;
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cl->cl_mday = dt->dt_day;
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cl->cl_month = dt->dt_mon;
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cl->cl_year = dt->dt_year;
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/* load them up */
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cl->cl_csr &= ~CLK_WRITE;
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splx(s);
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}
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/*
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* Now routines to get and set clock as POSIX time.
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* Our clock keeps "years since 1/1/1968".
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*/
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#define CLOCK_BASE_YEAR 1968
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static long
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clk_get_secs()
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{
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struct clock_ymdhms dt;
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long secs;
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clk_get_dt(&dt);
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/* Convert BCD values to binary. */
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dt.dt_sec = FROMBCD(dt.dt_sec);
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dt.dt_min = FROMBCD(dt.dt_min);
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dt.dt_hour = FROMBCD(dt.dt_hour);
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dt.dt_day = FROMBCD(dt.dt_day);
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dt.dt_mon = FROMBCD(dt.dt_mon);
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dt.dt_year = FROMBCD(dt.dt_year);
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if ((dt.dt_hour > 24) ||
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(dt.dt_day > 31) ||
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(dt.dt_mon > 12))
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return (0);
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dt.dt_year += CLOCK_BASE_YEAR;
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secs = clock_ymdhms_to_secs(&dt);
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return (secs);
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}
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static void
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clk_set_secs(secs)
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long secs;
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{
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struct clock_ymdhms dt;
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clock_secs_to_ymdhms(secs, &dt);
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dt.dt_year -= CLOCK_BASE_YEAR;
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/* Convert binary values to BCD. */
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dt.dt_sec = TOBCD(dt.dt_sec);
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dt.dt_min = TOBCD(dt.dt_min);
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dt.dt_hour = TOBCD(dt.dt_hour);
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dt.dt_day = TOBCD(dt.dt_day);
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dt.dt_mon = TOBCD(dt.dt_mon);
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dt.dt_year = TOBCD(dt.dt_year);
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clk_set_dt(&dt);
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}
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