dev/marvell/gtmpsc.c

1.18        he /*	$NetBSD: gtmpsc.c,v 1.18 2006/05/16 16:49:41 he Exp $	*/
 1.1      matt
 1.1      matt /*
 1.1      matt  * Copyright (c) 2002 Allegro Networks, Inc., Wasabi Systems, Inc.
 1.1      matt  * All rights reserved.
 1.1      matt  *
 1.1      matt  * Redistribution and use in source and binary forms, with or without
 1.1      matt  * modification, are permitted provided that the following conditions
 1.1      matt  * are met:
 1.1      matt  * 1. Redistributions of source code must retain the above copyright
 1.1      matt  *    notice, this list of conditions and the following disclaimer.
 1.1      matt  * 2. Redistributions in binary form must reproduce the above copyright
 1.1      matt  *    notice, this list of conditions and the following disclaimer in the
 1.1      matt  *    documentation and/or other materials provided with the distribution.
 1.1      matt  * 3. All advertising materials mentioning features or use of this software
 1.1      matt  *    must display the following acknowledgement:
 1.1      matt  *      This product includes software developed for the NetBSD Project by
 1.1      matt  *      Allegro Networks, Inc., and Wasabi Systems, Inc.
 1.1      matt  * 4. The name of Allegro Networks, Inc. may not be used to endorse
 1.1      matt  *    or promote products derived from this software without specific prior
 1.1      matt  *    written permission.
 1.1      matt  * 5. The name of Wasabi Systems, Inc. may not be used to endorse
 1.1      matt  *    or promote products derived from this software without specific prior
 1.1      matt  *    written permission.
 1.1      matt  *
 1.1      matt  * THIS SOFTWARE IS PROVIDED BY ALLEGRO NETWORKS, INC. AND
 1.1      matt  * WASABI SYSTEMS, INC. ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
 1.1      matt  * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
 1.1      matt  * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 1.1      matt  * IN NO EVENT SHALL EITHER ALLEGRO NETWORKS, INC. OR WASABI SYSTEMS, INC.
 1.1      matt  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1      matt  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1      matt  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1      matt  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1      matt  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1      matt  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1      matt  * POSSIBILITY OF SUCH DAMAGE.
 1.1      matt  */
 1.1      matt
 1.1      matt /*
 1.1      matt  * mpsc.c - MPSC serial driver, supports UART mode only
 1.1      matt  *
 1.1      matt  *
 1.1      matt  * creation	Mon Apr  9 19:40:15 PDT 2001	cliff
 1.1      matt  */
 1.9     lukem
 1.9     lukem #include <sys/cdefs.h>
1.18        he __KERNEL_RCSID(0, "$NetBSD: gtmpsc.c,v 1.18 2006/05/16 16:49:41 he Exp $");
 1.1      matt
 1.1      matt #include "opt_kgdb.h"
 1.1      matt
 1.1      matt #include <sys/param.h>
 1.1      matt #include <sys/conf.h>
 1.1      matt #include <sys/device.h>
1.18        he #include <sys/kauth.h>
 1.1      matt #include <sys/proc.h>
 1.1      matt #include <sys/systm.h>
 1.1      matt #include <sys/tty.h>
 1.1      matt #include <sys/callout.h>
 1.1      matt #include <sys/fcntl.h>
 1.1      matt #ifdef KGDB
 1.1      matt #include <sys/kernel.h>
 1.1      matt #include <sys/kgdb.h>
 1.1      matt #endif
 1.6   thorpej
 1.6   thorpej #include <uvm/uvm_extern.h>
 1.6   thorpej
 1.1      matt #include <powerpc/atomic.h>
 1.1      matt #include <dev/cons.h>
 1.1      matt #include <machine/bus.h>
 1.1      matt #include <machine/cpu.h>		/* for DELAY */
 1.1      matt #include <machine/stdarg.h>
 1.1      matt #include "gtmpsc.h"
 1.1      matt
 1.1      matt
 1.1      matt #include <dev/marvell/gtreg.h>
 1.1      matt #include <dev/marvell/gtvar.h>
 1.1      matt #include <dev/marvell/gtintrreg.h>
 1.1      matt #include <dev/marvell/gtmpscreg.h>
 1.1      matt #include <dev/marvell/gtsdmareg.h>
 1.1      matt #include <dev/marvell/gtmpscvar.h>
 1.1      matt #include <dev/marvell/gtbrgreg.h>
 1.1      matt
 1.1      matt /*
 1.1      matt  * XXX these delays were derived empiracaly
 1.1      matt  */
 1.1      matt #define GTMPSC_POLL_DELAY	1	/* 1 usec */
 1.5      matt /*
 1.5      matt  * Wait 2 characters time for RESET_DELAY
 1.5      matt  */
 1.5      matt #define GTMPSC_RESET_DELAY	(2*8*1000000 / GT_MPSC_DEFAULT_BAUD_RATE)
 1.1      matt
 1.1      matt #define BURSTLEN 128
 1.1      matt
 1.1      matt /*
 1.1      matt  * stat values for gtmpsc_common_pollc
 1.1      matt  */
 1.1      matt #define GTMPSC_STAT_NONE	0
 1.1      matt #define GTMPSC_STAT_BREAK	1
 1.1      matt
 1.1      matt
 1.1      matt #define PRINTF(x)	gtmpsc_mem_printf x
 1.1      matt
 1.1      matt #if defined(DEBUG)
 1.5      matt unsigned int gtmpsc_debug = 0;
 1.1      matt # define STATIC
 1.5      matt # define DPRINTF(x)	do { if (gtmpsc_debug) gtmpsc_mem_printf x ; } while (0)
 1.1      matt #else
 1.1      matt # define STATIC static
 1.1      matt # define DPRINTF(x)
 1.1      matt #endif
 1.1      matt
 1.1      matt #define GTMPSCUNIT_MASK    0x7ffff
 1.1      matt #define GTMPSCDIALOUT_MASK 0x80000
 1.1      matt
 1.1      matt #define GTMPSCUNIT(x)      (minor(x) & GTMPSCUNIT_MASK)
 1.1      matt #define GTMPSCDIALOUT(x)   (minor(x) & GTMPSCDIALOUT_MASK)
 1.1      matt
 1.2      matt STATIC void gtmpscinit(struct gtmpsc_softc *);
 1.2      matt STATIC int  gtmpscmatch(struct device *, struct cfdata *, void *);
 1.2      matt STATIC void gtmpscattach(struct device *, struct device *, void *);
 1.2      matt STATIC int  compute_cdv(unsigned int);
 1.2      matt STATIC void gtmpsc_loadchannelregs(struct gtmpsc_softc *);
 1.2      matt STATIC void gtmpscshutdown(struct gtmpsc_softc *);
 1.2      matt STATIC void gtmpscstart(struct tty *);
 1.2      matt STATIC int  gtmpscparam(struct tty *, struct termios *);
 1.2      matt STATIC int  gtmpsc_probe(void);
 1.2      matt STATIC int  gtmpsc_intr(void *);
 1.3      matt STATIC void gtmpsc_softintr(void *);
 1.1      matt
 1.2      matt STATIC void gtmpsc_common_putn(struct gtmpsc_softc *);
 1.2      matt STATIC void gtmpsc_common_putc(unsigned int, unsigned char);
 1.2      matt STATIC int  gtmpsc_common_getc(unsigned int);
 1.2      matt STATIC int  gtmpsc_common_pollc(unsigned int, char *, int *);
 1.2      matt STATIC void gtmpsc_poll(void *);
 1.1      matt #ifdef KGDB
 1.2      matt STATIC void gtmpsc_kgdb_poll(void *);
 1.1      matt #endif
 1.2      matt STATIC void gtmpsc_mem_printf(const char *, ...);
 1.1      matt
 1.1      matt STATIC void gtmpsc_txdesc_init(gtmpsc_poll_sdma_t *, gtmpsc_poll_sdma_t *);
 1.1      matt STATIC void gtmpsc_rxdesc_init(gtmpsc_poll_sdma_t *, gtmpsc_poll_sdma_t *);
 1.1      matt STATIC unsigned int gtmpsc_get_causes(void);
 1.3      matt STATIC void gtmpsc_hackinit(struct gtmpsc_softc *, bus_space_tag_t,
 1.3      matt 	bus_space_handle_t, int);
 1.1      matt STATIC void gtmpscinit_stop(struct gtmpsc_softc *, int);
 1.1      matt STATIC void gtmpscinit_start(struct gtmpsc_softc *, int);
 1.2      matt #if 0
 1.1      matt void gtmpsc_printf(const char *fmt, ...);
 1.2      matt #endif
 1.1      matt void gtmpsc_puts(char *);
 1.1      matt
 1.2      matt void gtmpsccnprobe(struct consdev *);
 1.2      matt void gtmpsccninit(struct consdev *);
 1.2      matt int  gtmpsccngetc(dev_t);
 1.2      matt void gtmpsccnputc(dev_t, int);
 1.2      matt void gtmpsccnpollc(dev_t, int);
 1.2      matt void gtmpsccnhalt(dev_t);
 1.2      matt
 1.2      matt STATIC void gtmpsc_txflush(gtmpsc_softc_t *);
 1.2      matt STATIC void gtmpsc_iflush(gtmpsc_softc_t *);
 1.2      matt STATIC void gtmpsc_shutdownhook(void *);
 1.1      matt
 1.1      matt dev_type_open(gtmpscopen);
 1.1      matt dev_type_close(gtmpscclose);
 1.1      matt dev_type_read(gtmpscread);
 1.1      matt dev_type_write(gtmpscwrite);
 1.1      matt dev_type_ioctl(gtmpscioctl);
 1.1      matt dev_type_stop(gtmpscstop);
 1.1      matt dev_type_tty(gtmpsctty);
 1.1      matt dev_type_poll(gtmpscpoll);
 1.1      matt
 1.1      matt const struct cdevsw gtmpsc_cdevsw = {
 1.1      matt 	gtmpscopen, gtmpscclose, gtmpscread, gtmpscwrite, gtmpscioctl,
 1.1      matt 	gtmpscstop, gtmpsctty, gtmpscpoll, nommap, ttykqfilter, D_TTY
 1.1      matt };
 1.1      matt
 1.1      matt CFATTACH_DECL(gtmpsc, sizeof(struct gtmpsc_softc),
 1.1      matt     gtmpscmatch, gtmpscattach, NULL, NULL);
 1.1      matt
 1.1      matt extern struct cfdriver gtmpsc_cd;
 1.1      matt
 1.4      matt static struct consdev gtmpsc_consdev = {
 1.4      matt 	0,
 1.1      matt 	gtmpsccninit,
 1.1      matt 	gtmpsccngetc,
 1.1      matt 	gtmpsccnputc,
 1.1      matt 	gtmpsccnpollc,
 1.2      matt 	NULL,		/* cn_bell */
 1.4      matt 	gtmpsccnhalt,
 1.1      matt 	NULL,		/* cn_flush */
 1.4      matt 	NODEV,
 1.4      matt 	CN_NORMAL
 1.1      matt };
 1.1      matt
 1.1      matt STATIC void *gtmpsc_sdma_ih = NULL;
 1.1      matt
 1.1      matt gtmpsc_softc_t *gtmpsc_scp[GTMPSC_NCHAN] = { 0 };
 1.1      matt
 1.1      matt STATIC int gt_reva_gtmpsc_bug;
 1.1      matt unsigned int sdma_imask;        /* soft copy of SDMA IMASK reg */
 1.1      matt
 1.1      matt #ifdef KGDB
 1.1      matt #include <sys/kgdb.h>
 1.1      matt
 1.1      matt static int gtmpsc_kgdb_addr;
 1.1      matt static int gtmpsc_kgdb_attached;
 1.1      matt
 1.1      matt int kgdb_break_immediate /* = 0 */ ;
 1.1      matt
 1.2      matt STATIC int      gtmpsc_kgdb_getc(void *);
 1.2      matt STATIC void     gtmpsc_kgdb_putc(void *, int);
 1.1      matt #endif /* KGDB */
 1.1      matt
 1.1      matt /*
 1.1      matt  * hacks for console initialization
 1.1      matt  * which happens prior to autoconfig "attach"
 1.6   thorpej  *
 1.6   thorpej  * XXX Assumes PAGE_SIZE is a constant!
 1.1      matt  */
 1.1      matt STATIC unsigned int gtmpsccninit_done = 0;
 1.1      matt STATIC gtmpsc_softc_t gtmpsc_fake_softc;
 1.6   thorpej STATIC unsigned char gtmpsc_earlybuf[PAGE_SIZE]
 1.6   thorpej     __attribute__ ((aligned(PAGE_SIZE)));
 1.6   thorpej STATIC unsigned char gtmpsc_fake_dmapage[PAGE_SIZE]
 1.6   thorpej     __attribute__ ((aligned(PAGE_SIZE)));
 1.1      matt
 1.1      matt
 1.1      matt #define GTMPSC_PRINT_BUF_SIZE	4096
 1.1      matt STATIC unsigned char gtmpsc_print_buf[GTMPSC_PRINT_BUF_SIZE] = { 0 };
 1.1      matt
 1.1      matt unsigned int gtmpsc_poll_putc_cnt = 0;
 1.1      matt unsigned int gtmpsc_poll_putn_cnt = 0;
 1.1      matt unsigned int gtmpsc_poll_getc_cnt = 0;
 1.1      matt unsigned int gtmpsc_poll_pollc_cnt = 0;
 1.1      matt unsigned int gtmpsc_poll_putc_miss = 0;
 1.1      matt unsigned int gtmpsc_poll_putn_miss = 0;
 1.1      matt unsigned int gtmpsc_poll_getc_miss = 0;
 1.1      matt unsigned int gtmpsc_poll_pollc_miss = 0;
 1.1      matt
 1.1      matt #ifndef SDMA_COHERENT
 1.1      matt /*
 1.1      matt  * inlines to flush, invalidate cache
 1.1      matt  * required if DMA cache coherency is broken
 1.1      matt  * note that pointer `p' args are assumed to be cache aligned
 1.1      matt  * and the size is assumed to be one CACHELINESIZE block
 1.1      matt  */
 1.1      matt
 1.1      matt #define GTMPSC_CACHE_FLUSH(p)		gtmpsc_cache_flush(p)
 1.1      matt #define GTMPSC_CACHE_INVALIDATE(p)	gtmpsc_cache_invalidate(p)
 1.1      matt
 1.1      matt static volatile inline void
 1.1      matt gtmpsc_cache_flush(void *p)
 1.1      matt {
1.14     perry 	__asm volatile ("eieio; dcbf 0,%0; lwz %0,0(%0); sync;"
 1.1      matt 					: "+r"(p):);
 1.1      matt }
 1.1      matt
 1.1      matt static volatile inline void
 1.1      matt gtmpsc_cache_invalidate(void *p)
 1.1      matt {
1.14     perry 	__asm volatile ("eieio; dcbi 0,%0; sync;" :: "r"(p));
 1.1      matt }
 1.1      matt #else
 1.1      matt
 1.1      matt #define GTMPSC_CACHE_FLUSH(p)
 1.1      matt #define GTMPSC_CACHE_INVALIDATE(p)
 1.1      matt
 1.1      matt #endif	/* SDMA_COHERENT */
 1.1      matt
 1.3      matt #define GT_READ(sc,o) \
 1.3      matt 	bus_space_read_4((sc)->gtmpsc_memt, (sc)->gtmpsc_memh, (o))
 1.3      matt #define GT_WRITE(sc,o,v) \
 1.3      matt 	bus_space_write_4((sc)->gtmpsc_memt, (sc)->gtmpsc_memh, (o), (v))
 1.1      matt
 1.1      matt
 1.3      matt #define SDMA_IMASK_ENABLE(sc, bit)  do { \
1.11       scw 	unsigned int    __r; \
 1.3      matt 	GT_WRITE(sc, SDMA_ICAUSE, ~(bit)); \
 1.1      matt 	if (gt_reva_gtmpsc_bug) \
1.11       scw 		__r = sdma_imask; \
 1.1      matt 	else \
1.11       scw 		__r = GT_READ(sc, SDMA_IMASK); \
1.11       scw 	__r |= (bit); \
1.11       scw 	sdma_imask = __r; \
1.11       scw 	GT_WRITE(sc, SDMA_IMASK, __r); \
 1.3      matt } while (/*CONSTCOND*/ 0)
 1.1      matt
 1.3      matt #define SDMA_IMASK_DISABLE(sc, bit)  do { \
1.11       scw 	unsigned int    __r; \
 1.1      matt 	if (gt_reva_gtmpsc_bug) \
1.11       scw 		__r = sdma_imask; \
 1.1      matt 	else \
1.11       scw 		__r = GT_READ(sc, SDMA_IMASK); \
1.11       scw 	__r &= ~(bit); \
1.11       scw 	sdma_imask = __r; \
1.11       scw 	GT_WRITE(sc, SDMA_IMASK, __r); \
 1.3      matt } while (/*CONSTCOND*/ 0)
 1.1      matt
1.10     perry static volatile inline unsigned int
 1.1      matt desc_read(unsigned int *ip)
 1.1      matt {
 1.1      matt 	unsigned int rv;
 1.1      matt
1.14     perry 	__asm volatile ("lwzx %0,0,%1; eieio;"
 1.1      matt 		: "=r"(rv) : "r"(ip));
 1.1      matt 	return rv;
 1.1      matt }
 1.1      matt
 1.1      matt static volatile inline void
 1.1      matt desc_write(unsigned int *ip, unsigned int val)
 1.1      matt {
1.14     perry 	__asm volatile ("stwx %0,0,%1; eieio;"
 1.1      matt 		:: "r"(val), "r"(ip));
 1.1      matt }
 1.1      matt
 1.1      matt
 1.1      matt /*
 1.1      matt  * gtmpsc_txdesc_init - set up TX descriptor ring
 1.1      matt  */
 1.1      matt STATIC void
 1.1      matt gtmpsc_txdesc_init(gtmpsc_poll_sdma_t *vmps, gtmpsc_poll_sdma_t *pmps)
 1.1      matt {
 1.1      matt 	int n;
 1.1      matt 	sdma_desc_t *dp;
 1.1      matt 	gtmpsc_polltx_t *vtxp;
 1.1      matt 	gtmpsc_polltx_t *ptxp;
 1.1      matt 	gtmpsc_polltx_t *next_ptxp;
 1.1      matt 	gtmpsc_polltx_t *first_ptxp;
 1.1      matt
 1.1      matt 	first_ptxp = ptxp = &pmps->tx[0];
 1.1      matt 	vtxp = &vmps->tx[0];
 1.1      matt 	next_ptxp = ptxp + 1;
 1.1      matt 	for (n = (GTMPSC_NTXDESC - 1); n--; ) {
 1.1      matt 		dp = &vtxp->txdesc;
 1.1      matt 		desc_write(&dp->sdma_csr, 0);
 1.1      matt 		desc_write(&dp->sdma_cnt, 0);
 1.1      matt 		desc_write(&dp->sdma_bufp, (u_int32_t)&ptxp->txbuf);
 1.1      matt 		desc_write(&dp->sdma_next, (u_int32_t)&next_ptxp->txdesc);
 1.1      matt 		GTMPSC_CACHE_FLUSH(dp);
 1.1      matt 		vtxp++;
 1.1      matt 		ptxp++;
 1.1      matt 		next_ptxp++;
 1.1      matt 	}
 1.1      matt 	dp = &vtxp->txdesc;
 1.1      matt 	desc_write(&dp->sdma_csr, 0);
 1.1      matt 	desc_write(&dp->sdma_cnt, 0);
 1.1      matt 	desc_write(&dp->sdma_bufp, (u_int32_t)&ptxp->txbuf);
 1.1      matt 	desc_write(&dp->sdma_next, (u_int32_t)&first_ptxp->txdesc);
 1.1      matt 	GTMPSC_CACHE_FLUSH(dp);
 1.1      matt }
 1.1      matt
 1.1      matt /*
 1.1      matt  * gtmpsc_rxdesc_init - set up RX descriptor ring
 1.1      matt  */
 1.1      matt STATIC void
 1.1      matt gtmpsc_rxdesc_init(gtmpsc_poll_sdma_t *vmps, gtmpsc_poll_sdma_t *pmps)
 1.1      matt {
 1.1      matt 	int n;
 1.1      matt 	sdma_desc_t *dp;
 1.1      matt 	gtmpsc_pollrx_t *vrxp;
 1.1      matt 	gtmpsc_pollrx_t *prxp;
 1.1      matt 	gtmpsc_pollrx_t *next_prxp;
 1.1      matt 	gtmpsc_pollrx_t *first_prxp;
 1.1      matt 	unsigned int csr;
 1.1      matt
 1.1      matt 	csr = SDMA_CSR_RX_L|SDMA_CSR_RX_F|SDMA_CSR_RX_OWN|SDMA_CSR_RX_EI;
 1.1      matt 	first_prxp = prxp = &pmps->rx[0];
 1.1      matt 	vrxp = &vmps->rx[0];
 1.1      matt 	next_prxp = prxp + 1;
 1.1      matt 	for (n = (GTMPSC_NRXDESC - 1); n--; ) {
 1.1      matt 		dp = &vrxp->rxdesc;
 1.1      matt 		desc_write(&dp->sdma_csr, csr);
 1.1      matt 		desc_write(&dp->sdma_cnt,
 1.1      matt 			GTMPSC_RXBUFSZ << SDMA_RX_CNT_BUFSZ_SHIFT);
 1.1      matt 		desc_write(&dp->sdma_bufp, (u_int32_t)&prxp->rxbuf);
 1.1      matt 		desc_write(&dp->sdma_next, (u_int32_t)&next_prxp->rxdesc);
 1.1      matt 		GTMPSC_CACHE_FLUSH(dp);
 1.1      matt 		vrxp++;
 1.1      matt 		prxp++;
 1.1      matt 		next_prxp++;
 1.1      matt 	}
 1.1      matt 	dp = &vrxp->rxdesc;
 1.1      matt 	desc_write(&dp->sdma_csr, SDMA_CSR_RX_OWN);
 1.1      matt 	desc_write(&dp->sdma_cnt,
 1.1      matt 		GTMPSC_RXBUFSZ << SDMA_RX_CNT_BUFSZ_SHIFT);
 1.1      matt 	desc_write(&dp->sdma_bufp, (u_int32_t)&prxp->rxbuf);
 1.1      matt 	desc_write(&dp->sdma_next, (u_int32_t)&first_prxp->rxdesc);
 1.1      matt 	GTMPSC_CACHE_FLUSH(dp);
 1.1      matt }
 1.1      matt
 1.1      matt /*
 1.1      matt  * Compute the BRG countdown value (CDV in BRG_BCR)
 1.1      matt  */
 1.1      matt
 1.1      matt STATIC int
 1.1      matt compute_cdv(unsigned int baud)
 1.1      matt {
 1.1      matt 	unsigned int    cdv;
 1.1      matt
 1.1      matt 	if (baud == 0)
 1.1      matt 		return 0;
 1.4      matt 	cdv = (GT_MPSC_FREQUENCY / (baud * GTMPSC_CLOCK_DIVIDER) + 1) / 2 - 1;
 1.1      matt 	if (cdv > BRG_BCR_CDV_MAX)
 1.1      matt 		return -1;
 1.1      matt 	return cdv;
 1.1      matt }
 1.1      matt
 1.1      matt STATIC void
 1.1      matt gtmpsc_loadchannelregs(struct gtmpsc_softc *sc)
 1.1      matt {
 1.1      matt 	u_int   brg_bcr;
 1.1      matt 	u_int   unit;
 1.1      matt
 1.1      matt 	unit = sc->gtmpsc_unit;
 1.1      matt 	brg_bcr = unit ? BRG_BCR1 : BRG_BCR0;
 1.1      matt
 1.3      matt 	GT_WRITE(sc, brg_bcr, sc->gtmpsc_brg_bcr);
 1.3      matt 	GT_WRITE(sc, GTMPSC_U_CHRN(unit, 3), sc->gtmpsc_chr3);
 1.1      matt }
 1.1      matt
 1.1      matt STATIC int
 1.1      matt gtmpscmatch(struct device *parent, struct cfdata *self, void *aux)
 1.1      matt {
1.16   thorpej 	struct gt_softc *gt = device_private(parent);
 1.1      matt 	struct gt_attach_args *ga = aux;
 1.1      matt
 1.3      matt 	return GT_MPSCOK(gt, ga, &gtmpsc_cd);
 1.1      matt }
 1.1      matt
 1.1      matt STATIC void
 1.1      matt gtmpscattach(struct device *parent, struct device *self, void *aux)
 1.1      matt {
 1.1      matt 	struct gt_attach_args *ga = aux;
1.16   thorpej 	struct gt_softc *gt = device_private(parent);
1.16   thorpej 	struct gtmpsc_softc *sc = device_private(self);
 1.1      matt 	gtmpsc_poll_sdma_t *vmps;
 1.1      matt 	gtmpsc_poll_sdma_t *pmps;
 1.1      matt 	struct tty *tp;
 1.1      matt 	caddr_t kva;
 1.1      matt 	int rsegs;
 1.1      matt 	int err;
 1.1      matt 	int s;
 1.5      matt 	int is_console = 0;
 1.1      matt
 1.1      matt 	DPRINTF(("mpscattach\n"));
 1.3      matt
 1.3      matt 	GT_MPSCFOUND(gt, ga);
 1.1      matt
 1.1      matt 	s = splhigh();
 1.1      matt
 1.1      matt 	sc->gtmpsc_memt = ga->ga_memt;
 1.3      matt 	sc->gtmpsc_memh = ga->ga_memh;
 1.1      matt 	sc->gtmpsc_dmat = ga->ga_dmat;
 1.1      matt 	sc->gtmpsc_unit = ga->ga_unit;
 1.1      matt
 1.4      matt 	aprint_normal(": SDMA");
 1.6   thorpej 	err = bus_dmamem_alloc(sc->gtmpsc_dmat, PAGE_SIZE, PAGE_SIZE, PAGE_SIZE,
 1.4      matt 	    sc->gtmpsc_dma_segs, 1, &rsegs, BUS_DMA_NOWAIT|BUS_DMA_ALLOCNOW);
 1.1      matt 	if (err) {
 1.1      matt 		PRINTF(("mpscattach: bus_dmamem_alloc error 0x%x\n", err));
 1.1      matt 		splx(s);
 1.1      matt 		return;
 1.1      matt 	}
 1.1      matt #ifndef SDMA_COHERENT
 1.6   thorpej 	err = bus_dmamem_map(sc->gtmpsc_dmat, sc->gtmpsc_dma_segs, 1, PAGE_SIZE,
 1.4      matt 	    &kva, BUS_DMA_NOWAIT);
 1.1      matt #else
 1.6   thorpej 	err = bus_dmamem_map(sc->gtmpsc_dmat, sc->gtmpsc_dma_segs, 1, PAGE_SIZE,
 1.4      matt 	    &kva, BUS_DMA_NOWAIT|BUS_DMA_NOCACHE);
 1.1      matt #endif
 1.1      matt 	if (err) {
 1.1      matt 		PRINTF(("mpscattach: bus_dmamem_map error 0x%x\n", err));
 1.1      matt 		splx(s);
 1.1      matt 		return;
 1.1      matt 	}
 1.1      matt
 1.6   thorpej 	err = bus_dmamap_create(sc->gtmpsc_dmat, PAGE_SIZE, 1, PAGE_SIZE,
 1.6   thorpej 	    PAGE_SIZE, BUS_DMA_NOWAIT|BUS_DMA_ALLOCNOW, &sc->gtmpsc_dma_map);
 1.4      matt 	if (err) {
 1.4      matt 		PRINTF(("mpscattach: bus_dmamap_create error 0x%x\n", err));
 1.4      matt 		splx(s);
 1.4      matt 		return;
 1.4      matt 	}
 1.4      matt
 1.6   thorpej 	err = bus_dmamap_load(sc->gtmpsc_dmat, sc->gtmpsc_dma_map, kva,
 1.6   thorpej 	    PAGE_SIZE, NULL, 0);
 1.4      matt 	if (err) {
 1.4      matt 		PRINTF(("mpscattach: bus_dmamap_load error 0x%x\n", err));
 1.4      matt 		splx(s);
 1.4      matt 		return;
 1.4      matt 	}
 1.6   thorpej 	memset(kva, 0, PAGE_SIZE);	/* paranoid/superfluous */
 1.1      matt
 1.1      matt 	vmps = (gtmpsc_poll_sdma_t *)kva;				    /* KVA */
 1.4      matt 	pmps = (gtmpsc_poll_sdma_t *)sc->gtmpsc_dma_map->dm_segs[0].ds_addr;    /* PA */
 1.5      matt #if defined(DEBUG)
 1.1      matt 	printf(" at %p/%p", vmps, pmps);
 1.1      matt #endif
 1.1      matt 	gtmpsc_txdesc_init(vmps, pmps);
 1.1      matt 	gtmpsc_rxdesc_init(vmps, pmps);
 1.1      matt 	sc->gtmpsc_poll_sdmapage = vmps;
 1.1      matt
 1.1      matt 	if (gtmpsc_scp[sc->gtmpsc_unit] != NULL)
 1.1      matt 		gtmpsc_txflush(gtmpsc_scp[sc->gtmpsc_unit]);
 1.1      matt
 1.1      matt 	sc->gtmpsc_tty = tp = ttymalloc();
 1.1      matt 	tp->t_oproc = gtmpscstart;
 1.1      matt 	tp->t_param = gtmpscparam;
 1.1      matt 	tty_attach(tp);
 1.1      matt
 1.3      matt 	if (gtmpsc_sdma_ih == NULL) {
 1.3      matt 		gtmpsc_sdma_ih = intr_establish(IRQ_SDMA, IST_LEVEL, IPL_SERIAL,
 1.1      matt 			gtmpsc_intr, &sc);
 1.3      matt 		if (gtmpsc_sdma_ih == NULL)
 1.1      matt 			panic("mpscattach: cannot intr_establish IRQ_SDMA");
 1.3      matt 	}
 1.1      matt
 1.3      matt 	sc->sc_si = softintr_establish(IPL_SOFTSERIAL, gtmpsc_softintr, sc);
 1.3      matt 	if (sc->sc_si == NULL)
 1.3      matt 		panic("mpscattach: cannot softintr_establish IPL_SOFTSERIAL");
 1.1      matt
 1.1      matt 	shutdownhook_establish(gtmpsc_shutdownhook, sc);
 1.1      matt
 1.5      matt 	gtmpsc_scp[sc->gtmpsc_unit] = sc;
 1.5      matt 	gtmpscinit(sc);
 1.5      matt
 1.5      matt 	if (cn_tab == &gtmpsc_consdev &&
 1.5      matt 	    cn_tab->cn_dev == makedev(0, sc->gtmpsc_unit)) {
 1.5      matt 		cn_tab->cn_dev = makedev(cdevsw_lookup_major(&gtmpsc_cdevsw),
1.15   thorpej 		    device_unit(&sc->gtmpsc_dev));
 1.5      matt 		is_console = 1;
 1.5      matt 	}
 1.5      matt
 1.5      matt 	aprint_normal(" irq %s%s\n",
 1.5      matt 	    intr_string(IRQ_SDMA),
 1.5      matt 	    (gt_reva_gtmpsc_bug) ? " [Rev A. bug]" : "");
 1.5      matt
 1.5      matt 	if (is_console)
 1.5      matt 		aprint_normal("%s: console\n", sc->gtmpsc_dev.dv_xname);
 1.5      matt
 1.1      matt #ifdef DDB
 1.5      matt 	if (is_console == 0)
 1.3      matt 		SDMA_IMASK_ENABLE(sc, SDMA_INTR_RXBUF(sc->gtmpsc_unit));
 1.1      matt #endif	/* DDB */
 1.1      matt
 1.1      matt 	splx(s);
 1.1      matt #ifdef KGDB
 1.1      matt 	/*
 1.1      matt 	 * Allow kgdb to "take over" this port.  If this is
 1.1      matt 	 * the kgdb device, it has exclusive use.
 1.1      matt 	 */
 1.1      matt 	if (sc->gtmpsc_unit == comkgdbport) {
 1.1      matt 		if (comkgdbport == 0) { /* FIXME */
 1.1      matt 			printf("%s(kgdb): cannot share with console\n",
 1.1      matt 				sc->gtmpsc_dev.dv_xname);
 1.1      matt 			return;
 1.1      matt 		}
 1.1      matt
 1.1      matt 		sc->gtmpsc_flags |= GTMPSCF_KGDB;
 1.1      matt 		printf("%s: kgdb\n", sc->gtmpsc_dev.dv_xname);
 1.1      matt 		gtmpsc_txflush(gtmpsc_scp[0]);
 1.1      matt 		kgdb_attach(gtmpsc_kgdb_getc, gtmpsc_kgdb_putc, NULL);
 1.1      matt 		kgdb_dev = 123; /* unneeded, only to satisfy some tests */
 1.1      matt 		gtmpsc_kgdb_attached = 1;
 1.3      matt 		SDMA_IMASK_ENABLE(sc, SDMA_INTR_RXBUF(sc->gtmpsc_unit));
 1.1      matt 		kgdb_connect(1);
 1.1      matt 	}
 1.1      matt #endif /* KGDB */
 1.1      matt }
 1.1      matt
 1.1      matt STATIC void
 1.1      matt gtmpscshutdown(struct gtmpsc_softc *sc)
 1.1      matt {
 1.1      matt 	struct tty *tp;
 1.1      matt 	int     s;
 1.1      matt
 1.1      matt #ifdef KGDB
 1.1      matt 	if (sc->gtmpsc_flags & GTMPSCF_KGDB != 0)
 1.1      matt 		return;
 1.1      matt #endif
 1.1      matt 	tp = sc->gtmpsc_tty;
 1.1      matt 	s = splserial();
 1.1      matt 	/* Fake carrier off */
 1.1      matt 	(void) (*tp->t_linesw->l_modem)(tp, 0);
 1.3      matt 	SDMA_IMASK_DISABLE(sc, SDMA_INTR_RXBUF(sc->gtmpsc_unit));
 1.1      matt 	splx(s);
 1.1      matt }
 1.1      matt
 1.1      matt int
1.13  christos gtmpscopen(dev_t dev, int flag, int mode, struct lwp *l)
 1.1      matt {
 1.1      matt 	struct gtmpsc_softc *sc;
 1.1      matt 	int unit = GTMPSCUNIT(dev);
 1.1      matt 	struct tty *tp;
 1.1      matt 	int s;
 1.1      matt 	int s2;
 1.1      matt 	int error;
1.10     perry
 1.1      matt 	if (unit >= gtmpsc_cd.cd_ndevs)
 1.1      matt 		return ENXIO;
 1.1      matt 	sc = gtmpsc_cd.cd_devs[unit];
 1.1      matt 	if (!sc)
 1.1      matt 		return ENXIO;
 1.1      matt #ifdef KGDB
 1.1      matt 	/*
 1.1      matt 	 * If this is the kgdb port, no other use is permitted.
 1.1      matt 	 */
 1.1      matt 	if (sc->gtmpsc_flags & GTMPSCF_KGDB != 0)
 1.1      matt 		return (EBUSY);
 1.1      matt #endif
 1.1      matt 	tp = sc->gtmpsc_tty;
 1.1      matt 	if (ISSET(tp->t_state, TS_ISOPEN) &&
 1.1      matt 	    ISSET(tp->t_state, TS_XCLUDE) &&
1.18        he 	    kauth_authorize_generic(l->l_proc->p_cred,
1.18        he 		 KAUTH_GENERIC_ISSUSER, &l->l_proc->p_acflag) != 0)
 1.1      matt 		return (EBUSY);
 1.1      matt
 1.1      matt 	s = spltty();
 1.1      matt
 1.1      matt 	if (!(tp->t_state & TS_ISOPEN)) {
 1.1      matt 		struct termios t;
 1.1      matt
 1.1      matt 		tp->t_dev = dev;
 1.1      matt 		s2 = splserial();
 1.3      matt 		SDMA_IMASK_ENABLE(sc, SDMA_INTR_RXBUF(unit));
 1.1      matt 		splx(s2);
 1.1      matt 		t.c_ispeed = 0;
 1.1      matt #if 0
 1.1      matt 		t.c_ospeed = TTYDEF_SPEED;
 1.1      matt #else
 1.1      matt 		t.c_ospeed = GT_MPSC_DEFAULT_BAUD_RATE;
 1.1      matt #endif
 1.1      matt 		t.c_cflag = TTYDEF_CFLAG;
 1.1      matt 		/* Make sure gtmpscparam() will do something. */
 1.1      matt 		tp->t_ospeed = 0;
 1.1      matt 		(void) gtmpscparam(tp, &t);
 1.1      matt 		tp->t_iflag = TTYDEF_IFLAG;
 1.1      matt 		tp->t_oflag = TTYDEF_OFLAG;
 1.1      matt 		tp->t_lflag = TTYDEF_LFLAG;
 1.1      matt 		ttychars(tp);
 1.1      matt 		ttsetwater(tp);
 1.1      matt 		s2 = splserial();
 1.1      matt 		/* Clear the input ring */
 1.1      matt 		sc->gtmpsc_rxfifo_putix = 0;
 1.1      matt 		sc->gtmpsc_rxfifo_getix = 0;
 1.1      matt 		sc->gtmpsc_rxfifo_navail = GTMPSC_RXFIFOSZ;
 1.1      matt 		gtmpsc_iflush(sc);
 1.1      matt 		splx(s2);
 1.1      matt 	}
 1.1      matt 	splx(s);
 1.1      matt 	error = ttyopen(tp, GTMPSCDIALOUT(dev), ISSET(flag, O_NONBLOCK));
 1.1      matt 	if (error)
 1.1      matt 		goto bad;
 1.1      matt
 1.1      matt 	error = (*tp->t_linesw->l_open)(dev, tp);
 1.1      matt 	if (error)
 1.1      matt 		goto bad;
 1.1      matt
 1.1      matt 	return (0);
 1.1      matt
 1.1      matt bad:
 1.1      matt 	if (!ISSET(tp->t_state, TS_ISOPEN) && tp->t_wopen == 0) {
 1.1      matt 		/*
 1.1      matt 		 * We failed to open the device, and nobody else had it opened.
 1.1      matt 		 * Clean up the state as appropriate.
 1.1      matt 		 */
 1.1      matt 		gtmpscshutdown(sc);
 1.1      matt 	}
 1.1      matt
 1.1      matt 	return (error);
 1.1      matt }
 1.1      matt
 1.1      matt int
1.13  christos gtmpscclose(dev_t dev, int flag, int mode, struct lwp *l)
 1.1      matt {
 1.1      matt 	int unit = GTMPSCUNIT(dev);
 1.1      matt 	struct gtmpsc_softc *sc = gtmpsc_cd.cd_devs[unit];
 1.1      matt 	struct tty *tp = sc->gtmpsc_tty;
 1.1      matt 	int s;
 1.1      matt
 1.1      matt 	s = splserial();
 1.1      matt 	if (!ISSET(tp->t_state, TS_ISOPEN)) {
 1.1      matt 		splx(s);
 1.1      matt 		return (0);
 1.1      matt 	}
 1.1      matt
 1.1      matt 	(*tp->t_linesw->l_close)(tp, flag);
 1.1      matt 	ttyclose(tp);
 1.1      matt 	if (!ISSET(tp->t_state, TS_ISOPEN) && tp->t_wopen == 0) {
 1.1      matt 		/*
 1.1      matt 		 * Although we got a last close, the device may still be in
 1.1      matt 		 * use; e.g. if this was the dialout node, and there are still
 1.1      matt 		 * processes waiting for carrier on the non-dialout node.
 1.1      matt 		 */
 1.1      matt 		gtmpscshutdown(sc);
 1.1      matt 	}
 1.1      matt
 1.1      matt 	splx(s);
 1.1      matt 	return (0);
 1.1      matt }
 1.1      matt
 1.1      matt int
 1.1      matt gtmpscread(dev_t dev, struct uio *uio, int flag)
 1.1      matt {
 1.1      matt 	struct gtmpsc_softc *sc = gtmpsc_cd.cd_devs[GTMPSCUNIT(dev)];
 1.1      matt 	struct tty *tp = sc->gtmpsc_tty;
1.10     perry
 1.1      matt 	return (*tp->t_linesw->l_read)(tp, uio, flag);
 1.1      matt }
 1.1      matt
 1.1      matt int
 1.1      matt gtmpscwrite(dev_t dev, struct uio *uio, int flag)
 1.1      matt {
 1.1      matt 	struct gtmpsc_softc *sc = gtmpsc_cd.cd_devs[GTMPSCUNIT(dev)];
 1.1      matt 	struct tty *tp = sc->gtmpsc_tty;
1.10     perry
 1.1      matt 	return (*tp->t_linesw->l_write)(tp, uio, flag);
 1.1      matt }
 1.1      matt
 1.1      matt int
1.13  christos gtmpscpoll(dev_t dev, int events, struct lwp *l)
 1.1      matt {
 1.1      matt 	struct gtmpsc_softc *sc = gtmpsc_cd.cd_devs[GTMPSCUNIT(dev)];
 1.1      matt 	struct tty *tp = sc->gtmpsc_tty;
 1.1      matt
1.13  christos 	return ((*tp->t_linesw->l_poll)(tp, events, l));
 1.1      matt }
 1.1      matt
 1.1      matt int
1.13  christos gtmpscioctl(dev_t dev, u_long cmd, caddr_t data, int flag, struct lwp *l)
 1.1      matt {
 1.1      matt 	struct gtmpsc_softc *sc = gtmpsc_cd.cd_devs[GTMPSCUNIT(dev)];
 1.1      matt 	struct tty *tp = sc->gtmpsc_tty;
 1.1      matt 	int error;
1.10     perry
1.13  christos 	if ((error = (*tp->t_linesw->l_ioctl)(tp, cmd, data, flag, l)) >= 0)
 1.1      matt 		return error;
1.13  christos 	if ((error = ttioctl(tp, cmd, data, flag, l)) >= 0)
 1.1      matt 		return error;
 1.1      matt 	return ENOTTY;
 1.1      matt }
 1.1      matt
 1.1      matt struct tty *
 1.1      matt gtmpsctty(dev_t dev)
 1.1      matt {
 1.1      matt 	struct gtmpsc_softc *sc = gtmpsc_cd.cd_devs[GTMPSCUNIT(dev)];
 1.1      matt
 1.1      matt 	return sc->gtmpsc_tty;
 1.1      matt }
 1.1      matt
 1.1      matt void
 1.1      matt gtmpscstop(struct tty *tp, int flag)
 1.1      matt {
 1.1      matt }
 1.1      matt
 1.1      matt STATIC void
 1.1      matt gtmpscstart(struct tty *tp)
 1.1      matt {
 1.4      matt 	struct gtmpsc_softc *sc;
 1.1      matt 	unsigned char *tba;
 1.1      matt 	unsigned int unit;
 1.1      matt 	int s, s2, tbc;
 1.1      matt
 1.1      matt 	unit = GTMPSCUNIT(tp->t_dev);
 1.4      matt 	sc = gtmpsc_cd.cd_devs[unit];
 1.1      matt 	if (sc == NULL)
 1.1      matt 		return;
 1.1      matt
 1.1      matt 	s = spltty();
 1.1      matt 	if (tp->t_state & (TS_TIMEOUT | TS_BUSY | TS_TTSTOP))
 1.1      matt 		goto out;
 1.1      matt 	if (sc->sc_tx_stopped)
 1.1      matt 		goto out;
 1.1      matt 	if (tp->t_outq.c_cc <= tp->t_lowat) {
 1.1      matt 		if ((tp->t_state & TS_ASLEEP) != 0) {
 1.1      matt 			tp->t_state &= ~TS_ASLEEP;
 1.1      matt 			wakeup(&tp->t_outq);
 1.1      matt 		}
 1.1      matt 		selwakeup(&tp->t_wsel);
 1.1      matt 		if (tp->t_outq.c_cc == 0)
 1.1      matt 			goto out;
 1.1      matt 	}
 1.1      matt
 1.1      matt 	/* Grab the first contiguous region of buffer space. */
 1.1      matt 	tba = tp->t_outq.c_cf;
 1.1      matt 	tbc = ndqb(&tp->t_outq, 0);
 1.1      matt
 1.1      matt 	s2 = splserial();
 1.1      matt
 1.1      matt 	sc->sc_tba = tba;
 1.1      matt 	sc->sc_tbc = tbc;
 1.1      matt 	sc->cnt_tx_from_ldisc += tbc;
 1.3      matt 	SDMA_IMASK_ENABLE(sc, SDMA_INTR_TXBUF(unit));
 1.1      matt 	tp->t_state |= TS_BUSY;
 1.1      matt 	sc->sc_tx_busy = 1;
 1.1      matt 	gtmpsc_common_putn(sc);
 1.1      matt
 1.1      matt 	splx(s2);
 1.1      matt out:
 1.1      matt 	splx(s);
 1.1      matt }
 1.1      matt
 1.1      matt STATIC int
 1.1      matt gtmpscparam(struct tty *tp, struct termios *t)
 1.1      matt {
 1.1      matt 	struct gtmpsc_softc *sc = gtmpsc_cd.cd_devs[GTMPSCUNIT(tp->t_dev)];
 1.1      matt 	int ospeed = compute_cdv(t->c_ospeed);
 1.1      matt 	int s;
 1.1      matt
 1.1      matt 	/* Check requested parameters. */
 1.1      matt 	if (ospeed < 0)
 1.1      matt 		return (EINVAL);
 1.1      matt 	if (t->c_ispeed && t->c_ispeed != t->c_ospeed)
 1.1      matt 		return (EINVAL);
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * If there were no changes, don't do anything.  This avoids dropping
 1.1      matt 	 * input and improves performance when all we did was frob things like
 1.1      matt 	 * VMIN and VTIME.
 1.1      matt 	 */
 1.1      matt 	if (tp->t_ospeed == t->c_ospeed &&
 1.1      matt 	    tp->t_cflag == t->c_cflag)
 1.1      matt 		return (0);
 1.1      matt
 1.1      matt 	s = splserial();
 1.1      matt
 1.4      matt 	sc->gtmpsc_brg_bcr = BRG_BCR_EN | GT_MPSC_CLOCK_SOURCE | ospeed;
 1.1      matt 	sc->gtmpsc_chr3 = GTMPSC_MAXIDLE(t->c_ospeed);
 1.1      matt
 1.1      matt 	/* And copy to tty. */
 1.1      matt 	tp->t_ispeed = 0;
 1.1      matt 	tp->t_ospeed = t->c_ospeed;
 1.1      matt 	tp->t_cflag = t->c_cflag;
 1.1      matt
 1.1      matt 	if (!sc->sc_heldchange) {
 1.1      matt 		if (sc->sc_tx_busy) {
 1.1      matt 			sc->sc_heldtbc = sc->sc_tbc;
 1.1      matt 			sc->sc_tbc = 0;
 1.1      matt 			sc->sc_heldchange = 1;
 1.1      matt 		} else
 1.1      matt 			gtmpsc_loadchannelregs(sc);
 1.1      matt 	}
 1.1      matt
 1.1      matt 	splx(s);
 1.1      matt
 1.1      matt 	/* Fake carrier on */
 1.1      matt 	(void) (*tp->t_linesw->l_modem)(tp, 1);
 1.1      matt
 1.1      matt 	return 0;
 1.1      matt }
 1.1      matt
 1.1      matt STATIC int
 1.1      matt gtmpsc_probe(void)
 1.1      matt {
 1.1      matt 	return 1;		/* XXX */
 1.1      matt }
 1.1      matt
 1.1      matt STATIC unsigned int
 1.1      matt gtmpsc_get_causes(void)
 1.1      matt {
 1.1      matt 	int                     i;
 1.1      matt 	struct gtmpsc_softc       *sc;
 1.1      matt 	unsigned int            cause = 0;
 1.1      matt 	static unsigned int     bits[4] = {
 1.1      matt 				SDMA_INTR_RXBUF(0),
 1.1      matt 				SDMA_INTR_TXBUF(0),
 1.1      matt 				SDMA_INTR_RXBUF(1),
 1.1      matt 				SDMA_INTR_TXBUF(1),
 1.1      matt 	};
 1.1      matt 	sdma_desc_t             *desc_addr[4];
 1.1      matt 	static unsigned int     fake_once = SDMA_INTR_RXBUF(0)
 1.1      matt 						| SDMA_INTR_RXBUF(1);
 1.1      matt
 1.1      matt 	desc_addr[0] = 0;
 1.1      matt 	desc_addr[1] = 0;
 1.1      matt 	desc_addr[2] = 0;
 1.1      matt 	desc_addr[3] = 0;
 1.1      matt 	sc = gtmpsc_cd.cd_devs[0];
 1.1      matt 	if (sc != 0) {
 1.1      matt 	    if (sdma_imask & SDMA_INTR_RXBUF(0)) {
 1.1      matt 		desc_addr[0] =
 1.1      matt 		    &sc->gtmpsc_poll_sdmapage->rx[sc->gtmpsc_poll_rxix].rxdesc;
 1.1      matt 		    GTMPSC_CACHE_INVALIDATE(desc_addr[0]);
1.14     perry 		    __asm volatile ("dcbt 0,%0" :: "r"(desc_addr[0]));
 1.1      matt 	    }
 1.1      matt 	    if (sdma_imask & SDMA_INTR_TXBUF(0)) {
 1.1      matt 		desc_addr[1] =
 1.1      matt 		    &sc->gtmpsc_poll_sdmapage->tx[sc->gtmpsc_poll_txix].txdesc;
 1.1      matt 		    GTMPSC_CACHE_INVALIDATE(desc_addr[1]);
1.14     perry 		    __asm volatile ("dcbt 0,%0" :: "r"(desc_addr[1]));
 1.1      matt 	    }
 1.1      matt 	}
 1.1      matt 	sc = gtmpsc_cd.cd_devs[1];
 1.1      matt 	if (sc != 0) {
 1.1      matt 	    if (sdma_imask & SDMA_INTR_RXBUF(1)) {
 1.1      matt 		desc_addr[2] =
 1.1      matt 		    &sc->gtmpsc_poll_sdmapage->rx[sc->gtmpsc_poll_rxix].rxdesc;
 1.1      matt 		    GTMPSC_CACHE_INVALIDATE(desc_addr[2]);
1.14     perry 		    __asm volatile ("dcbt 0,%0" :: "r"(desc_addr[2]));
 1.1      matt 	    }
 1.1      matt 	    if (sdma_imask & SDMA_INTR_TXBUF(1)) {
 1.1      matt 		desc_addr[3] =
 1.1      matt 		    &sc->gtmpsc_poll_sdmapage->tx[sc->gtmpsc_poll_txix].txdesc;
 1.1      matt 		    GTMPSC_CACHE_INVALIDATE(desc_addr[3]);
1.14     perry 		    __asm volatile ("dcbt 0,%0" :: "r"(desc_addr[3]));
 1.1      matt 	    }
 1.1      matt 	}
 1.1      matt
 1.1      matt 	for (i = 0; i < 4; ++i)
 1.1      matt 		if ((sdma_imask & bits[i]) && desc_addr[i] != 0 &&
 1.1      matt 			    (desc_addr[i]->sdma_csr & SDMA_CSR_TX_OWN) == 0)
 1.1      matt 			cause |= bits[i];
 1.1      matt 	if (fake_once & sdma_imask) {
 1.1      matt 		cause |= fake_once & sdma_imask;
 1.1      matt 	/*	fake_once &= ~(cause & fake_once); */
 1.1      matt 	}
 1.1      matt 	return cause;
 1.1      matt }
 1.1      matt
 1.1      matt STATIC int
 1.1      matt gtmpsc_intr(void *arg)
 1.1      matt {
 1.1      matt 	struct gtmpsc_softc       *sc;
 1.1      matt 	unsigned int            unit;
 1.1      matt 	int                     spurious = 1;
 1.1      matt 	unsigned int            r;
 1.1      matt 	unsigned int            cause=0;
 1.1      matt
 1.1      matt 	if (gt_reva_gtmpsc_bug)
 1.1      matt 		cause = gtmpsc_get_causes();
 1.1      matt
 1.1      matt #ifdef KGDB
 1.1      matt 	if (kgdb_break_immediate) {
 1.1      matt 		unit = comkgdbport;
 1.1      matt 		sc = gtmpsc_cd.cd_devs[unit];
 1.1      matt 		if (sc == 0 || (sc->gtmpsc_flags & GTMPSCF_KGDB) == 0)
 1.1      matt 			goto skip_kgdb;
 1.1      matt 		if (gt_reva_gtmpsc_bug)
 1.1      matt 			r = cause & sdma_imask;
 1.1      matt 		else {
 1.3      matt 			r = GT_READ(sc, SDMA_ICAUSE);
 1.3      matt 			r &= GT_READ(sc, SDMA_IMASK);
 1.1      matt 		}
 1.1      matt 		r &= SDMA_INTR_RXBUF(unit);
 1.1      matt 		if (r == 0)
 1.1      matt 			goto skip_kgdb;
 1.3      matt 		GT_WRITE(sc, SDMA_ICAUSE, ~r);
 1.1      matt 		spurious = 0;
 1.1      matt 		gtmpsc_kgdb_poll(sc);
 1.1      matt 	}
 1.1      matt skip_kgdb:
 1.1      matt #endif
 1.1      matt 	for (unit = 0; unit < GTMPSC_NCHAN; ++unit) {
 1.1      matt 		sc = gtmpsc_cd.cd_devs[unit];
 1.1      matt 		if (sc == 0)
 1.1      matt 			continue;
 1.1      matt 		if (gt_reva_gtmpsc_bug)
 1.1      matt 			r = cause & sdma_imask;
 1.1      matt 		else {
 1.3      matt 			r = GT_READ(sc, SDMA_ICAUSE);
 1.3      matt 			r &= GT_READ(sc, SDMA_IMASK);
 1.1      matt 		}
 1.1      matt 		r &= SDMA_U_INTR_MASK(unit);
 1.1      matt 		if (r == 0)
 1.1      matt 			continue;
 1.3      matt 		GT_WRITE(sc, SDMA_ICAUSE, ~r);
 1.1      matt 		spurious = 0;
 1.1      matt 		if (r & SDMA_INTR_RXBUF(unit)) {
 1.1      matt #ifdef KGDB
 1.1      matt 			if (sc->gtmpsc_flags & GTMPSCF_KGDB)
 1.1      matt 				gtmpsc_kgdb_poll(sc);
 1.1      matt 			else
 1.1      matt #endif
 1.1      matt 				gtmpsc_poll(sc);
 1.1      matt 		}
 1.1      matt 		if (r & SDMA_INTR_TXBUF(unit)) {
 1.1      matt 			/*
 1.1      matt 			 * If we've delayed a parameter change, do it now,
 1.1      matt 			 * and restart output.
 1.1      matt 			 */
 1.1      matt 			if (sc->sc_heldchange) {
 1.1      matt 				gtmpsc_loadchannelregs(sc);
 1.1      matt 				sc->sc_heldchange = 0;
 1.1      matt 				sc->sc_tbc = sc->sc_heldtbc;
 1.1      matt 				sc->sc_heldtbc = 0;
 1.1      matt 			}
 1.1      matt
 1.1      matt 			/* Output the next chunk of the contiguous buffer,
 1.1      matt 								if any. */
 1.1      matt 			if (sc->sc_tbc > 0)
 1.1      matt 				gtmpsc_common_putn(sc);
 1.1      matt 			if (sc->sc_tbc == 0 && sc->sc_tx_busy) {
 1.1      matt 				sc->sc_tx_busy = 0;
 1.1      matt 				sc->sc_tx_done = 1;
 1.3      matt 				softintr_schedule(sc->sc_si);
 1.3      matt 				SDMA_IMASK_DISABLE(sc, SDMA_INTR_TXBUF(unit));
 1.1      matt 			}
 1.1      matt 		}
 1.1      matt 	}
 1.1      matt 	return 1;
 1.1      matt 	/* return !spurious; */
 1.1      matt }
 1.1      matt
 1.3      matt STATIC void
 1.3      matt gtmpsc_softintr(void *arg)
 1.1      matt {
 1.3      matt 	struct gtmpsc_softc	*sc = arg;
 1.1      matt 	struct tty              *tp;
 1.2      matt 	int                     (*rint)(int, struct tty *);
 1.1      matt 	int                     jobs;
 1.1      matt 	int                     s;
 1.1      matt
 1.3      matt 	tp = sc->gtmpsc_tty;
 1.3      matt 	rint = tp->t_linesw->l_rint;
 1.3      matt 	do {
 1.3      matt 		jobs = 0;
 1.3      matt 		if (sc->gtmpsc_rxfifo_navail < GTMPSC_RXFIFOSZ) {
 1.1      matt 			s = spltty();
 1.1      matt 			rint(sc->gtmpsc_rxfifo[sc->gtmpsc_rxfifo_getix++],
 1.1      matt 								tp);
 1.1      matt 			if (sc->gtmpsc_rxfifo_getix >= GTMPSC_RXFIFOSZ)
 1.1      matt 				sc->gtmpsc_rxfifo_getix = 0;
 1.1      matt 			++sc->cnt_rx_from_fifo;
 1.1      matt 			/* atomic_add() returns the previous value */
 1.1      matt 			jobs += atomic_add(&sc->gtmpsc_rxfifo_navail, 1) + 1
 1.1      matt 								< GTMPSC_RXFIFOSZ;
 1.1      matt 			splx(s);
 1.3      matt 		}
 1.3      matt 		if (sc->sc_tx_done) {
 1.1      matt 			++jobs;
 1.1      matt 			sc->sc_tx_done = 0;
 1.1      matt 			s = spltty();
 1.1      matt 			tp->t_state &= ~TS_BUSY;
 1.1      matt 			if ((tp->t_state & TS_FLUSH) != 0)
 1.1      matt 			    tp->t_state &= ~TS_FLUSH;
 1.1      matt 			else
 1.1      matt 			    ndflush(&tp->t_outq, (int)(sc->sc_tba - tp->t_outq.c_cf));
 1.1      matt 			(*tp->t_linesw->l_start)(tp);
 1.1      matt 			splx(s);
 1.3      matt 		}
 1.3      matt 	} while (jobs);
 1.1      matt }
 1.1      matt
 1.1      matt /*
 1.1      matt  * Console support functions
 1.1      matt  */
 1.1      matt void
 1.1      matt gtmpsccnprobe(struct consdev *cd)
 1.1      matt {
 1.1      matt 	int maj;
 1.1      matt /* {extern void return_to_dink(int); return_to_dink(gtbase);} */
 1.1      matt
 1.1      matt 	if (!gtmpsc_probe())
 1.1      matt 		return;
 1.1      matt
 1.1      matt 	maj = cdevsw_lookup_major(&gtmpsc_cdevsw);
 1.1      matt 	cd->cn_dev = makedev(maj, 0);
 1.1      matt 	cd->cn_pri = CN_INTERNAL;
 1.1      matt }
 1.1      matt
 1.1      matt /*
 1.1      matt  * gtmpsc_hackinit - hacks required to supprt GTMPSC console
 1.1      matt  */
 1.1      matt STATIC void
 1.3      matt gtmpsc_hackinit(struct gtmpsc_softc *sc, bus_space_tag_t memt,
 1.3      matt 	bus_space_handle_t memh, int unit)
 1.1      matt {
 1.1      matt 	gtmpsc_poll_sdma_t *vmps;
 1.1      matt 	gtmpsc_poll_sdma_t *pmps;
 1.1      matt
 1.1      matt 	DPRINTF(("hackinit\n"));
 1.1      matt
 1.1      matt 	bzero(sc, sizeof(struct gtmpsc_softc));
 1.3      matt 	sc->gtmpsc_memt = memt;
 1.3      matt 	sc->gtmpsc_memh = memh;
 1.3      matt 	sc->gtmpsc_unit = unit;
 1.1      matt 	gtmpsc_scp[sc->gtmpsc_unit] = sc;
 1.1      matt
 1.1      matt 	vmps = (gtmpsc_poll_sdma_t *)gtmpsc_fake_dmapage;	/* KVA */
 1.1      matt 	pmps = (gtmpsc_poll_sdma_t *)gtmpsc_fake_dmapage;	/* PA */
 1.1      matt
 1.1      matt 	gtmpsc_txdesc_init(vmps, pmps);
 1.1      matt 	gtmpsc_rxdesc_init(vmps, pmps);
 1.1      matt
 1.1      matt 	sc->gtmpsc_poll_sdmapage = vmps;
 1.1      matt }
 1.1      matt
 1.1      matt /*
 1.1      matt  * gtmpsc_txflush - wait for output to drain
 1.1      matt  */
 1.1      matt STATIC void
 1.1      matt gtmpsc_txflush(gtmpsc_softc_t *sc)
 1.1      matt {
 1.1      matt 	unsigned int csr;
 1.1      matt 	unsigned int *csrp;
 1.1      matt 	gtmpsc_polltx_t *vtxp;
 1.1      matt 	int limit = 4000000;	/* 4 seconds */
 1.1      matt 	int ix;
 1.1      matt
 1.1      matt 	ix = sc->gtmpsc_poll_txix - 1;
 1.1      matt 	if (ix < 0)
 1.1      matt 		ix = GTMPSC_NTXDESC - 1;
 1.1      matt
 1.1      matt 	vtxp = &sc->gtmpsc_poll_sdmapage->tx[ix];
 1.1      matt 	csrp = &vtxp->txdesc.sdma_csr;
 1.1      matt 	while (limit > 0) {
 1.1      matt 		GTMPSC_CACHE_INVALIDATE(csrp);
 1.1      matt 		csr = desc_read(csrp);
 1.1      matt 		if ((csr & SDMA_CSR_TX_OWN) == 0)
 1.1      matt 			break;
 1.1      matt 		DELAY(GTMPSC_POLL_DELAY);
 1.1      matt 		limit -= GTMPSC_POLL_DELAY;
1.10     perry 	}
 1.1      matt }
 1.1      matt
 1.1      matt STATIC void
 1.1      matt gtmpsc_iflush(gtmpsc_softc_t *sc)
 1.1      matt {
 1.1      matt 	int     timo;
 1.1      matt 	char    c;
 1.1      matt 	int     stat;
 1.1      matt
 1.1      matt 	for (timo = 50000; timo; timo--)
 1.1      matt 		if (gtmpsc_common_pollc(sc->gtmpsc_unit, &c, &stat) == 0)
 1.1      matt 			return;
 1.1      matt #ifdef DIAGNOSTIC
 1.1      matt 	printf("%s: gtmpsc_iflush timeout %02x\n", sc->gtmpsc_dev.dv_xname, c);
 1.1      matt #endif
 1.1      matt }
 1.1      matt
 1.1      matt STATIC void
 1.1      matt gtmpscinit_stop(struct gtmpsc_softc *sc, int once)
 1.1      matt {
 1.1      matt 	unsigned int r;
 1.1      matt 	unsigned int unit = sc->gtmpsc_unit;
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * XXX HACK FIXME
 1.1      matt 	 * PMON output has not been flushed.  give him a chance
 1.1      matt 	 */
 1.1      matt #if 1
 1.1      matt 	if (! once)
 1.1      matt 		DELAY(100000);	/* XXX */
 1.1      matt #endif
 1.1      matt
 1.5      matt 	DPRINTF(("gtmpscinit_stop: unit 0x%x\n", unit));
 1.1      matt 	if (unit >= GTMPSC_NCHAN) {
 1.1      matt 		PRINTF(("mpscinit: undefined unit %d\n", sc->gtmpsc_unit));
 1.1      matt 		return;
 1.1      matt 	}
 1.1      matt
 1.1      matt 	sc->gtmpsc_chr2 = 0;      /* Default value of CHR2 */
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * stop GTMPSC unit
 1.1      matt 	 */
 1.1      matt 	r = sc->gtmpsc_chr2 | GTMPSC_CHR2_RXABORT|GTMPSC_CHR2_TXABORT;
 1.3      matt 	GT_WRITE(sc, GTMPSC_U_CHRN(unit, 2), r);
 1.1      matt
 1.1      matt 	DELAY(GTMPSC_RESET_DELAY);
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * abort SDMA TX, RX for GTMPSC unit
 1.1      matt 	 */
 1.4      matt 	GT_WRITE(sc, SDMA_U_SDCM(unit), SDMA_SDCM_AR|SDMA_SDCM_AT);
 1.1      matt
 1.1      matt 	if (once == 0) {
 1.1      matt 		/*
 1.1      matt 		 * Determine if this is the buggy GT-64260A case.
 1.1      matt 		 * If this is, then most of GTMPSC and SDMA registers
 1.1      matt 		 * are unreadable.
 1.1      matt 		 * (They always yield -1).
 1.1      matt 		 */
 1.3      matt 		GT_WRITE(sc, SDMA_IMASK, 0);
 1.3      matt 		r = GT_READ(sc, SDMA_IMASK);
 1.1      matt 		gt_reva_gtmpsc_bug = r == ~0;
 1.1      matt 		sdma_imask = 0;
 1.1      matt 	}
 1.7       scw
 1.7       scw 	/*
 1.7       scw 	 * If Rx is disabled, we don't need to wait around for
 1.7       scw 	 * abort completion.
 1.7       scw 	 */
 1.7       scw 	if ((GT_READ(sc, GTMPSC_U_MMCR_LO(unit)) & GTMPSC_MMCR_LO_ER) == 0)
 1.7       scw 		return;
 1.7       scw
 1.1      matt 	/*
 1.1      matt 	 * poll for GTMPSC RX abort completion
 1.1      matt 	 */
 1.1      matt 	if (gt_reva_gtmpsc_bug) {
 1.1      matt 		/* Sync up with the device first */
 1.3      matt 		r = GT_READ(sc, GTMPSC_U_CHRN(unit, 2));
 1.1      matt 		DELAY(GTMPSC_RESET_DELAY);
 1.1      matt 	} else
 1.1      matt 		for (;;) {
 1.5      matt 			r = GT_READ(sc, GTMPSC_U_CHRN(unit, 2));
 1.1      matt 			if (! (r & GTMPSC_CHR2_RXABORT))
 1.1      matt 				break;
 1.1      matt 		}
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * poll for SDMA RX abort completion
 1.1      matt 	 */
 1.1      matt 	for (;;) {
 1.3      matt 		r = GT_READ(sc, SDMA_U_SDCM(unit));
 1.5      matt 		if (! (r & (SDMA_SDCM_AR|SDMA_SDCM_AT)))
 1.1      matt 			break;
 1.5      matt 		DELAY(50);
 1.1      matt 	}
 1.1      matt
 1.1      matt }
 1.1      matt
 1.1      matt STATIC void
 1.1      matt gtmpscinit_start(struct gtmpsc_softc *sc, int once)
 1.1      matt {
 1.1      matt 	unsigned int r;
 1.1      matt 	unsigned int unit = sc->gtmpsc_unit;
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * initialize softc's "current" transfer indicies & counts
 1.1      matt 	 */
 1.1      matt 	sc->gtmpsc_cx = 0;
 1.1      matt 	sc->gtmpsc_nc = 0;
 1.1      matt 	sc->gtmpsc_poll_txix = 0;
 1.1      matt 	sc->gtmpsc_poll_rxix = 0;
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * initialize softc's RX softintr FIFO
 1.1      matt 	 */
 1.1      matt 	sc->gtmpsc_rxfifo_putix = 0;
 1.1      matt 	sc->gtmpsc_rxfifo_getix = 0;
 1.1      matt 	sc->gtmpsc_rxfifo_navail = GTMPSC_RXFIFOSZ;
 1.1      matt 	memset(&sc->gtmpsc_rxfifo[0], 0, GTMPSC_RXFIFOSZ);
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * set SDMA unit port TX descriptor pointers
 1.1      matt 	 * "next" pointer of last descriptor is start of ring
 1.1      matt 	 */
 1.1      matt 	r = desc_read(
 1.5      matt 	    &sc->gtmpsc_poll_sdmapage->tx[GTMPSC_NTXDESC-1].txdesc.sdma_next);
 1.3      matt 	GT_WRITE(sc, SDMA_U_SCTDP(unit), r);   /* current */
 1.5      matt 	(void)GT_READ(sc, SDMA_U_SCTDP(unit));
 1.3      matt 	GT_WRITE(sc, SDMA_U_SFTDP(unit), r);   /* first   */
 1.5      matt 	(void)GT_READ(sc, SDMA_U_SFTDP(unit));
 1.1      matt 	/*
 1.1      matt 	 * set SDMA unit port RX descriptor pointer
 1.1      matt 	 * "next" pointer of last descriptor is start of ring
 1.1      matt 	 */
 1.1      matt 	r = desc_read(
 1.5      matt 	    &sc->gtmpsc_poll_sdmapage->rx[GTMPSC_NRXDESC-1].rxdesc.sdma_next);
 1.3      matt 	GT_WRITE(sc, SDMA_U_SCRDP(unit), r);   /* current */
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * initialize SDMA unit Configuration Register
 1.1      matt 	 */
 1.1      matt 	r = SDMA_SDC_BSZ_8x64|SDMA_SDC_SFM|SDMA_SDC_RFT;
 1.3      matt 	GT_WRITE(sc, SDMA_U_SDC(unit), r);
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * enable SDMA receive
 1.1      matt 	 */
 1.3      matt 	GT_WRITE(sc, SDMA_U_SDCM(unit), SDMA_SDCM_ERD);
 1.1      matt
 1.5      matt 	if (once == 0) {
 1.1      matt 		/*
 1.1      matt 		 * GTMPSC Routing:
 1.1      matt 		 *	MR0 --> Serial Port 0
 1.1      matt 		 *	MR1 --> Serial Port 1
 1.1      matt 		 */
 1.3      matt 		GT_WRITE(sc, GTMPSC_MRR, GTMPSC_MRR_RES);
1.10     perry
 1.1      matt 		/*
 1.1      matt 		 * RX and TX Clock Routing:
 1.1      matt 		 *      CRR0 --> BRG0
 1.1      matt 		 *      CRR1 --> BRG1
 1.1      matt 		 */
 1.1      matt 		r = GTMPSC_CRR_BRG0 | (GTMPSC_CRR_BRG1 << GTMPSC_CRR1_SHIFT);
 1.3      matt 		GT_WRITE(sc, GTMPSC_RCRR, r);
 1.3      matt 		GT_WRITE(sc, GTMPSC_TCRR, r);
 1.1      matt 	}
 1.4      matt 	sc->gtmpsc_brg_bcr = BRG_BCR_EN | GT_MPSC_CLOCK_SOURCE |
 1.4      matt 	    compute_cdv(GT_MPSC_DEFAULT_BAUD_RATE);
 1.1      matt 	sc->gtmpsc_chr3 = GTMPSC_MAXIDLE(GT_MPSC_DEFAULT_BAUD_RATE);
 1.1      matt 	gtmpsc_loadchannelregs(sc);
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * set MPSC Protocol configuration register for GTMPSC unit
 1.1      matt 	 */
 1.3      matt 	GT_WRITE(sc, GTMPSC_U_MPCR(unit), GTMPSC_MPCR_CL_8);
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * set MPSC LO and HI port config registers for GTMPSC unit
 1.1      matt  	 */
 1.1      matt 	r = GTMPSC_MMCR_LO_MODE_UART
 1.1      matt 	   |GTMPSC_MMCR_LO_ET
 1.1      matt 	   |GTMPSC_MMCR_LO_ER
 1.1      matt 	   |GTMPSC_MMCR_LO_NLM;
 1.3      matt 	GT_WRITE(sc, GTMPSC_U_MMCR_LO(unit), r);
 1.1      matt
 1.1      matt 	r =
 1.1      matt 	    GTMPSC_MMCR_HI_TCDV_DEFAULT
 1.1      matt 	   |GTMPSC_MMCR_HI_RDW
 1.1      matt 	   |GTMPSC_MMCR_HI_RCDV_DEFAULT;
 1.3      matt 	GT_WRITE(sc, GTMPSC_U_MMCR_HI(unit), r);
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * tell MPSC receive the Enter Hunt
 1.1      matt 	 */
 1.1      matt 	r = sc->gtmpsc_chr2 | GTMPSC_CHR2_EH;
 1.3      matt 	GT_WRITE(sc, GTMPSC_U_CHRN(unit, 2), r);
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * clear any pending SDMA interrupts for this unit
 1.1      matt 	 */
 1.3      matt 	r = GT_READ(sc, SDMA_ICAUSE);
 1.1      matt 	r &= ~SDMA_U_INTR_MASK(unit);
 1.3      matt 	GT_WRITE(sc, SDMA_ICAUSE, r);	/* ??? */
 1.1      matt
 1.1      matt 	DPRINTF(("gtmpscinit: OK\n"));
 1.1      matt }
 1.1      matt
 1.1      matt /*
 1.1      matt  * gtmpscinit - prepare MPSC for operation
 1.1      matt  *
 1.1      matt  *	assumes we are called at ipl >= IPL_SERIAL
 1.1      matt  */
 1.1      matt STATIC void
 1.1      matt gtmpscinit(struct gtmpsc_softc *sc)
 1.1      matt {
 1.1      matt 	static int once = 0;
 1.1      matt
 1.1      matt 	gtmpscinit_stop(sc, once);
 1.1      matt 	gtmpscinit_start(sc, once);
 1.5      matt 	once = 1;
 1.1      matt }
 1.1      matt
 1.1      matt /*
 1.1      matt  * gtmpsccninit - initialize the driver and the mpsc device
 1.1      matt  */
 1.1      matt void
 1.1      matt gtmpsccninit(struct consdev *cd)
 1.1      matt {
 1.1      matt }
 1.1      matt
 1.1      matt int
 1.1      matt gtmpsccngetc(dev_t dev)
 1.1      matt {
 1.4      matt 	unsigned int unit = 0;
 1.1      matt 	int c;
1.10     perry
 1.1      matt 	unit = GTMPSCUNIT(dev);
 1.4      matt 	if (major(dev) != 0) {
 1.4      matt 		struct gtmpsc_softc *sc = device_lookup(&gtmpsc_cd, unit);
 1.4      matt 		if (sc == NULL)
 1.4      matt 			return 0;
 1.4      matt 		unit = sc->gtmpsc_unit;
 1.4      matt 	}
 1.1      matt 	if (unit >= GTMPSC_NCHAN)
 1.1      matt 		return 0;
 1.1      matt 	c = gtmpsc_common_getc(unit);
 1.1      matt
 1.1      matt 	return c;
 1.1      matt }
 1.1      matt
 1.1      matt void
 1.1      matt gtmpsccnputc(dev_t dev, int c)
 1.1      matt {
 1.4      matt 	unsigned int unit = 0;
 1.1      matt 	char ch = c;
 1.1      matt 	static int ix = 0;
1.10     perry
 1.1      matt 	if (gtmpsccninit_done == 0) {
 1.1      matt 		if ((minor(dev) == 0) && (ix < sizeof(gtmpsc_earlybuf)))
 1.1      matt 			gtmpsc_earlybuf[ix++] = (unsigned char)c;
 1.1      matt 		return;
 1.1      matt 	}
 1.1      matt
 1.1      matt 	unit = GTMPSCUNIT(dev);
 1.4      matt 	if (major(dev) != 0) {
 1.4      matt 		struct gtmpsc_softc *sc = device_lookup(&gtmpsc_cd, unit);
 1.4      matt 		if (sc == NULL)
 1.4      matt 			return;
 1.4      matt 		unit = sc->gtmpsc_unit;
 1.4      matt 	}
 1.1      matt
 1.1      matt 	if (unit >= GTMPSC_NCHAN)
 1.1      matt 		return;
 1.4      matt
 1.1      matt 	gtmpsc_common_putc(unit, ch);
 1.1      matt }
 1.1      matt
 1.1      matt void
 1.1      matt gtmpsccnpollc(dev_t dev, int on)
 1.1      matt {
 1.1      matt }
 1.1      matt
 1.3      matt int
 1.3      matt gtmpsccnattach(bus_space_tag_t memt, bus_space_handle_t memh, int unit,
 1.3      matt 	int speed, tcflag_t tcflag)
 1.3      matt {
 1.3      matt 	struct gtmpsc_softc *sc = &gtmpsc_fake_softc;
 1.3      matt 	unsigned char *cp;
 1.3      matt 	unsigned char c;
 1.3      matt 	unsigned int i;
 1.3      matt
 1.4      matt 	if (gtmpsccninit_done)
 1.4      matt 		return 0;
 1.4      matt
 1.4      matt 	DPRINTF(("gtmpsccnattach\n"));
 1.3      matt 	gtmpsc_hackinit(sc, memt, memh, unit);
 1.4      matt 	DPRINTF(("gtmpscinit\n"));
 1.3      matt 	gtmpscinit(sc);
 1.3      matt 	gtmpsccninit_done = 1;
 1.3      matt 	cp = gtmpsc_earlybuf;
 1.4      matt 	strcpy(gtmpsc_earlybuf, "\r\nMPSC Lives!\r\n");
 1.3      matt 	for (i=0; i < sizeof(gtmpsc_earlybuf); i++) {
 1.3      matt 		c = *cp++;
 1.3      matt 		if (c == 0)
 1.3      matt 			break;
 1.4      matt 		gtmpsc_common_putc(unit, c);
 1.3      matt 	}
 1.4      matt 	DPRINTF(("switching cn_tab\n"));
 1.4      matt 	gtmpsc_consdev.cn_dev = makedev(0, unit);
 1.4      matt 	cn_tab = &gtmpsc_consdev;
 1.4      matt 	DPRINTF(("switched cn_tab!\n"));
 1.3      matt 	return 0;
 1.3      matt }
 1.3      matt
 1.1      matt /*
 1.1      matt  * gtmpsc_common_pollc - non-blocking console read
 1.1      matt  *
 1.1      matt  *	if there is an RX char, return it in *cp
 1.1      matt  *	set *statp if Break detected
 1.1      matt  *
 1.1      matt  *	assumes we are called at ipl >= IPL_SERIAL
 1.1      matt  *
 1.1      matt  * return 1 if there is RX data
 1.1      matt  * otherwise return 0
 1.1      matt  */
 1.1      matt STATIC int
 1.1      matt gtmpsc_common_pollc(unsigned int unit, char *cp, int *statp)
 1.1      matt {
 1.1      matt 	struct gtmpsc_softc *sc = gtmpsc_scp[unit];
 1.1      matt 	gtmpsc_pollrx_t *vrxp;
 1.1      matt 	unsigned int ix;
 1.1      matt 	unsigned int cx;
 1.1      matt 	unsigned int nc;
 1.1      matt
 1.1      matt 	*statp = GTMPSC_STAT_NONE;
 1.1      matt 	ix = sc->gtmpsc_poll_rxix;
 1.1      matt 	nc = sc->gtmpsc_nc;
 1.1      matt 	cx = sc->gtmpsc_cx;
 1.1      matt 	if (nc == 0) {
 1.1      matt 		unsigned int *csrp;
 1.1      matt 		unsigned int csr;
 1.1      matt
 1.1      matt 		vrxp = &sc->gtmpsc_poll_sdmapage->rx[ix];
 1.1      matt 		csrp = &vrxp->rxdesc.sdma_csr;
 1.1      matt 		cx = 0;
 1.1      matt
 1.1      matt 		GTMPSC_CACHE_INVALIDATE(csrp);
 1.1      matt 		csr = desc_read(csrp);
 1.1      matt 		if (csr & SDMA_CSR_RX_OWN)
 1.1      matt 			return 0;
 1.1      matt 		if (csr & SDMA_CSR_RX_BR)
 1.1      matt 			*statp = GTMPSC_STAT_BREAK;
 1.1      matt 		if (csr & SDMA_CSR_RX_ES)
 1.1      matt 			PRINTF(("mpsc 0 RX error, rxdesc csr 0x%x\n", csr));
 1.1      matt
 1.1      matt 		nc = desc_read(&vrxp->rxdesc.sdma_cnt);
 1.1      matt 		nc &= SDMA_RX_CNT_BCNT_MASK;
 1.1      matt 		csr = SDMA_CSR_RX_L|SDMA_CSR_RX_F|SDMA_CSR_RX_OWN
 1.1      matt 							      |SDMA_CSR_RX_EI;
 1.1      matt 		if (nc == 0) {
 1.1      matt 			if ((++ix) >= GTMPSC_NRXDESC)
 1.1      matt 				ix = 0;
 1.1      matt 			sc->gtmpsc_poll_rxix = ix;
 1.1      matt 			desc_write(csrp, csr);
 1.1      matt 			GTMPSC_CACHE_FLUSH(csrp);
 1.1      matt 			return 0;
 1.1      matt 		}
 1.1      matt 		bcopy(vrxp->rxbuf, sc->gtmpsc_rxbuf, nc);
 1.1      matt 		desc_write(csrp, csr);
 1.1      matt 		GTMPSC_CACHE_FLUSH(csrp);
 1.1      matt 	}
 1.1      matt 	gtmpsc_poll_pollc_cnt++;
 1.1      matt 	nc--;
 1.1      matt 	*cp = sc->gtmpsc_rxbuf[cx++];
 1.1      matt 	if (nc == 0) {
 1.1      matt 		if ((++ix) >= GTMPSC_NRXDESC)
 1.1      matt 			ix = 0;
 1.1      matt 		sc->gtmpsc_poll_rxix = ix;
 1.1      matt 	}
 1.1      matt 	sc->gtmpsc_cx = cx;
 1.1      matt 	sc->gtmpsc_nc = nc;
 1.1      matt 	return 1;
 1.1      matt }
 1.1      matt
 1.1      matt /*
 1.1      matt  * gtmpsc_common_getc - polled console read
 1.1      matt  *
 1.1      matt  *	We copy data from the DMA buffers into a buffer in the softc
 1.1      matt  *	to reduce descriptor ownership turnaround time
 1.1      matt  *	MPSC can crater if it wraps descriptor rings,
 1.1      matt  *	which is asynchronous and throttled only by line speed.
 1.1      matt  *
 1.1      matt  *	This code assumes the buffer PA==KVA
 1.1      matt  *	and assumes we are called at ipl >= IPL_SERIAL
 1.1      matt  */
 1.1      matt STATIC int
 1.1      matt gtmpsc_common_getc(unsigned int unit)
 1.1      matt {
 1.1      matt 	struct gtmpsc_softc *sc = gtmpsc_scp[unit];
 1.1      matt 	gtmpsc_pollrx_t *vrxp;
 1.1      matt 	unsigned int ix;
 1.1      matt 	unsigned int cx;
 1.1      matt 	unsigned int nc;
 1.8       scw 	unsigned int wdog_interval;
 1.1      matt 	int c;
 1.1      matt
 1.1      matt 	ix = sc->gtmpsc_poll_rxix;
 1.1      matt 	nc = sc->gtmpsc_nc;
 1.1      matt 	cx = sc->gtmpsc_cx;
 1.8       scw 	wdog_interval = 0;
 1.1      matt 	while (nc == 0) {
 1.1      matt 		unsigned int *csrp;
 1.1      matt 		unsigned int csr;
 1.1      matt 		unsigned int r;
 1.1      matt
 1.1      matt 		vrxp = &sc->gtmpsc_poll_sdmapage->rx[ix];
 1.1      matt 		csrp = &vrxp->rxdesc.sdma_csr;
 1.1      matt 		cx = 0;
 1.1      matt
 1.1      matt 		GTMPSC_CACHE_INVALIDATE(csrp);
 1.1      matt 		csr = desc_read(csrp);
 1.1      matt 		if (csr & SDMA_CSR_RX_OWN) {
 1.1      matt 			r = sc->gtmpsc_chr2 | GTMPSC_CHR2_CRD;
 1.4      matt 			GT_WRITE(sc, GTMPSC_U_CHRN(unit, 2), r);
 1.1      matt 			do {
 1.8       scw 				if (wdog_interval++ % 32)
 1.8       scw 					gt_watchdog_service();
 1.1      matt 				gtmpsc_poll_getc_miss++;
 1.1      matt 				GTMPSC_CACHE_INVALIDATE(csrp);
 1.4      matt 				DELAY(50);
 1.1      matt 				csr = desc_read(csrp);
 1.1      matt 			} while (csr & SDMA_CSR_RX_OWN);
 1.8       scw 		} else
 1.8       scw 		if (wdog_interval++ % 32)
 1.8       scw 			gt_watchdog_service();
 1.1      matt 		if (csr & SDMA_CSR_RX_ES)
 1.1      matt 			PRINTF(("mpsc 0 RX error, rxdesc csr 0x%x\n", csr));
 1.1      matt
 1.1      matt 		nc = desc_read(&vrxp->rxdesc.sdma_cnt);
 1.1      matt 		nc &= SDMA_RX_CNT_BCNT_MASK;
 1.1      matt 		if (nc) {
 1.1      matt 			bcopy(vrxp->rxbuf, sc->gtmpsc_rxbuf, nc);
 1.1      matt 		} else {
 1.1      matt 			if ((++ix) >= GTMPSC_NRXDESC)
 1.1      matt 				ix = 0;
 1.1      matt 			sc->gtmpsc_poll_rxix = ix;
 1.1      matt 		}
 1.1      matt 		csr = SDMA_CSR_RX_L|SDMA_CSR_RX_F|SDMA_CSR_RX_OWN
 1.1      matt 							|SDMA_CSR_RX_EI;
 1.1      matt 		desc_write(csrp, csr);
 1.1      matt 		GTMPSC_CACHE_FLUSH(csrp);
 1.1      matt #ifdef KGDB
 1.1      matt 		if (unit == comkgdbport && gt_reva_gtmpsc_bug)
 1.4      matt 			GT_WRITE(sc, SDMA_ICAUSE, ~SDMA_INTR_RXBUF(unit));
 1.1      matt #endif
 1.1      matt 	}
 1.1      matt 	gtmpsc_poll_getc_cnt++;
 1.1      matt 	nc--;
 1.1      matt 	c = (int)sc->gtmpsc_rxbuf[cx++];
 1.1      matt 	if (nc == 0) {
 1.1      matt 		if ((++ix) >= GTMPSC_NRXDESC)
 1.1      matt 			ix = 0;
 1.1      matt 		sc->gtmpsc_poll_rxix = ix;
 1.1      matt 	}
 1.1      matt 	sc->gtmpsc_cx = cx;
 1.1      matt 	sc->gtmpsc_nc = nc;
 1.8       scw 	gt_watchdog_service();
 1.1      matt 	return c;
 1.1      matt }
 1.1      matt
 1.1      matt /*
 1.1      matt  * gtmpsc_common_putn - write a buffer into the hardware
 1.1      matt  *
 1.1      matt  *	assumes we are called at ipl >= IPL_SERIAL
 1.1      matt  */
 1.1      matt STATIC void
 1.1      matt gtmpsc_common_putn(struct gtmpsc_softc *sc)
 1.1      matt
 1.1      matt {
 1.1      matt 	int     unit = sc->gtmpsc_unit;
 1.1      matt 	int     n;
 1.1      matt 	int     kick;
 1.1      matt 	gtmpsc_polltx_t *vtxp;
 1.1      matt 	unsigned int *csrp;
 1.1      matt 	unsigned int csr;
 1.1      matt 	unsigned int ix;
 1.1      matt 	unsigned int sdcm;
 1.1      matt
 1.1      matt 	kick = 0;
 1.1      matt 	for (ix = sc->gtmpsc_poll_txix; sc->sc_tbc;) {
 1.1      matt 		vtxp = &sc->gtmpsc_poll_sdmapage->tx[ix];
 1.1      matt 		csrp = &vtxp->txdesc.sdma_csr;
 1.1      matt 		GTMPSC_CACHE_INVALIDATE(csrp);
 1.1      matt 		csr = desc_read(csrp);
 1.1      matt 		if ((csr & SDMA_CSR_TX_OWN) != 0)
 1.1      matt 			break;
 1.1      matt 		n = sc->sc_tbc;
 1.1      matt 		if (n > GTMPSC_TXBUFSZ)
 1.1      matt 			n = GTMPSC_TXBUFSZ;
 1.1      matt 		bcopy(sc->sc_tba, vtxp->txbuf, n);
 1.1      matt 		csr = SDMA_CSR_TX_L | SDMA_CSR_TX_F
 1.1      matt 					| SDMA_CSR_TX_EI | SDMA_CSR_TX_OWN;
 1.1      matt 		desc_write(&vtxp->txdesc.sdma_cnt,
 1.1      matt 				(n << SDMA_TX_CNT_BCNT_SHIFT) | n);
 1.1      matt 		desc_write(csrp, csr);
 1.1      matt 		GTMPSC_CACHE_FLUSH(csrp);
 1.1      matt 		sc->sc_tbc -= n;
 1.1      matt 		sc->sc_tba += n;
 1.1      matt 		gtmpsc_poll_putn_cnt += n;
 1.1      matt 		sc->cnt_tx_to_sdma += n;
 1.1      matt 		kick = 1;
 1.1      matt
 1.1      matt 		if (++ix >= GTMPSC_NTXDESC)
 1.1      matt 			ix = 0;
 1.1      matt 	}
 1.1      matt 	if (kick) {
 1.1      matt 		sc->gtmpsc_poll_txix = ix;
 1.1      matt
 1.1      matt 		/*
 1.1      matt 		 * now kick some SDMA
 1.1      matt 		 */
 1.3      matt 		sdcm = GT_READ(sc, SDMA_U_SDCM(unit));
 1.1      matt
 1.1      matt 		if ((sdcm & SDMA_SDCM_TXD) == 0) {
 1.4      matt 			GT_WRITE(sc, SDMA_U_SDCM(unit), SDMA_SDCM_TXD);
 1.1      matt 		}
 1.1      matt 	}
 1.1      matt }
 1.1      matt
 1.1      matt /*
 1.1      matt  * gtmpsc_common_putc - polled console putc
 1.1      matt  *
 1.1      matt  *	assumes we are called at ipl >= IPL_SERIAL
 1.1      matt  */
 1.1      matt STATIC void
 1.1      matt gtmpsc_common_putc(unsigned int unit, unsigned char c)
 1.1      matt {
 1.1      matt 	struct gtmpsc_softc *sc = gtmpsc_scp[unit];
 1.1      matt 	gtmpsc_polltx_t *vtxp;
 1.1      matt 	unsigned int *csrp;
 1.1      matt 	unsigned int csr;
 1.1      matt 	unsigned int ix;
 1.1      matt 	unsigned int nix;
 1.8       scw 	unsigned int wdog_interval = 0;
 1.1      matt
 1.5      matt 	DPRINTF(("gtmpsc_common_putc(%d, '%c'): cur=%#x, first=%#x", unit, c,
 1.5      matt 	    GT_READ(sc, SDMA_U_SCTDP(unit)),   /* current */
 1.5      matt 	    GT_READ(sc, SDMA_U_SFTDP(unit))));   /* first   */
 1.1      matt 	ix = sc->gtmpsc_poll_txix;
 1.1      matt 	nix = ix + 1;
 1.1      matt 	if (nix >= GTMPSC_NTXDESC)
 1.1      matt 		nix = 0;
 1.1      matt 	sc->gtmpsc_poll_txix = nix;
 1.1      matt 	vtxp = &sc->gtmpsc_poll_sdmapage->tx[ix];
 1.1      matt 	csrp = &vtxp->txdesc.sdma_csr;
 1.1      matt
 1.5      matt
 1.1      matt 	for (;;) {
 1.1      matt 		GTMPSC_CACHE_INVALIDATE(csrp);
 1.1      matt 		csr = desc_read(csrp);
 1.1      matt 		if ((csr & SDMA_CSR_TX_OWN) == 0)
 1.1      matt 			break;
 1.1      matt 		gtmpsc_poll_putc_miss++;
 1.5      matt 		DELAY(40);
 1.5      matt 		DPRINTF(("."));
 1.8       scw 		if (wdog_interval++ % 32)
 1.8       scw 			gt_watchdog_service();
 1.1      matt 	}
 1.1      matt 	if (csr & SDMA_CSR_TX_ES)
 1.5      matt 		PRINTF(("mpsc %d TX error, txdesc csr 0x%x\n", unit, csr));
 1.1      matt
 1.1      matt 	gtmpsc_poll_putc_cnt++;
 1.1      matt 	vtxp->txbuf[0] = c;
 1.5      matt 	csr = SDMA_CSR_TX_L | SDMA_CSR_TX_F | SDMA_CSR_TX_EI | SDMA_CSR_TX_OWN;
 1.1      matt 	desc_write(&vtxp->txdesc.sdma_cnt, (1 << SDMA_TX_CNT_BCNT_SHIFT) | 1);
 1.1      matt 	desc_write(csrp, csr);
 1.1      matt 	GTMPSC_CACHE_FLUSH(csrp);
 1.1      matt
 1.1      matt 	/*
 1.1      matt 	 * now kick some SDMA
 1.1      matt 	 */
 1.5      matt 	GT_WRITE(sc, SDMA_U_SDCM(unit), SDMA_SDCM_TXD);
 1.8       scw 	gt_watchdog_service();
 1.1      matt }
 1.1      matt
 1.1      matt
 1.1      matt STATIC void
 1.1      matt gtmpsc_poll(void *arg)
 1.1      matt {
 1.1      matt 	struct gtmpsc_softc *sc = (struct gtmpsc_softc *)arg;
 1.1      matt 	int kick;
 1.1      matt 	char ch;
 1.1      matt 	int stat;
 1.1      matt 	static struct timeval   msg_time = {0,0};
 1.1      matt 	static struct timeval   cur_time;
 1.1      matt 	static int fifo_full = 0;
 1.1      matt
 1.1      matt 	kick = 0;
 1.1      matt 	while (gtmpsc_common_pollc(sc->gtmpsc_unit, &ch, &stat)) {
 1.1      matt #ifdef DDB
 1.1      matt 		if (stat)
 1.1      matt 			break;
 1.1      matt #endif
 1.1      matt 		++sc->cnt_rx_from_sdma;
 1.1      matt 		if (sc->gtmpsc_rxfifo_navail != 0) {
 1.1      matt 			sc->gtmpsc_rxfifo[sc->gtmpsc_rxfifo_putix++] = ch;
 1.1      matt 			if (sc->gtmpsc_rxfifo_putix == GTMPSC_RXFIFOSZ)
 1.1      matt 				sc->gtmpsc_rxfifo_putix = 0;
 1.1      matt 			atomic_add(&sc->gtmpsc_rxfifo_navail, -1);
 1.1      matt 			++sc->cnt_rx_to_fifo;
 1.1      matt 			fifo_full = 0;
 1.1      matt 			kick = 1;
 1.1      matt 		} else {
 1.1      matt 			if (fifo_full == 0) {
 1.1      matt 				fifo_full = 1;
 1.1      matt 				microtime(&cur_time);
 1.1      matt 				if (cur_time.tv_sec - msg_time.tv_sec >= 5) {
 1.1      matt 					/* Only do this once in 5 sec */
 1.1      matt 					msg_time = cur_time;
 1.1      matt 					printf("mpsc%d: input FIFO full, "
 1.1      matt 					       "dropping incoming characters\n",
 1.1      matt 					       sc->gtmpsc_unit);
 1.1      matt 				}
 1.1      matt 			}
 1.1      matt 		}
 1.1      matt 	}
 1.1      matt #ifdef DDB
 1.1      matt 	if (stat) {
 1.4      matt 		if (cn_tab == &gtmpsc_consdev) {
 1.1      matt 			Debugger();
 1.4      matt 		}
 1.1      matt 	}
 1.1      matt #endif
 1.1      matt 	if (kick)
 1.3      matt 		softintr_schedule(sc->sc_si);
 1.1      matt }
 1.1      matt
 1.1      matt #ifdef KGDB
 1.1      matt /* ARGSUSED */
 1.1      matt STATIC int
 1.1      matt gtmpsc_kgdb_getc(arg)
 1.1      matt 	void *arg;
 1.1      matt {
 1.1      matt
 1.1      matt 	return (gtmpsc_common_getc(comkgdbport));
 1.1      matt }
 1.1      matt
 1.1      matt /* ARGSUSED */
 1.1      matt STATIC void
 1.1      matt gtmpsc_kgdb_putc(arg, c)
 1.1      matt 	void *arg;
 1.1      matt 	int c;
 1.1      matt {
 1.1      matt
 1.1      matt 	return (gtmpsc_common_putc(comkgdbport, c));
 1.1      matt }
 1.1      matt
 1.1      matt STATIC void
 1.1      matt gtmpsc_kgdb_poll(void *arg)
 1.1      matt {
 1.1      matt 	struct gtmpsc_softc       *sc = (struct gtmpsc_softc *)arg;
 1.1      matt 	int                     s;
 1.1      matt 	char                    c;
 1.1      matt 	int                     brk;
 1.1      matt
1.10     perry 	s = splserial();
 1.1      matt 	if (kgdb_recover == 0) { /* gdb is not currently talking to its agent */
 1.1      matt 		while (gtmpsc_common_pollc(sc->gtmpsc_unit, &c, &brk)) {
 1.1      matt 			if (c == CTRL('c'))
 1.1      matt 				brk = GTMPSC_STAT_BREAK;
 1.1      matt 			if (brk == GTMPSC_STAT_BREAK)
 1.1      matt 				break;
 1.1      matt 		}
 1.1      matt 		if (brk == GTMPSC_STAT_BREAK) {
 1.1      matt 			if (kgdb_break_immediate)
 1.1      matt 				breakpoint();
 1.1      matt 			else {
 1.1      matt 				printf("connecting to kgdb\n");
 1.1      matt 				kgdb_connect(1);
 1.1      matt 			}
 1.1      matt 		}
 1.1      matt 	}
 1.1      matt 	splx(s);
 1.1      matt }
 1.1      matt
 1.1      matt #endif /* KGDB */
 1.1      matt
 1.2      matt #if 0
 1.1      matt void
 1.1      matt gtmpsc_printf(const char *fmt, ...)
 1.1      matt {
 1.1      matt 	struct consdev *ocd;
 1.1      matt 	int s;
 1.1      matt 	va_list ap;
 1.1      matt
 1.1      matt 	s = splserial();
 1.1      matt 	ocd = cn_tab;
 1.1      matt 	cn_tab = &constab[0];
 1.1      matt 	va_start(ap, fmt);
 1.1      matt 	printf(fmt, ap);
 1.1      matt 	va_end(ap);
 1.1      matt 	cn_tab = ocd;
 1.1      matt 	splx(s);
 1.1      matt }
 1.2      matt #endif
 1.1      matt
 1.1      matt void
 1.1      matt gtmpsc_mem_printf(const char *fmt, ...)
 1.1      matt {
 1.1      matt 	va_list ap;
 1.1      matt 	static unsigned char *p = gtmpsc_print_buf;
 1.1      matt
 1.1      matt 	if (p >= &gtmpsc_print_buf[GTMPSC_PRINT_BUF_SIZE - 128]) {
 1.1      matt 		bzero(gtmpsc_print_buf, GTMPSC_PRINT_BUF_SIZE);
 1.1      matt 		p = gtmpsc_print_buf;
 1.1      matt 	}
 1.1      matt 	va_start(ap, fmt);
 1.1      matt 	p += vsprintf(p, fmt, ap);
 1.1      matt 	va_end(ap);
 1.1      matt }
 1.1      matt
 1.1      matt void
 1.1      matt gtmpsc_shutdownhook(void *arg)
 1.1      matt {
 1.1      matt 	gtmpsc_softc_t *sc = (gtmpsc_softc_t *)arg;
 1.1      matt
 1.1      matt 	gtmpsc_txflush(sc);
 1.1      matt }
 1.1      matt
 1.1      matt void
 1.1      matt gtmpsccnhalt(dev_t dev)
 1.1      matt {
 1.1      matt 	unsigned int unit;
 1.1      matt 	u_int32_t r;
 1.1      matt
 1.1      matt 	for (unit = 0; unit < GTMPSC_NCHAN; unit++) {
 1.4      matt 		gtmpsc_softc_t *sc = gtmpsc_scp[unit];
 1.1      matt 		if (sc == NULL)
 1.1      matt 			continue;
 1.1      matt
 1.1      matt 		/*
 1.1      matt 		 * flush TX buffers
 1.1      matt 		 */
 1.1      matt 		gtmpsc_txflush(sc);
 1.1      matt
 1.1      matt 		/*
1.10     perry 		 * stop MPSC unit RX
 1.1      matt 		 */
 1.3      matt 		r = GT_READ(sc, GTMPSC_U_CHRN(unit, 2));
 1.1      matt 		r &= ~GTMPSC_CHR2_EH;
 1.1      matt 		r |= GTMPSC_CHR2_RXABORT;
 1.3      matt 		GT_WRITE(sc, GTMPSC_U_CHRN(unit, 2), r);
 1.1      matt
 1.1      matt 		DELAY(GTMPSC_RESET_DELAY);
 1.1      matt
 1.1      matt 		/*
 1.1      matt 		 * abort SDMA RX for MPSC unit
 1.1      matt 		 */
 1.4      matt 		GT_WRITE(sc, SDMA_U_SDCM(unit), SDMA_SDCM_AR);
 1.1      matt 	}
 1.1      matt }
 1.1      matt
 1.1      matt void
 1.1      matt gtmpsc_puts(char *str)
 1.1      matt {
 1.1      matt 	char c;
 1.1      matt
 1.1      matt 	if (str == NULL)
 1.1      matt 		return;
 1.1      matt 	while ((c = *str++) != 0)
 1.1      matt 		gtmpsccnputc(0, c);
 1.1      matt }