amiga/dev/efa.c

1.4.2.1     yamt /*	$NetBSD: efa.c,v 1.4.2.1 2011/11/10 14:31:39 yamt Exp $ */
    1.1  rkujawa
    1.1  rkujawa /*-
    1.1  rkujawa  * Copyright (c) 2011 The NetBSD Foundation, Inc.
    1.1  rkujawa  * All rights reserved.
    1.1  rkujawa  *
    1.1  rkujawa  * This code is derived from software contributed to The NetBSD Foundation
    1.1  rkujawa  * by Radoslaw Kujawa.
    1.1  rkujawa  *
    1.1  rkujawa  * Redistribution and use in source and binary forms, with or without
    1.1  rkujawa  * modification, are permitted provided that the following conditions
    1.1  rkujawa  * are met:
    1.1  rkujawa  * 1. Redistributions of source code must retain the above copyright
    1.1  rkujawa  *    notice, this list of conditions and the following disclaimer.
    1.1  rkujawa  * 2. Redistributions in binary form must reproduce the above copyright
    1.1  rkujawa  *    notice, this list of conditions and the following disclaimer in the
    1.1  rkujawa  *    documentation and/or other materials provided with the distribution.
    1.1  rkujawa  *
    1.1  rkujawa  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
    1.1  rkujawa  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
    1.1  rkujawa  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
    1.1  rkujawa  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
    1.1  rkujawa  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
    1.1  rkujawa  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
    1.1  rkujawa  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
    1.1  rkujawa  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
    1.1  rkujawa  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
    1.1  rkujawa  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
    1.1  rkujawa  * POSSIBILITY OF SUCH DAMAGE.
    1.1  rkujawa  */
    1.1  rkujawa
    1.1  rkujawa /*
    1.1  rkujawa  * Driver for FastATA 1200 EIDE controller, manufactured by ELBOX Computer.
    1.1  rkujawa  *
    1.1  rkujawa  * Gayle-related stuff inspired by wdc_amiga.c written by Michael L. Hitch
    1.1  rkujawa  * and Aymeric Vincent.
    1.1  rkujawa  */
    1.1  rkujawa
    1.1  rkujawa #include <sys/cdefs.h>
    1.1  rkujawa
    1.1  rkujawa #include <sys/types.h>
    1.1  rkujawa #include <sys/param.h>
    1.1  rkujawa #include <sys/systm.h>
    1.1  rkujawa #include <sys/malloc.h>
    1.1  rkujawa #include <sys/device.h>
    1.1  rkujawa #include <sys/bus.h>
    1.1  rkujawa #include <sys/proc.h>
    1.1  rkujawa #include <sys/kernel.h>
    1.1  rkujawa #include <sys/kthread.h>
    1.1  rkujawa
    1.1  rkujawa #include <machine/cpu.h>
    1.1  rkujawa #include <machine/intr.h>
    1.1  rkujawa #include <sys/bswap.h>
    1.1  rkujawa
    1.1  rkujawa #include <amiga/amiga/cia.h>
    1.1  rkujawa #include <amiga/amiga/custom.h>
    1.1  rkujawa #include <amiga/amiga/device.h>
    1.1  rkujawa #include <amiga/amiga/gayle.h>
    1.1  rkujawa #include <amiga/dev/zbusvar.h>
    1.1  rkujawa
    1.1  rkujawa #include <dev/ata/atavar.h>
    1.1  rkujawa #include <dev/ic/wdcvar.h>
    1.1  rkujawa
    1.1  rkujawa #include <amiga/dev/efareg.h>
    1.1  rkujawa #include <amiga/dev/efavar.h>
    1.1  rkujawa
    1.3  rkujawa #define EFA_32BIT_IO 1
    1.1  rkujawa /* #define EFA_NO_INTR 1 */
    1.1  rkujawa /* #define EFA_DEBUG 1 */
    1.1  rkujawa
    1.1  rkujawa int		efa_probe(device_t, cfdata_t, void *);
    1.1  rkujawa void		efa_attach(device_t, device_t, void *);
    1.1  rkujawa int		efa_intr(void *);
    1.1  rkujawa int		efa_intr_soft(void *arg);
    1.1  rkujawa static void	efa_set_opts(struct efa_softc *sc);
    1.1  rkujawa static bool	efa_mapbase(struct efa_softc *sc);
    1.1  rkujawa static bool	efa_mapreg_gayle(struct efa_softc *sc);
    1.1  rkujawa static bool	efa_mapreg_native(struct efa_softc *sc);
    1.1  rkujawa static void	efa_fata_subregion_pio0(struct wdc_regs *wdr_fata);
    1.1  rkujawa static void	efa_fata_subregion_pion(struct wdc_regs *wdr_fata, bool data32);
    1.1  rkujawa static void	efa_setup_channel(struct ata_channel *chp);
    1.1  rkujawa static void	efa_attach_channel(struct efa_softc *sc, int i);
    1.1  rkujawa static void	efa_select_regset(struct efa_softc *sc, int chnum,
    1.1  rkujawa 		    uint8_t piomode);
    1.1  rkujawa static void	efa_poll_kthread(void *arg);
    1.4  rkujawa static bool	efa_compare_status(void);
    1.1  rkujawa #ifdef EFA_DEBUG
    1.1  rkujawa static void	efa_debug_print_regmapping(struct wdc_regs *wdr_fata);
    1.1  rkujawa #endif /* EFA_DEBUG */
    1.1  rkujawa
    1.1  rkujawa CFATTACH_DECL_NEW(efa, sizeof(struct efa_softc),
    1.1  rkujawa     efa_probe, efa_attach, NULL, NULL);
    1.1  rkujawa
    1.1  rkujawa #define PIO_NSUPP		0xFFFFFFFF
    1.1  rkujawa
    1.1  rkujawa static const bus_addr_t		pio_offsets[] =
    1.1  rkujawa     { FATA1_PIO0_OFF, PIO_NSUPP, PIO_NSUPP, FATA1_PIO3_OFF, FATA1_PIO4_OFF,
    1.1  rkujawa       FATA1_PIO5_OFF };
    1.1  rkujawa static const unsigned int	wdr_offsets_pio0[] =
    1.1  rkujawa     { FATA1_PIO0_OFF_DATA, FATA1_PIO0_OFF_ERROR, FATA1_PIO0_OFF_SECCNT,
    1.1  rkujawa       FATA1_PIO0_OFF_SECTOR, FATA1_PIO0_OFF_CYL_LO, FATA1_PIO0_OFF_CYL_HI,
    1.1  rkujawa       FATA1_PIO0_OFF_SDH, FATA1_PIO0_OFF_COMMAND };
    1.1  rkujawa static const unsigned int	wdr_offsets_pion[] =
    1.1  rkujawa     { FATA1_PION_OFF_DATA, FATA1_PION_OFF_ERROR, FATA1_PION_OFF_SECCNT,
    1.1  rkujawa       FATA1_PION_OFF_SECTOR, FATA1_PION_OFF_CYL_LO, FATA1_PION_OFF_CYL_HI,
    1.1  rkujawa       FATA1_PION_OFF_SDH, FATA1_PION_OFF_COMMAND };
    1.1  rkujawa
    1.1  rkujawa int
    1.1  rkujawa efa_probe(device_t parent, cfdata_t cfp, void *aux)
    1.1  rkujawa {
    1.2  rkujawa 	/*
    1.2  rkujawa 	 * FastATA 1200 uses portions of Gayle IDE interface, and efa driver
    1.1  rkujawa 	 * can't coexist with wdc_amiga. Match "wdc" on an A1200, because
    1.2  rkujawa 	 * FastATA 1200 does not autoconfigure.
    1.2  rkujawa 	 */
    1.4  rkujawa 	if (!matchname(aux, "wdc") || !is_a1200())
    1.1  rkujawa 		return(0);
    1.1  rkujawa
    1.4  rkujawa 	if (!efa_compare_status())
    1.4  rkujawa 		return(0);
    1.4  rkujawa
    1.4  rkujawa #ifdef EFA_DEBUG
    1.4  rkujawa 	aprint_normal("efa_probe succeeded\n");
    1.4  rkujawa #endif /* EFA_DEBUG */
    1.4  rkujawa
    1.1  rkujawa 	return 100;
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa void
    1.1  rkujawa efa_attach(device_t parent, device_t self, void *aux)
    1.1  rkujawa {
    1.1  rkujawa 	int i;
    1.1  rkujawa 	struct efa_softc *sc = device_private(self);
    1.1  rkujawa
    1.1  rkujawa 	aprint_normal(": ELBOX FastATA 1200\n");
    1.1  rkujawa
    1.1  rkujawa 	gayle_init();
    1.1  rkujawa
    1.1  rkujawa 	sc->sc_dev = self;
    1.1  rkujawa
    1.1  rkujawa 	efa_set_opts(sc);
    1.1  rkujawa
    1.2  rkujawa 	if (!efa_mapbase(sc)) {
    1.1  rkujawa 		aprint_error_dev(self, "couldn't map base addresses\n");
    1.1  rkujawa 		return;
    1.1  rkujawa 	}
    1.2  rkujawa 	if (!efa_mapreg_gayle(sc)) {
    1.1  rkujawa 		aprint_error_dev(self, "couldn't map Gayle registers\n");
    1.1  rkujawa 		return;
    1.1  rkujawa 	}
    1.2  rkujawa 	if (!efa_mapreg_native(sc)) {
    1.1  rkujawa 		aprint_error_dev(self, "couldn't map FastATA regsters\n");
    1.1  rkujawa 		return;
    1.1  rkujawa 	}
    1.1  rkujawa
    1.1  rkujawa 	sc->sc_wdcdev.sc_atac.atac_pio_cap = 5;
    1.1  rkujawa 	sc->sc_wdcdev.sc_atac.atac_nchannels = FATA1_CHANNELS;
    1.1  rkujawa 	sc->sc_wdcdev.sc_atac.atac_set_modes = efa_setup_channel;
    1.1  rkujawa 	sc->sc_wdcdev.sc_atac.atac_dev = self;
    1.1  rkujawa 	sc->sc_wdcdev.sc_atac.atac_channels = sc->sc_chanlist;
    1.3  rkujawa 	sc->sc_wdcdev.sc_atac.atac_cap = ATAC_CAP_DATA16;
    1.1  rkujawa
    1.2  rkujawa 	if (sc->sc_32bit_io)
    1.3  rkujawa 		sc->sc_wdcdev.sc_atac.atac_cap |= ATAC_CAP_DATA32;
    1.3  rkujawa
    1.1  rkujawa 	/*
    1.1  rkujawa 	 * The following should work for polling mode, but it does not.
    1.2  rkujawa 	 * if (sc->sc_no_intr)
    1.1  rkujawa 	 *	sc->sc_wdcdev.sc_atac.atac_cap |= ATAC_CAP_NOIRQ;
    1.1  rkujawa 	 */
    1.1  rkujawa
    1.1  rkujawa 	wdc_allocate_regs(&sc->sc_wdcdev);
    1.1  rkujawa
    1.1  rkujawa 	sc->sc_intreg = &gayle.intreq;
    1.1  rkujawa
    1.2  rkujawa 	for (i = 0; i < FATA1_CHANNELS; i++)
    1.1  rkujawa 		efa_attach_channel(sc, i);
    1.1  rkujawa
    1.2  rkujawa 	if (sc->sc_no_intr) {
    1.1  rkujawa 		sc->sc_fata_softintr = softint_establish(SOFTINT_BIO,
    1.1  rkujawa 		    (void (*)(void *))efa_intr_soft, sc);
    1.1  rkujawa 		if (sc->sc_fata_softintr == NULL) {
    1.1  rkujawa 			aprint_error_dev(self, "couldn't create soft intr\n");
    1.1  rkujawa 			return;
    1.1  rkujawa 		}
    1.1  rkujawa 		if (kthread_create(PRI_NONE, 0, NULL, efa_poll_kthread, sc,
    1.1  rkujawa 		    NULL, "efa")) {
    1.1  rkujawa 			aprint_error_dev(self, "couldn't create kthread\n");
    1.1  rkujawa 			return;
    1.1  rkujawa 		}
    1.1  rkujawa 	} else {
    1.1  rkujawa 		sc->sc_isr.isr_intr = efa_intr;
    1.1  rkujawa 		sc->sc_isr.isr_arg = sc;
    1.1  rkujawa 		sc->sc_isr.isr_ipl = 2;
    1.1  rkujawa 		add_isr (&sc->sc_isr);
    1.1  rkujawa 		gayle.intena |= GAYLE_INT_IDE;
    1.1  rkujawa 	}
    1.1  rkujawa
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa static void
    1.1  rkujawa efa_attach_channel(struct efa_softc *sc, int chnum)
    1.1  rkujawa {
    1.1  rkujawa 	sc->sc_chanlist[chnum] = &sc->sc_ports[chnum].chan;
    1.1  rkujawa
    1.1  rkujawa 	sc->sc_ports[chnum].chan.ch_channel = chnum;
    1.1  rkujawa 	sc->sc_ports[chnum].chan.ch_atac = &sc->sc_wdcdev.sc_atac;
    1.1  rkujawa 	sc->sc_ports[chnum].chan.ch_queue = &sc->sc_ports[chnum].queue;
    1.1  rkujawa 	sc->sc_ports[chnum].chan.ch_ndrive = 2;
    1.1  rkujawa
    1.2  rkujawa 	if (!sc->sc_32bit_io)
    1.1  rkujawa 		efa_select_regset(sc, chnum, 0); /* Start in PIO0. */
    1.1  rkujawa 	else
    1.1  rkujawa 		efa_select_regset(sc, chnum, 3);
    1.1  rkujawa
    1.1  rkujawa 	wdc_init_shadow_regs(&sc->sc_ports[chnum].chan);
    1.1  rkujawa
    1.1  rkujawa 	wdcattach(&sc->sc_ports[chnum].chan);
    1.1  rkujawa
    1.1  rkujawa #ifdef EFA_DEBUG
    1.1  rkujawa 	aprint_normal_dev(sc->sc_dev, "done init for channel %d\n", chnum);
    1.1  rkujawa #endif
    1.1  rkujawa
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa /* TODO: convert to callout(9) */
    1.1  rkujawa static void
    1.1  rkujawa efa_poll_kthread(void *arg)
    1.1  rkujawa {
    1.1  rkujawa 	struct efa_softc *sc = arg;
    1.1  rkujawa
    1.2  rkujawa 	for (;;) {
    1.1  rkujawa 		/* TODO: actually check if interrupt status register is set */
    1.1  rkujawa 		softint_schedule(sc->sc_fata_softintr);
    1.1  rkujawa 		/* TODO: convert to kpause */
    1.1  rkujawa 		tsleep(arg, PWAIT, "efa_poll", hz);
    1.1  rkujawa 	}
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa static void
    1.1  rkujawa efa_set_opts(struct efa_softc *sc)
    1.1  rkujawa {
    1.1  rkujawa #ifdef EFA_32BIT_IO
    1.4  rkujawa 	sc->sc_32bit_io = true;
    1.1  rkujawa #else
    1.1  rkujawa 	sc->sc_32bit_io = false;
    1.1  rkujawa #endif /* EFA_32BIT_IO */
    1.1  rkujawa
    1.1  rkujawa #ifdef EFA_NO_INTR
    1.1  rkujawa 	sc->sc_no_intr = true;		/* XXX: not yet! */
    1.1  rkujawa #else
    1.1  rkujawa 	sc->sc_no_intr = false;
    1.1  rkujawa #endif /* EFA_NO_INTR */
    1.1  rkujawa
    1.2  rkujawa 	if (sc->sc_no_intr)
    1.1  rkujawa 		aprint_verbose_dev(sc->sc_dev, "hardware interrupt disabled\n");
    1.1  rkujawa
    1.2  rkujawa 	if (sc->sc_32bit_io)
    1.1  rkujawa 		aprint_verbose_dev(sc->sc_dev, "32-bit I/O enabled\n");
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa int
    1.1  rkujawa efa_intr_soft(void *arg)
    1.1  rkujawa {
    1.1  rkujawa 	int ret = 0;
    1.1  rkujawa 	struct efa_softc *sc = (struct efa_softc *)arg;
    1.1  rkujawa
    1.1  rkujawa 	/* TODO: check which channel needs servicing */
    1.1  rkujawa 	/*
    1.1  rkujawa 	uint8_t fataintreq;
    1.1  rkujawa 	fataintreq = bus_space_read_1(sc->sc_ports[0].wdr[piom].cmd_iot,
    1.1  rkujawa 	sc->sc_ports[chnum].intst[piom], 0);
    1.1  rkujawa 	*/
    1.1  rkujawa
    1.1  rkujawa 	ret = wdcintr(&sc->sc_ports[0].chan);
    1.1  rkujawa 	ret = wdcintr(&sc->sc_ports[1].chan);
    1.1  rkujawa
    1.1  rkujawa 	return ret;
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa int
    1.1  rkujawa efa_intr(void *arg)
    1.1  rkujawa {
    1.1  rkujawa 	struct efa_softc *sc = (struct efa_softc *)arg;
    1.2  rkujawa 	int r1, r2, ret;
    1.2  rkujawa 	u_char intreq;
    1.1  rkujawa
    1.2  rkujawa 	intreq = *sc->sc_intreg;
    1.2  rkujawa 	ret = 0;
    1.1  rkujawa
    1.1  rkujawa 	if (intreq & GAYLE_INT_IDE) {
    1.1  rkujawa 		gayle.intreq = 0x7c | (intreq & 0x03);
    1.1  rkujawa 		/* How to check which channel caused interrupt?
    1.1  rkujawa 		 * Interrupt status register is not very useful here. */
    1.1  rkujawa 		r1 = wdcintr(&sc->sc_ports[0].chan);
    1.1  rkujawa 		r2 = wdcintr(&sc->sc_ports[1].chan);
    1.1  rkujawa 		ret = r1 | r2;
    1.1  rkujawa 	}
    1.1  rkujawa
    1.1  rkujawa 	return ret;
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa static bool
    1.1  rkujawa efa_mapbase(struct efa_softc *sc)
    1.1  rkujawa {
    1.1  rkujawa 	int i, j;
    1.1  rkujawa 	static struct bus_space_tag fata_cmd_iot;
    1.1  rkujawa 	static struct bus_space_tag gayle_cmd_iot;
    1.1  rkujawa
    1.1  rkujawa 	gayle_cmd_iot.base = (bus_addr_t) ztwomap(GAYLE_IDE_BASE + 2);
    1.1  rkujawa 	gayle_cmd_iot.absm = &amiga_bus_stride_4swap;
    1.1  rkujawa 	fata_cmd_iot.base = (bus_addr_t) ztwomap(FATA1_BASE);
    1.1  rkujawa 	fata_cmd_iot.absm = &amiga_bus_stride_4swap;
    1.1  rkujawa
    1.1  rkujawa #ifdef EFA_DEBUG
    1.1  rkujawa 	aprint_normal_dev(sc->sc_dev, "Gayle %x -> %x, FastATA %x -> %x\n",
    1.1  rkujawa 	    GAYLE_IDE_BASE, gayle_cmd_iot.base, FATA1_BASE, fata_cmd_iot.base);
    1.1  rkujawa #endif
    1.1  rkujawa
    1.2  rkujawa 	if (!gayle_cmd_iot.base)
    1.1  rkujawa 		return false;
    1.2  rkujawa 	if (!fata_cmd_iot.base)
    1.1  rkujawa 		return false;
    1.1  rkujawa
    1.1  rkujawa 	sc->sc_gayle_wdc_regs.cmd_iot = &gayle_cmd_iot;
    1.1  rkujawa 	sc->sc_gayle_wdc_regs.ctl_iot = &gayle_cmd_iot;
    1.1  rkujawa
    1.2  rkujawa 	for (i = 0; i < FATA1_CHANNELS; i++) {
    1.2  rkujawa 		for (j = 0; j < PIO_COUNT; j++) {
    1.1  rkujawa 			sc->sc_ports[i].wdr[j].cmd_iot = &fata_cmd_iot;
    1.3  rkujawa 			sc->sc_ports[i].wdr[j].data32iot = &fata_cmd_iot;
    1.1  rkujawa 			sc->sc_ports[i].wdr[j].ctl_iot = &gayle_cmd_iot;
    1.1  rkujawa 		}
    1.1  rkujawa 	}
    1.1  rkujawa
    1.1  rkujawa 	return true;
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa
    1.1  rkujawa /* Gayle IDE register mapping, we need it anyway. */
    1.1  rkujawa static bool
    1.1  rkujawa efa_mapreg_gayle(struct efa_softc *sc)
    1.1  rkujawa {
    1.1  rkujawa 	int i;
    1.1  rkujawa
    1.1  rkujawa 	struct wdc_regs *wdr = &sc->sc_gayle_wdc_regs;
    1.1  rkujawa
    1.1  rkujawa 	if (bus_space_map(wdr->cmd_iot, 0, 0x40, 0,
    1.2  rkujawa 	    &wdr->cmd_baseioh)) {
    1.1  rkujawa 		return false;
    1.1  rkujawa 	}
    1.1  rkujawa
    1.1  rkujawa 	for (i = 0; i < WDC_NREG; i++) {
    1.1  rkujawa 		if (bus_space_subregion(wdr->cmd_iot,
    1.1  rkujawa 		    wdr->cmd_baseioh, i, i == 0 ? 4 : 1,
    1.1  rkujawa 		    &wdr->cmd_iohs[i]) != 0) {
    1.1  rkujawa
    1.1  rkujawa 			bus_space_unmap(wdr->cmd_iot,
    1.1  rkujawa 			    wdr->cmd_baseioh, 0x40);
    1.1  rkujawa 			return false;
    1.1  rkujawa 		}
    1.1  rkujawa 	}
    1.1  rkujawa
    1.1  rkujawa 	if (bus_space_subregion(wdr->cmd_iot,
    1.1  rkujawa 	    wdr->cmd_baseioh, 0x406, 1, &wdr->ctl_ioh))
    1.1  rkujawa 		return false;
    1.1  rkujawa
    1.1  rkujawa 	return true;
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa /* Native FastATA register mapping, suitable for PIO modes 0 to 5. */
    1.1  rkujawa static bool
    1.2  rkujawa efa_mapreg_native(struct efa_softc *sc)
    1.2  rkujawa {
    1.1  rkujawa 	int i,j;
    1.1  rkujawa 	struct wdc_regs *wdr_gayle = &sc->sc_gayle_wdc_regs;
    1.1  rkujawa 	struct wdc_regs *wdr_fata;
    1.1  rkujawa
    1.2  rkujawa 	for (i = 0; i < FATA1_CHANNELS; i++) {
    1.1  rkujawa
    1.2  rkujawa 		for (j = 0; j < PIO_COUNT; j++) {
    1.1  rkujawa
    1.1  rkujawa 			wdr_fata = &sc->sc_ports[i].wdr[j];
    1.1  rkujawa 			sc->sc_ports[i].mode_ok[j] = false;
    1.1  rkujawa
    1.2  rkujawa 			if (pio_offsets[j] == PIO_NSUPP) {
    1.1  rkujawa #ifdef EFA_DEBUG
    1.1  rkujawa 				aprint_normal_dev(sc->sc_dev,
    1.1  rkujawa 				    "Skipping mapping for PIO mode %x\n", j);
    1.1  rkujawa #endif
    1.1  rkujawa 				continue;
    1.1  rkujawa 			}
    1.1  rkujawa
    1.2  rkujawa 			if (bus_space_map(wdr_fata->cmd_iot,
    1.1  rkujawa 			    pio_offsets[j] + FATA1_CHAN_SIZE * i,
    1.1  rkujawa 			    FATA1_CHAN_SIZE, 0, &wdr_fata->cmd_baseioh)) {
    1.1  rkujawa 			    return false;
    1.1  rkujawa 			}
    1.1  rkujawa #ifdef EFA_DEBUG
    1.1  rkujawa 			aprint_normal_dev(sc->sc_dev,
    1.1  rkujawa 			    "Chan %x PIO mode %x mapped %x -> %x\n",
    1.1  rkujawa 			    i, j, (bus_addr_t) kvtop((void*)
    1.1  rkujawa 			    wdr_fata->cmd_baseioh), (unsigned int)
    1.1  rkujawa 			    wdr_fata->cmd_baseioh);
    1.1  rkujawa #endif
    1.1  rkujawa
    1.1  rkujawa 			sc->sc_ports[i].mode_ok[j] = true;
    1.1  rkujawa
    1.2  rkujawa 			if (j == 0)
    1.1  rkujawa 				efa_fata_subregion_pio0(wdr_fata);
    1.1  rkujawa 			else {
    1.2  rkujawa 				if (sc->sc_32bit_io)
    1.1  rkujawa 					efa_fata_subregion_pion(wdr_fata,
    1.1  rkujawa 					    true);
    1.1  rkujawa 				else
    1.1  rkujawa 					efa_fata_subregion_pion(wdr_fata,
    1.1  rkujawa 					    false);
    1.1  rkujawa
    1.1  rkujawa 				bus_space_subregion(wdr_fata->cmd_iot,
    1.1  rkujawa 				    wdr_fata->cmd_baseioh, FATA1_PION_OFF_INTST,
    1.1  rkujawa 				    1, &sc->sc_ports[i].intst[j]);
    1.1  rkujawa 			}
    1.1  rkujawa
    1.1  rkujawa 			/* No 32-bit register for PIO0 ... */
    1.2  rkujawa 			if (j == 0 && sc->sc_32bit_io)
    1.1  rkujawa 				sc->sc_ports[i].mode_ok[j] = false;
    1.1  rkujawa
    1.1  rkujawa 			wdr_fata->ctl_ioh = wdr_gayle->ctl_ioh;
    1.1  rkujawa 		};
    1.1  rkujawa 	}
    1.1  rkujawa 	return true;
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa
    1.1  rkujawa static void
    1.1  rkujawa efa_fata_subregion_pio0(struct wdc_regs *wdr_fata)
    1.1  rkujawa {
1.4.2.1     yamt 	int i;
    1.1  rkujawa
1.4.2.1     yamt 	for (i = 0; i < WDC_NREG; i++)
1.4.2.1     yamt 		bus_space_subregion(wdr_fata->cmd_iot,
1.4.2.1     yamt 		    wdr_fata->cmd_baseioh, wdr_offsets_pio0[i],
1.4.2.1     yamt 		    i == 0 ? 4 : 1, &wdr_fata->cmd_iohs[i]);
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa static void
    1.1  rkujawa efa_fata_subregion_pion(struct wdc_regs *wdr_fata, bool data32)
    1.1  rkujawa {
1.4.2.1     yamt 	int i;
1.4.2.1     yamt
    1.2  rkujawa 	if (data32)
    1.1  rkujawa 		bus_space_subregion(wdr_fata->cmd_iot, wdr_fata->cmd_baseioh,
    1.3  rkujawa 		    FATA1_PION_OFF_DATA32, 8, &wdr_fata->data32ioh);
    1.1  rkujawa
1.4.2.1     yamt 	for (i = 0; i < WDC_NREG; i++)
1.4.2.1     yamt 		bus_space_subregion(wdr_fata->cmd_iot,
1.4.2.1     yamt 		    wdr_fata->cmd_baseioh, wdr_offsets_pion[i],
1.4.2.1     yamt 		    i == 0 ? 4 : 1, &wdr_fata->cmd_iohs[i]);
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa static void
    1.1  rkujawa efa_setup_channel(struct ata_channel *chp)
    1.1  rkujawa {
    1.1  rkujawa 	int drive, chnum;
    1.1  rkujawa 	uint8_t mode;
    1.1  rkujawa 	struct atac_softc *atac;
    1.1  rkujawa 	struct ata_drive_datas *drvp;
    1.1  rkujawa 	struct efa_softc *sc;
    1.1  rkujawa 	int ipl;
    1.1  rkujawa
    1.1  rkujawa 	chnum = chp->ch_channel;
    1.1  rkujawa 	atac = chp->ch_atac;
    1.1  rkujawa 	sc = device_private(atac->atac_dev);
    1.1  rkujawa
    1.1  rkujawa 	mode = 5; /* start with fastest possible setting */
    1.1  rkujawa
    1.1  rkujawa #ifdef EFA_DEBUG
    1.1  rkujawa 	aprint_normal_dev(sc->sc_dev, "efa_setup_channel for ch %d\n",
    1.1  rkujawa 	    chnum);
    1.1  rkujawa #endif /* EFA_DEBUG */
    1.1  rkujawa
    1.1  rkujawa 	/* We might be in the middle of something... so raise IPL. */
    1.1  rkujawa 	ipl = splvm();
    1.1  rkujawa
    1.1  rkujawa 	for (drive = 0; drive < 2; drive++) {
    1.1  rkujawa 		drvp = &chp->ch_drive[drive];
    1.1  rkujawa
    1.1  rkujawa 		if ((drvp->drive_flags & DRIVE) == 0)
    1.1  rkujawa 			continue; /* nothing to see here */
    1.1  rkujawa
    1.2  rkujawa 		if (drvp->PIO_cap < mode);
    1.1  rkujawa 			mode = drvp->PIO_cap;
    1.1  rkujawa
    1.1  rkujawa 		/* TODO: check if sc_ports->mode_ok */
    1.1  rkujawa
    1.1  rkujawa #ifdef EFA_DEBUG
    1.1  rkujawa 		aprint_normal_dev(sc->sc_dev, "drive %d supports %d\n",
    1.1  rkujawa 		    drive, drvp->PIO_cap);
    1.1  rkujawa #endif /* EFA_DEBUG */
    1.1  rkujawa
    1.1  rkujawa 		drvp->PIO_mode = mode;
    1.1  rkujawa 	}
    1.1  rkujawa
    1.1  rkujawa 	/* Change FastATA register set. */
    1.1  rkujawa 	efa_select_regset(sc, chnum, mode);
    1.1  rkujawa 	/* re-init shadow regs */
    1.1  rkujawa 	wdc_init_shadow_regs(&sc->sc_ports[chnum].chan);
    1.1  rkujawa
    1.1  rkujawa 	splx(ipl);
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa static void
    1.1  rkujawa efa_select_regset(struct efa_softc *sc, int chnum, uint8_t piomode)
    1.1  rkujawa {
    1.1  rkujawa 	struct wdc_softc *wdc;
    1.1  rkujawa
    1.1  rkujawa 	wdc = CHAN_TO_WDC(&sc->sc_ports[chnum].chan);
    1.1  rkujawa 	wdc->regs[chnum] = sc->sc_ports[chnum].wdr[piomode];
    1.1  rkujawa
    1.1  rkujawa #ifdef EFA_DEBUG
    1.1  rkujawa 	aprint_normal_dev(sc->sc_dev, "switched ch %d to PIO %d\n",
    1.1  rkujawa 	    chnum, piomode);
    1.1  rkujawa
    1.1  rkujawa 	efa_debug_print_regmapping(&wdc->regs[chnum]);
    1.1  rkujawa #endif /* EFA_DEBUG */
    1.1  rkujawa }
    1.1  rkujawa
    1.1  rkujawa #ifdef EFA_DEBUG
    1.1  rkujawa static void
    1.1  rkujawa efa_debug_print_regmapping(struct wdc_regs *wdr_fata)
    1.1  rkujawa {
    1.1  rkujawa 	int i;
    1.1  rkujawa 	aprint_normal("base %x->%x",
    1.1  rkujawa 	    (bus_addr_t) kvtop((void*) wdr_fata->cmd_baseioh),
    1.1  rkujawa 	    (bus_addr_t) wdr_fata->cmd_baseioh);
    1.1  rkujawa 	for (i = 0; i < WDC_NREG; i++) {
    1.1  rkujawa 		aprint_normal("reg %x, %x->%x, ", i,
    1.1  rkujawa 		    (bus_addr_t) kvtop((void*) wdr_fata->cmd_iohs[i]),
    1.1  rkujawa 		    (bus_addr_t) wdr_fata->cmd_iohs[i]);
    1.1  rkujawa 	}
    1.1  rkujawa 	aprint_normal("\n");
    1.1  rkujawa }
    1.1  rkujawa #endif /* EFA_DEBUG */
    1.1  rkujawa
    1.4  rkujawa /* Compare the values of (status) command register in PIO0, PIO3 sets. */
    1.4  rkujawa static bool
    1.4  rkujawa efa_compare_status(void)
    1.4  rkujawa {
    1.4  rkujawa 	uint8_t cmd0, cmd3;
    1.4  rkujawa 	struct bus_space_tag fata_bst;
    1.4  rkujawa 	bus_space_tag_t fata_iot;
    1.4  rkujawa 	bus_space_handle_t cmd0_ioh, cmd3_ioh;
    1.4  rkujawa 	bool rv;
    1.4  rkujawa
    1.4  rkujawa 	rv = false;
    1.4  rkujawa
    1.4  rkujawa 	fata_bst.base = (bus_addr_t) ztwomap(FATA1_BASE);
    1.4  rkujawa 	fata_bst.absm = &amiga_bus_stride_4swap;
    1.4  rkujawa
    1.4  rkujawa 	fata_iot = &fata_bst;
    1.4  rkujawa
    1.4  rkujawa 	if (bus_space_map(fata_iot, pio_offsets[0], FATA1_CHAN_SIZE, 0,
    1.4  rkujawa 	    &cmd0_ioh))
    1.4  rkujawa 		return false;
    1.4  rkujawa 	if (bus_space_map(fata_iot, pio_offsets[3], FATA1_CHAN_SIZE, 0,
    1.4  rkujawa 	    &cmd3_ioh))
    1.4  rkujawa 		return false;
    1.4  rkujawa
    1.4  rkujawa #ifdef EFA_DEBUG
    1.4  rkujawa 	aprint_normal("probing for FastATA at %x, %x: ", (bus_addr_t) cmd0_ioh,
    1.4  rkujawa 	    (bus_addr_t) cmd3_ioh);
    1.4  rkujawa #endif /* EFA_DEBUG */
    1.4  rkujawa
    1.4  rkujawa 	cmd0 = bus_space_read_1(fata_iot, cmd0_ioh, FATA1_PIO0_OFF_COMMAND);
    1.4  rkujawa 	cmd3 = bus_space_read_1(fata_iot, cmd3_ioh, FATA1_PION_OFF_COMMAND);
    1.4  rkujawa
    1.4  rkujawa 	if (cmd0 == cmd3)
    1.4  rkujawa 		rv = true;
    1.4  rkujawa
    1.4  rkujawa 	if ( (cmd0 == 0xFF) || (cmd0 == 0x00) ) {
    1.4  rkujawa 		/* Assume there's nothing there... */
    1.4  rkujawa 		rv = false;
    1.4  rkujawa 	}
    1.4  rkujawa
    1.4  rkujawa #ifdef EFA_DEBUG
    1.4  rkujawa 	aprint_normal("cmd0 %x, cmd3 %x\n", cmd0, cmd3);
    1.4  rkujawa #endif /* EFA_DEBUG */
    1.4  rkujawa
    1.4  rkujawa 	bus_space_unmap(fata_iot, pio_offsets[0], FATA1_CHAN_SIZE);
    1.4  rkujawa 	bus_space_unmap(fata_iot, pio_offsets[3], FATA1_CHAN_SIZE);
    1.4  rkujawa
    1.4  rkujawa 	return rv;
    1.4  rkujawa }
    1.4  rkujawa