gt.c - OpenGrok cross reference for /netbsd/src/sys/dev/marvell/gt.c

/*        $NetBSD: gt.c,v 1.30 2021/08/07 16:19:13 thorpej Exp $      */

/*
 * Copyright (c) 2002 Allegro Networks, Inc., Wasabi Systems, Inc.
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 * 3. All advertising materials mentioning features or use of this software
 *    must display the following acknowledgement:
 *      This product includes software developed for the NetBSD Project by
 *      Allegro Networks, Inc., and Wasabi Systems, Inc.
 * 4. The name of Allegro Networks, Inc. may not be used to endorse
 *    or promote products derived from this software without specific prior
 *    written permission.
 * 5. The name of Wasabi Systems, Inc. may not be used to endorse
 *    or promote products derived from this software without specific prior
 *    written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY ALLEGRO NETWORKS, INC. AND
 * WASABI SYSTEMS, INC. ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
 * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
 * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 * IN NO EVENT SHALL EITHER ALLEGRO NETWORKS, INC. OR WASABI SYSTEMS, INC.
 * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 * POSSIBILITY OF SUCH DAMAGE.
 */

/*
 * gt.c -- GT system controller driver
 */

#include <sys/cdefs.h>
__KERNEL_RCSID(0, "$NetBSD: gt.c,v 1.30 2021/08/07 16:19:13 thorpej Exp $");

#include "opt_marvell.h"
#include "gtmpsc.h"
#include "opt_multiprocessor.h"
#include "locators.h"

#include <sys/param.h>
#include <sys/bus.h>
#include <sys/device.h>
#include <sys/kernel.h>
#include <sys/types.h>

#include <dev/marvell/gtintrreg.h>
#include <dev/marvell/gtsdmareg.h>
#if NGTMPSC > 0
#include <dev/marvell/gtmpscreg.h>
#include <dev/marvell/gtmpscvar.h>
#endif
#include <dev/marvell/gtpcireg.h>
#include <dev/marvell/gtreg.h>
#include <dev/marvell/gtvar.h>
#include <dev/marvell/marvellreg.h>
#include <dev/marvell/marvellvar.h>

#include <dev/pci/pcireg.h>

#if ((GT_MPP_WATCHDOG & 0xf0f0f0f0) != 0)
# error             /* unqualified: configuration botch! */
#endif

#define gt_read(sc,r)          bus_space_read_4((sc)->sc_iot, (sc)->sc_ioh, (r))
#define gt_write(sc,r,v) bus_space_write_4((sc)->sc_iot, (sc)->sc_ioh, (r), (v))


static int          gt_cfprint(void *, const char *);
static int          gt_cfsearch(device_t, cfdata_t, const int *, void *);
static void         gt_attach_peripherals(struct gt_softc *);

#ifdef GT_DEVBUS
static int          gt_devbus_intr(void *);
static void         gt_devbus_intr_enb(struct gt_softc *);
#endif
#ifdef GT_ECC
static int          gt_ecc_intr(void *);
static void         gt_ecc_intr_enb(struct gt_softc *);
#endif
#if NGTMPSC > 0
static void         gt_sdma_intr_enb(struct gt_softc *);
#endif
#ifdef GT_COMM
static int          gt_comm_intr(void *);
static void         gt_comm_intr_enb(struct gt_softc *);
#endif


#ifdef GT_WATCHDOG
static void gt_watchdog_init(struct gt_softc *);
static void gt_watchdog_enable(struct gt_softc *);
#ifndef GT_MPP_WATCHDOG
static void gt_watchdog_disable(struct gt_softc *);
#endif

static struct gt_softc *gt_watchdog_sc = NULL;
static int gt_watchdog_state = 0;
#endif


#define OFFSET_DEFAULT        MVA_OFFSET_DEFAULT
#define IRQ_DEFAULT MVA_IRQ_DEFAULT
static const struct gt_dev {
          int model;
          const char *name;
          int unit;
          bus_size_t offset;
          int irq;
} gt_devs[] = {
          { MARVELL_DISCOVERY,          "gfec",    0,       0x0000,             IRQ_DEFAULT },
          { MARVELL_DISCOVERY,          "gtidmac", 0,       0x0000,             4 /*...7 */ },
          { MARVELL_DISCOVERY,          "gtmpsc",  0,       0x8000,             40 },
          { MARVELL_DISCOVERY,          "gtmpsc",  1,       0x9000,             42 },
          { MARVELL_DISCOVERY,          "gtpci",   0,       OFFSET_DEFAULT,     IRQ_DEFAULT },
          { MARVELL_DISCOVERY,          "gtpci",   1,       OFFSET_DEFAULT,     IRQ_DEFAULT },
          { MARVELL_DISCOVERY,          "gttwsi",  0,       0xc000,             37 },
          { MARVELL_DISCOVERY,          "obio",    0,       OFFSET_DEFAULT,     IRQ_DEFAULT },
          { MARVELL_DISCOVERY,          "obio",    1,       OFFSET_DEFAULT,     IRQ_DEFAULT },
          { MARVELL_DISCOVERY,          "obio",    2,       OFFSET_DEFAULT,     IRQ_DEFAULT },
          { MARVELL_DISCOVERY,          "obio",    3,       OFFSET_DEFAULT,     IRQ_DEFAULT },
          { MARVELL_DISCOVERY,          "obio",    4,       OFFSET_DEFAULT,     IRQ_DEFAULT },

          { MARVELL_DISCOVERY_II,       "gtidmac", 0,       0x0000,             4 /*...7 */ },
          { MARVELL_DISCOVERY_II,       "gtmpsc",  0,       0x8000,             40 },
          { MARVELL_DISCOVERY_II,       "gtmpsc",  1,       0x9000,             42 },
          { MARVELL_DISCOVERY_II,       "gtpci",   0,       OFFSET_DEFAULT,     IRQ_DEFAULT },
          { MARVELL_DISCOVERY_II,       "gtpci",   1,       OFFSET_DEFAULT,     IRQ_DEFAULT },
          { MARVELL_DISCOVERY_II,       "gttwsi",  0,       0xc000,             37 },
          { MARVELL_DISCOVERY_II,       "mvgbec",  0,       0x0000,             IRQ_DEFAULT },

          { MARVELL_DISCOVERY_III,"gtidmac", 0,   0x0000,             4 /*...7 */ },
          { MARVELL_DISCOVERY_III,"gtmpsc",  0,   0x8000,             40 },
          { MARVELL_DISCOVERY_III,"gtmpsc",  1,   0x9000,             42 },
          { MARVELL_DISCOVERY_III,"gtpci",   0,   OFFSET_DEFAULT,     IRQ_DEFAULT },
          { MARVELL_DISCOVERY_III,"gtpci",   1,   OFFSET_DEFAULT,     IRQ_DEFAULT },
          { MARVELL_DISCOVERY_III,"gttwsi",  0,   0xc000,             37 },
          { MARVELL_DISCOVERY_III,"mvgbec",  0,   0x0000,             IRQ_DEFAULT },

#if 0     /* XXXXXX: from www.marvell.com */
          /* Discovery LT (Discovery Light) MV644[23]0 */
          { MARVELL_DISCOVERY_LT,       "gtidmac", 0,       0x?000,             ? /*...? */ },
          { MARVELL_DISCOVERY_LT,       "gtmpsc",  0,       0x?000,             ? },
          { MARVELL_DISCOVERY_LT,       "gtmpsc",  1,       0x?000,             ? },
          { MARVELL_DISCOVERY_LT,       "gtpci",   0,       OFFSET_DEFAULT,     IRQ_DEFAULT },
          { MARVELL_DISCOVERY_LT,       "gtpci",   1,       OFFSET_DEFAULT,     IRQ_DEFAULT },
          { MARVELL_DISCOVERY_LT,       "gttwsi",  0,       0x?000,             ? },
          { MARVELL_DISCOVERY_LT,       "mvgbec",  0,       0x?000,             IRQ_DEFAULT },

          /* Discovery V MV64560 */
          { MARVELL_DISCOVERY_V,        "com",     ?,       0x?0000,  ? },
          { MARVELL_DISCOVERY_V,        "ehci",    0,       0x?0000,  ? },
          { MARVELL_DISCOVERY_V,        "ehci",    1,       0x?0000,  ? },
          { MARVELL_DISCOVERY_V,        "gtidmac", 0,       0x?0000,  ? /*...? */ },
          { MARVELL_DISCOVERY_V,        "gtpci",   0,       0x?0000,  IRQ_DEFAULT },
          { MARVELL_DISCOVERY_V,        "gttwsi",  0,       0x?0000,  ? },
          { MARVELL_DISCOVERY_V,        "mvgbec",  0,       0x?0000,  IRQ_DEFAULT },
          { MARVELL_DISCOVERY_V,        "mvpex or gtpci?", 0, 0x?0000,          IRQ_DEFAULT },
          { MARVELL_DISCOVERY_V,        "obio",    0,       OFFSET_DEFAULT,     IRQ_DEFAULT },

          /* Discovery VI MV64660 */
          /* MV64560 + SATA? */
          { MARVELL_DISCOVERY_VI, "mvsata",  0,   0x?0000,  ? },
#endif
};


static int
gt_cfprint(void *aux, const char *pnp)
{
          struct marvell_attach_args *mva = aux;

          if (pnp)
                    aprint_normal("%s at %s unit %d",
                        mva->mva_name, pnp, mva->mva_unit);
          else {
                    if (mva->mva_unit != MVA_UNIT_DEFAULT)
                              aprint_normal(" unit %d", mva->mva_unit);
                    if (mva->mva_offset != MVA_OFFSET_DEFAULT) {
                              aprint_normal(" offset 0x%04x", mva->mva_offset);
                              if (mva->mva_size > 0)
                                        aprint_normal("-0x%04x",
                                            mva->mva_offset + mva->mva_size - 1);
                    }
                    if (mva->mva_irq != MVA_IRQ_DEFAULT)
                              aprint_normal(" irq %d", mva->mva_irq);
          }

          return UNCONF;
}


/* ARGSUSED */
static int
gt_cfsearch(device_t parent, cfdata_t cf, const int *ldesc, void *aux)
{
          struct marvell_attach_args *mva = aux;

          if (cf->cf_loc[GTCF_IRQ] != MVA_IRQ_DEFAULT)
                    mva->mva_irq = cf->cf_loc[GTCF_IRQ];

          return config_match(parent, cf, aux);
}

static void
gt_attach_peripherals(struct gt_softc *sc)
{
          struct marvell_attach_args mva;
          int i;

          for (i = 0; i < __arraycount(gt_devs); i++) {
                    if (gt_devs[i].model != sc->sc_model)
                              continue;

                    mva.mva_name = gt_devs[i].name;
                    mva.mva_model = sc->sc_model;
                    mva.mva_revision = sc->sc_rev;
                    mva.mva_iot = sc->sc_iot;
                    mva.mva_ioh = sc->sc_ioh;
                    mva.mva_unit = gt_devs[i].unit;
                    mva.mva_addr = sc->sc_addr;
                    mva.mva_offset = gt_devs[i].offset;
                    mva.mva_size = 0;
                    mva.mva_dmat = sc->sc_dmat;
                    mva.mva_irq = gt_devs[i].irq;

                    config_found(sc->sc_dev, &mva, gt_cfprint,
                        CFARGS(.submatch = gt_cfsearch));
          }
}

void
gt_attach_common(struct gt_softc *gt)
{
          uint32_t cpucfg, cpumode, cpumstr;
#ifdef GT_DEBUG
          uint32_t loaddr, hiaddr;
#endif

          gt_write(gt, GTPCI_CA(0), PCI_ID_REG);
          gt->sc_model = PCI_PRODUCT(gt_read(gt, GTPCI_CD(0)));
          gt_write(gt, GTPCI_CA(0), PCI_CLASS_REG);
          gt->sc_rev = PCI_REVISION(gt_read(gt, GTPCI_CD(0)));

          aprint_naive("\n");
          switch (gt->sc_model) {
          case MARVELL_DISCOVERY:
                    aprint_normal(": GT-6426x%c Discovery\n",
                        (gt->sc_rev == MARVELL_DISCOVERY_REVA) ? 'A' : 'B');
                    break;
          case MARVELL_DISCOVERY_II:
                    aprint_normal(": MV6436x Discovery II\n");
                    break;

          case MARVELL_DISCOVERY_III:
                    aprint_normal(": MV6446x Discovery III\n");
                    break;
#if 0
          case MARVELL_DISCOVERY_LT:
          case MARVELL_DISCOVERY_V:
          case MARVELL_DISCOVERY_VI:
#endif

          default:
                    aprint_normal(": type unknown\n"); break;
          }

          cpumode = gt_read(gt, GT_CPU_Mode);
          aprint_normal_dev(gt->sc_dev,
              "id %d", GT_CPUMode_MultiGTID_GET(cpumode));
          if (cpumode & GT_CPUMode_MultiGT)
                    aprint_normal (" (multi)");
          switch (GT_CPUMode_CPUType_GET(cpumode)) {
          case 4: aprint_normal(", 60x bus"); break;
          case 5: aprint_normal(", MPX bus"); break;

          default:
                    aprint_normal(", %#x(?) bus", GT_CPUMode_CPUType_GET(cpumode));
                    break;
          }

          cpumstr = gt_read(gt, GT_CPU_Master_Ctl);
          switch (cpumstr & (GT_CPUMstrCtl_CleanBlock|GT_CPUMstrCtl_FlushBlock)) {
          case 0: break;
          case GT_CPUMstrCtl_CleanBlock: aprint_normal(", snoop=clean"); break;
          case GT_CPUMstrCtl_FlushBlock: aprint_normal(", snoop=flush"); break;
          case GT_CPUMstrCtl_CleanBlock|GT_CPUMstrCtl_FlushBlock:
                    aprint_normal(", snoop=clean&flush"); break;
          }
          aprint_normal(" wdog=%#x,%#x\n",
              gt_read(gt, GT_WDOG_Config), gt_read(gt, GT_WDOG_Value));

#ifdef GT_DEBUG
          loaddr = GT_LADDR_GET(gt_read(gt, GT_SCS0_Low_Decode), gt->sc_model);
          hiaddr = GT_HADDR_GET(gt_read(gt, GT_SCS0_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "     scs[0]=%#10x-%#10x\n",
              loaddr, hiaddr);

          loaddr = GT_LADDR_GET(gt_read(gt, GT_SCS1_Low_Decode), gt->sc_model);
          hiaddr = GT_HADDR_GET(gt_read(gt, GT_SCS1_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "     scs[1]=%#10x-%#10x\n",
              loaddr, hiaddr);

          loaddr = GT_LADDR_GET(gt_read(gt, GT_SCS2_Low_Decode), gt->sc_model);
          hiaddr = GT_HADDR_GET(gt_read(gt, GT_SCS2_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "     scs[2]=%#10x-%#10x\n",
              loaddr, hiaddr);

          loaddr = GT_LADDR_GET(gt_read(gt, GT_SCS3_Low_Decode), gt->sc_model);
          hiaddr = GT_HADDR_GET(gt_read(gt, GT_SCS3_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "     scs[3]=%#10x-%#10x\n",
              loaddr, hiaddr);

          loaddr = GT_LADDR_GET(gt_read(gt, GT_CS0_Low_Decode), gt->sc_model);
          hiaddr = GT_HADDR_GET(gt_read(gt, GT_CS0_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "      cs[0]=%#10x-%#10x\n",
              loaddr, hiaddr);

          loaddr = GT_LADDR_GET(gt_read(gt, GT_CS1_Low_Decode), gt->sc_model);
          hiaddr = GT_HADDR_GET(gt_read(gt, GT_CS1_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "      cs[1]=%#10x-%#10x\n",
              loaddr, hiaddr);

          loaddr = GT_LADDR_GET(gt_read(gt, GT_CS2_Low_Decode), gt->sc_model);
          hiaddr = GT_HADDR_GET(gt_read(gt, GT_CS2_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "      cs[2]=%#10x-%#10x\n",
              loaddr, hiaddr);

          loaddr = GT_LADDR_GET(gt_read(gt, GT_CS3_Low_Decode), gt->sc_model);
          hiaddr = GT_HADDR_GET(gt_read(gt, GT_CS3_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "      cs[3]=%#10x-%#10x\n",
              loaddr, hiaddr);

          loaddr = GT_LADDR_GET(gt_read(gt, GT_BootCS_Low_Decode), gt->sc_model);
          hiaddr = GT_HADDR_GET(gt_read(gt, GT_BootCS_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "     bootcs=%#10x-%#10x\n",
              loaddr, hiaddr);

          loaddr = GT_LADDR_GET(gt_read(gt, GT_PCI0_IO_Low_Decode), gt->sc_model);
          hiaddr =
              GT_HADDR_GET(gt_read(gt, GT_PCI0_IO_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "     pci0io=%#10x-%#10x  ",
              loaddr, hiaddr);

          loaddr = gt_read(gt, GT_PCI0_IO_Remap);
          aprint_normal("remap=%#010x\n", loaddr);

          loaddr =
              GT_LADDR_GET(gt_read(gt, GT_PCI0_Mem0_Low_Decode), gt->sc_model);
          hiaddr =
              GT_HADDR_GET(gt_read(gt, GT_PCI0_Mem0_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, " pci0mem[0]=%#10x-%#10x  ",
              loaddr, hiaddr);

          loaddr = gt_read(gt, GT_PCI0_Mem0_Remap_Low);
          hiaddr = gt_read(gt, GT_PCI0_Mem0_Remap_High);
          aprint_normal("remap=%#010x.%#010x\n", hiaddr, loaddr);

          loaddr =
              GT_LADDR_GET(gt_read(gt, GT_PCI0_Mem1_Low_Decode), gt->sc_model);
          hiaddr =
              GT_HADDR_GET(gt_read(gt, GT_PCI0_Mem1_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, " pci0mem[1]=%#10x-%#10x  ",
              loaddr, hiaddr);

          loaddr = gt_read(gt, GT_PCI0_Mem1_Remap_Low);
          hiaddr = gt_read(gt, GT_PCI0_Mem1_Remap_High);
          aprint_normal("remap=%#010x.%#010x\n", hiaddr, loaddr);

          loaddr =
              GT_LADDR_GET(gt_read(gt, GT_PCI0_Mem2_Low_Decode), gt->sc_model);
          hiaddr =
              GT_HADDR_GET(gt_read(gt, GT_PCI0_Mem2_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, " pci0mem[2]=%#10x-%#10x  ",
              loaddr, hiaddr);

          loaddr = gt_read(gt, GT_PCI0_Mem2_Remap_Low);
          hiaddr = gt_read(gt, GT_PCI0_Mem2_Remap_High);
          aprint_normal("remap=%#010x.%#010x\n", hiaddr, loaddr);

          loaddr =
              GT_LADDR_GET(gt_read(gt, GT_PCI0_Mem3_Low_Decode), gt->sc_model);
          hiaddr =
              GT_HADDR_GET(gt_read(gt, GT_PCI0_Mem3_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, " pci0mem[3]=%#10x-%#10x  ",
              loaddr, hiaddr);

          loaddr = gt_read(gt, GT_PCI0_Mem3_Remap_Low);
          hiaddr = gt_read(gt, GT_PCI0_Mem3_Remap_High);
          aprint_normal("remap=%#010x.%#010x\n", hiaddr, loaddr);

          loaddr = GT_LADDR_GET(gt_read(gt, GT_PCI1_IO_Low_Decode), gt->sc_model);
          hiaddr =
              GT_HADDR_GET(gt_read(gt, GT_PCI1_IO_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "     pci1io=%#10x-%#10x  ",
              loaddr, hiaddr);

          loaddr = gt_read(gt, GT_PCI1_IO_Remap);
          aprint_normal("remap=%#010x\n", loaddr);

          loaddr =
              GT_LADDR_GET(gt_read(gt, GT_PCI1_Mem0_Low_Decode), gt->sc_model);
          hiaddr =
              GT_HADDR_GET(gt_read(gt, GT_PCI1_Mem0_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, " pci1mem[0]=%#10x-%#10x  ",
              loaddr, hiaddr);

          loaddr = gt_read(gt, GT_PCI1_Mem0_Remap_Low);
          hiaddr = gt_read(gt, GT_PCI1_Mem0_Remap_High);
          aprint_normal("remap=%#010x.%#010x\n", hiaddr, loaddr);

          loaddr =
              GT_LADDR_GET(gt_read(gt, GT_PCI1_Mem1_Low_Decode), gt->sc_model);
          hiaddr =
              GT_HADDR_GET(gt_read(gt, GT_PCI1_Mem1_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, " pci1mem[1]=%#10x-%#10x  ",
              loaddr, hiaddr);

          loaddr = gt_read(gt, GT_PCI1_Mem1_Remap_Low);
          hiaddr = gt_read(gt, GT_PCI1_Mem1_Remap_High);
          aprint_normal("remap=%#010x.%#010x\n", hiaddr, loaddr);

          loaddr =
              GT_LADDR_GET(gt_read(gt, GT_PCI1_Mem2_Low_Decode), gt->sc_model);
          hiaddr =
              GT_HADDR_GET(gt_read(gt, GT_PCI1_Mem2_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, " pci1mem[2]=%#10x-%#10x  ",
              loaddr, hiaddr);

          loaddr = gt_read(gt, GT_PCI1_Mem2_Remap_Low);
          hiaddr = gt_read(gt, GT_PCI1_Mem2_Remap_High);
          aprint_normal("remap=%#010x.%#010x\n", hiaddr, loaddr);

          loaddr =
              GT_LADDR_GET(gt_read(gt, GT_PCI1_Mem3_Low_Decode), gt->sc_model);
          hiaddr =
              GT_HADDR_GET(gt_read(gt, GT_PCI1_Mem3_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, " pci1mem[3]=%#10x-%#10x  ",
              loaddr, hiaddr);

          loaddr = gt_read(gt, GT_PCI1_Mem3_Remap_Low);
          hiaddr = gt_read(gt, GT_PCI1_Mem3_Remap_High);
          aprint_normal("remap=%#010x.%#010x\n", hiaddr, loaddr);

          loaddr = GT_LADDR_GET(gt_read(gt, GT_Internal_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "   internal=%#10x-%#10x\n",
              loaddr, loaddr + 256 * 1024);

          loaddr = GT_LADDR_GET(gt_read(gt, GT_CPU0_Low_Decode), gt->sc_model);
          hiaddr = GT_HADDR_GET(gt_read(gt, GT_CPU0_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "       cpu0=%#10x-%#10x\n",
              loaddr, hiaddr);

#ifdef MULTIPROCESSOR
          loaddr = GT_LADDR_GET(gt_read(gt, GT_CPU1_Low_Decode), gt->sc_model);
          hiaddr = GT_HADDR_GET(gt_read(gt, GT_CPU1_High_Decode), gt->sc_model);
          aprint_normal_dev(gt->sc_dev, "       cpu1=%#10x-%#10x",
              loaddr, hiaddr);
#endif
#endif

          aprint_normal("%s:", device_xname(gt->sc_dev));

          cpucfg = gt_read(gt, GT_CPU_Cfg);
          cpucfg |= GT_CPUCfg_ConfSBDis;                    /* per errata #46 */
          cpucfg |= GT_CPUCfg_AACKDelay;                    /* per restriction #18 */
          gt_write(gt, GT_CPU_Cfg, cpucfg);
          if (cpucfg & GT_CPUCfg_Pipeline)
                    aprint_normal(" pipeline");
          if (cpucfg & GT_CPUCfg_AACKDelay)
                    aprint_normal(" aack-delay");
          if (cpucfg & GT_CPUCfg_RdOOO)
                    aprint_normal(" read-ooo");
          if (cpucfg & GT_CPUCfg_IOSBDis)
                    aprint_normal(" io-sb-dis");
          if (cpucfg & GT_CPUCfg_ConfSBDis)
                    aprint_normal(" conf-sb-dis");
          if (cpucfg & GT_CPUCfg_ClkSync)
                    aprint_normal(" clk-sync");
          aprint_normal("\n");

#ifdef GT_WATCHDOG
          gt_watchdog_init(gt);
#endif

#ifdef GT_DEVBUS
          gt_devbus_intr_enb(gt);
#endif
#ifdef GT_ECC
          gt_ecc_intr_enb(gt);
#endif
#if NGTMPSC > 0
          gt_sdma_intr_enb(gt);
#endif
#ifdef GT_COMM
          gt_comm_intr_enb(gt);
#endif

          gt_attach_peripherals(gt);

#ifdef GT_WATCHDOG
          gt_watchdog_service();
          gt_watchdog_enable(gt);
#endif
}


#ifdef GT_DEVBUS
static int
gt_devbus_intr(void *arg)
{
          struct gt_softc *gt = (struct gt_softc *)arg;
          u_int32_t cause;
          u_int32_t addr;

          cause = gt_read(gt, GT_DEVBUS_ICAUSE);
          addr = gt_read(gt, GT_DEVBUS_ERR_ADDR);
          gt_write(gt, GT_DEVBUS_ICAUSE, 0);      /* clear intr */

          if (cause & GT_DEVBUS_DBurstErr) {
                    aprint_error_dev(gt->sc_dev,
                        "Device Bus error: burst violation");
                    if ((cause & GT_DEVBUS_Sel) == 0)
                              aprint_error(", addr %#x", addr);
                    aprint_error("\n");
          }
          if (cause & GT_DEVBUS_DRdyErr) {
                    aprint_error_dev(gt->sc_dev,
                        "Device Bus error: ready timer expired");
                    if ((cause & GT_DEVBUS_Sel) != 0)
                              aprint_error(", addr %#x\n", addr);
                    aprint_error("\n");
          }

          return cause != 0;
}

/*
 * gt_devbus_intr_enb - enable GT-64260 Device Bus interrupts
 */
static void
gt_devbus_intr_enb(struct gt_softc *gt)
{
          gt_write(gt, GT_DEVBUS_IMASK,
                    GT_DEVBUS_DBurstErr|GT_DEVBUS_DRdyErr);
          (void)gt_read(gt, GT_DEVBUS_ERR_ADDR);  /* clear addr */
          gt_write(gt, GT_DEVBUS_ICAUSE, 0);      /* clear intr */

          (void)marvell_intr_establish(IRQ_DEV, IPL_VM, gt_devbus_intr, gt);
}
#endif    /* GT_DEVBUS */

#ifdef GT_ECC
const static char *gt_ecc_intr_str[4] = {
          "(none)",
          "single bit",
          "double bit",
          "(reserved)"
};

static int
gt_ecc_intr(void *arg)
{
          struct gt_softc *gt = (struct gt_softc *)arg;
          uint32_t addr, dlo, dhi, rec, calc, count;
          int err;

          count = gt_read(gt, GT_ECC_Count);
          dlo   = gt_read(gt, GT_ECC_Data_Lo);
          dhi   = gt_read(gt, GT_ECC_Data_Hi);
          rec   = gt_read(gt, GT_ECC_Rec);
          calc  = gt_read(gt, GT_ECC_Calc);
          addr  = gt_read(gt, GT_ECC_Addr);       /* read last! */
          gt_write(gt, GT_ECC_Addr, 0);           /* clear intr */

          err = addr & 0x3;

          aprint_error_dev(gt->sc_dev,
              "ECC error: %s: addr %#x data %#x.%#x rec %#x calc %#x cnt %#x\n",
              gt_ecc_intr_str[err], addr, dhi, dlo, rec, calc, count);

          if (err == 2)
                    panic("ecc");

          return err == 1;
}

/*
 * gt_ecc_intr_enb - enable GT-64260 ECC interrupts
 */
static void
gt_ecc_intr_enb(struct gt_softc *gt)
{
          uint32_t ctl;

          ctl = gt_read(gt, GT_ECC_Ctl);
          ctl |= 1 << 16;               /* XXX 1-bit threshold == 1 */
          gt_write(gt, GT_ECC_Ctl, ctl);
          (void)gt_read(gt, GT_ECC_Data_Lo);
          (void)gt_read(gt, GT_ECC_Data_Hi);
          (void)gt_read(gt, GT_ECC_Rec);
          (void)gt_read(gt, GT_ECC_Calc);
          (void)gt_read(gt, GT_ECC_Addr);                   /* read last! */
          gt_write(gt, GT_ECC_Addr, 0);           /* clear intr */

          (void)marvell_intr_establish(IRQ_ECC, IPL_VM, gt_ecc_intr, gt);
}
#endif    /* GT_ECC */

#if NGTMPSC > 0
/*
 * gt_sdma_intr_enb - enable GT-64260 SDMA interrupts
 */
static void
gt_sdma_intr_enb(struct gt_softc *gt)
{

          (void)marvell_intr_establish(IRQ_SDMA, IPL_SERIAL, gtmpsc_intr, gt);
}
#endif

#ifdef GT_COMM
/*
 * unknown board, enable everything
 */
# define GT_CommUnitIntr_DFLT \
              GT_CommUnitIntr_S0 |\
              GT_CommUnitIntr_S1 |\
              GT_CommUnitIntr_E0 |\
              GT_CommUnitIntr_E1 |\
              GT_CommUnitIntr_E2

static const char * const gt_comm_subunit_name[8] = {
          "ethernet 0",
          "ethernet 1",
          "ethernet 2",
          "(reserved)",
          "MPSC 0",
          "MPSC 1",
          "(reserved)",
          "(sel)",
};

static int
gt_comm_intr(void *arg)
{
          struct gt_softc *gt = (struct gt_softc *)arg;
          uint32_t cause, addr;
          unsigned int mask;
          int i;

          cause = gt_read(gt, GT_CommUnitIntr_Cause);
          gt_write(gt, GT_CommUnitIntr_Cause, ~cause);
          addr = gt_read(gt, GT_CommUnitIntr_ErrAddr);

          aprint_error_dev(gt->sc_dev,
              "Communications Unit Controller interrupt, cause %#x addr %#x\n",
              cause, addr);

          cause &= GT_CommUnitIntr_DFLT;
          if (cause == 0)
                    return 0;

          mask = 0x7;
          for (i=0; i<7; i++) {
                    if (cause & mask) {
                              printf("%s: Comm Unit %s:", device_xname(gt->sc_dev),
                                        gt_comm_subunit_name[i]);
                              if (cause & 1)
                                        printf(" AddrMiss");
                              if (cause & 2)
                                        printf(" AccProt");
                              if (cause & 4)
                                        printf(" WrProt");
                              printf("\n");
                    }
                    cause >>= 4;
          }
          return 1;
}

/*
 * gt_comm_intr_init - enable GT-64260 Comm Unit interrupts
 */
static void
gt_comm_intr_enb(struct gt_softc *gt)
{
          uint32_t cause;

          cause = gt_read(gt, GT_CommUnitIntr_Cause);
          if (cause)
                    gt_write(gt, GT_CommUnitIntr_Cause, ~cause);
          gt_write(gt, GT_CommUnitIntr_Mask, GT_CommUnitIntr_DFLT);
          (void)gt_read(gt, GT_CommUnitIntr_ErrAddr);

          (void)marvell_intr_establish(IRQ_COMM, IPL_VM, gt_comm_intr, gt);
}
#endif    /* GT_COMM */


#ifdef GT_WATCHDOG
#ifndef GT_MPP_WATCHDOG
static void
gt_watchdog_init(struct gt_softc *gt)
{
          u_int32_t r;

          aprint_normal_dev(gt->sc_dev, "watchdog");

          /*
           * handle case where firmware started watchdog
           */
          r = gt_read(gt, GT_WDOG_Config);
          aprint_normal(" status %#x,%#x:", r, gt_read(gt, GT_WDOG_Value));
          if ((r & 0x80000000) != 0) {
                    gt_watchdog_sc = gt;                    /* enabled */
                    gt_watchdog_state = 1;
                    aprint_normal(" firmware-enabled\n");
                    gt_watchdog_disable(gt);
          } else
                    aprint_normal(" firmware-disabled\n");
}

#elif     GT_MPP_WATCHDOG == 0

static void
gt_watchdog_init(struct gt_softc *gt)
{

          aprint_normal_dev(gt->sc_dev, "watchdog not configured\n");
          return;
}

#else     /* GT_MPP_WATCHDOG > 0 */

static void
gt_watchdog_init(struct gt_softc *gt)
{
          u_int32_t mpp_watchdog = GT_MPP_WATCHDOG;         /* from config */
          u_int32_t cfgbits, mppbits, mppmask, regoff, r;

          mppmask = 0;

          aprint_normal_dev(gt->sc_dev, "watchdog");

          /*
           * if firmware started watchdog, we disable and start
           * from scratch to get it in a known state.
           *
           * on GT-64260A we always see 0xffffffff
           * in both the GT_WDOG_Config_Enb and GT_WDOG_Value registers.
           */
          r = gt_read(gt, GT_WDOG_Config);
          if (r != ~0) {
                    if ((r & GT_WDOG_Config_Enb) != 0) {
                              gt_write(gt, GT_WDOG_Config,
                                  GT_WDOG_Config_Ctl1a | GT_WDOG_Preset_DFLT);
                              gt_write(gt, GT_WDOG_Config,
                                  GT_WDOG_Config_Ctl1b | GT_WDOG_Preset_DFLT);
                    }
          }

          /*
           * "the watchdog timer can be activated only after
           * configuring two MPP pins to act as WDE and WDNMI"
           */
          mppbits = 0;
          cfgbits = 0x3;
          for (regoff = GT_MPP_Control0; regoff <= GT_MPP_Control3; regoff += 4) {
                    if ((mpp_watchdog & cfgbits) == cfgbits) {
                              mppbits = 0x99;
                              mppmask = 0xff;
                              break;
                    }
                    cfgbits <<= 2;
                    if ((mpp_watchdog & cfgbits) == cfgbits) {
                              mppbits = 0x9900;
                              mppmask = 0xff00;
                              break;
                    }
                    cfgbits <<= 6;      /* skip unqualified bits */
          }
          if (mppbits == 0) {
                    aprint_error(" config error\n");
                    return;
          }

          r = gt_read(gt, regoff);
          r &= ~mppmask;
          r |= mppbits;
          gt_write(gt, regoff, r);
          aprint_normal(" mpp %#x %#x", regoff, mppbits);

          gt_write(gt, GT_WDOG_Value, GT_WDOG_NMI_DFLT);

          gt_write(gt, GT_WDOG_Config, GT_WDOG_Config_Ctl1a|GT_WDOG_Preset_DFLT);
          gt_write(gt, GT_WDOG_Config, GT_WDOG_Config_Ctl1b|GT_WDOG_Preset_DFLT);

          r = gt_read(gt, GT_WDOG_Config);
          aprint_normal(" status %#x,%#x: %s\n",
              r, gt_read(gt, GT_WDOG_Value),
              ((r & GT_WDOG_Config_Enb) != 0) ? "enabled" : "botch");
}
#endif    /* GT_MPP_WATCHDOG */

static void
gt_watchdog_enable(struct gt_softc *gt)
{

          if (gt_watchdog_state == 0) {
                    gt_watchdog_state = 1;

                    gt_write(gt, GT_WDOG_Config,
                        GT_WDOG_Config_Ctl1a | GT_WDOG_Preset_DFLT);
                    gt_write(gt, GT_WDOG_Config,
                        GT_WDOG_Config_Ctl1b | GT_WDOG_Preset_DFLT);
          }
}

#ifndef GT_MPP_WATCHDOG
static void
gt_watchdog_disable(struct gt_softc *gt)
{

          if (gt_watchdog_state != 0) {
                    gt_watchdog_state = 0;

                    gt_write(gt, GT_WDOG_Config,
                        GT_WDOG_Config_Ctl1a | GT_WDOG_Preset_DFLT);
                    gt_write(gt, GT_WDOG_Config,
                        GT_WDOG_Config_Ctl1b | GT_WDOG_Preset_DFLT);
          }
}
#endif

/*
 * XXXX: gt_watchdog_service/reset functions need mutex lock...
 */

#ifdef GT_DEBUG
int inhibit_watchdog_service = 0;
#endif
void
gt_watchdog_service(void)
{
          struct gt_softc *gt = gt_watchdog_sc;

          if ((gt == NULL) || (gt_watchdog_state == 0))
                    return;             /* not enabled */
#ifdef GT_DEBUG
          if (inhibit_watchdog_service)
                    return;
#endif

          gt_write(gt, GT_WDOG_Config, GT_WDOG_Config_Ctl2a|GT_WDOG_Preset_DFLT);
          gt_write(gt, GT_WDOG_Config, GT_WDOG_Config_Ctl2b|GT_WDOG_Preset_DFLT);
}

/*
 * gt_watchdog_reset - force a watchdog reset using Preset_VAL=0
 */
void
gt_watchdog_reset(void)
{
          struct gt_softc *gt = gt_watchdog_sc;
          u_int32_t r;

          r = gt_read(gt, GT_WDOG_Config);
          gt_write(gt, GT_WDOG_Config, GT_WDOG_Config_Ctl1a);
          gt_write(gt, GT_WDOG_Config, GT_WDOG_Config_Ctl1b);
          if ((r & GT_WDOG_Config_Enb) != 0) {
                    /*
                     * was enabled, we just toggled it off, toggle on again
                     */
                    gt_write(gt, GT_WDOG_Config, GT_WDOG_Config_Ctl1a);
                    gt_write(gt, GT_WDOG_Config, GT_WDOG_Config_Ctl1b);
          }
          for(;;);
}
#endif


int
marvell_winparams_by_tag(device_t dev, int tag, int *target, int *attr,
                               uint64_t *base, uint32_t *size)
{
          static const struct {
                    int tag;
                    uint32_t attribute;
                    uint32_t basereg;
                    uint32_t sizereg;
          } tagtbl[] = {
                    { MARVELL_TAG_SDRAM_CS0,      MARVELL_ATTR_SDRAM_CS0,
                      GT_SCS0_Low_Decode,                   GT_SCS0_High_Decode },
                    { MARVELL_TAG_SDRAM_CS1,      MARVELL_ATTR_SDRAM_CS1,
                      GT_SCS1_Low_Decode,                   GT_SCS1_High_Decode },
                    { MARVELL_TAG_SDRAM_CS2,      MARVELL_ATTR_SDRAM_CS2,
                      GT_SCS2_Low_Decode,                   GT_SCS2_High_Decode },
                    { MARVELL_TAG_SDRAM_CS3,      MARVELL_ATTR_SDRAM_CS3,
                      GT_SCS3_Low_Decode,                   GT_SCS3_High_Decode },

                    { MARVELL_TAG_UNDEFINED, 0, 0 }
          };
          struct gt_softc *sc = device_private(dev);
          int i;

          for (i = 0; tagtbl[i].tag != MARVELL_TAG_UNDEFINED; i++)
                    if (tag == tagtbl[i].tag)
                              break;
          if (tagtbl[i].tag == MARVELL_TAG_UNDEFINED)
                    return -1;

          if (target != NULL)
                    *target = 0;
          if (attr != NULL)
                    *attr = tagtbl[i].attribute;
          if (base != NULL)
                    *base = gt_read(sc, tagtbl[i].basereg) <<
                        (sc->sc_model == MARVELL_DISCOVERY ? 20 : 16);
          if (size != NULL) {
                    const uint32_t s = gt_read(sc, tagtbl[i].sizereg);

                    if (s != 0)
                              *size = (s + 1) <<
                                  (sc->sc_model == MARVELL_DISCOVERY ? 20 : 16);
                    else
                              *size = 0;
          }

          return 0;
}