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|
/* $OpenBSD: hpc.c,v 1.13 2012/05/27 14:27:08 miod Exp $ */
/* $NetBSD: hpc.c,v 1.66 2011/07/01 18:53:46 dyoung Exp $ */
/* $NetBSD: ioc.c,v 1.9 2011/07/01 18:53:47 dyoung Exp $ */
/*
* Copyright (c) 2003 Christopher Sekiya
* 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. See http://www.NetBSD.org/ for
* information about NetBSD.
* 4. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 THE AUTHOR 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.
*/
/*
* Copyright (c) 2000 Soren S. Jorvang
* Copyright (c) 2001 Rafal K. Boni
* Copyright (c) 2001 Jason R. Thorpe
* 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. See http://www.NetBSD.org/ for
* information about NetBSD.
* 4. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 THE AUTHOR 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.
*/
/*
* Combined driver for the HPC (High performance Peripheral Controller)
* and IOC2 (I/O Controller) chips.
*
* It would theoretically be better to attach an IOC driver to HPC on
* IOC systems (IP22/24/26/28), and attach the few onboard devices
* which attach directly to HPC on IP20, to IOC. But since IOC depends
* too much on HPC, the complexity this would introduce is not worth
* the hassle.
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/device.h>
#include <sys/timeout.h>
#include <mips64/archtype.h>
#include <machine/autoconf.h>
#include <machine/bus.h>
#include <machine/cpu.h>
#include <sgi/gio/gioreg.h>
#include <sgi/gio/giovar.h>
#include <sgi/hpc/hpcreg.h>
#include <sgi/hpc/hpcvar.h>
#include <sgi/localbus/imcvar.h>
#include <sgi/localbus/intreg.h>
#include <sgi/localbus/intvar.h>
#include <sgi/hpc/iocreg.h>
#include <sgi/sgi/ip22.h>
#include <dev/ic/smc93cx6var.h>
struct hpc_device {
const char *hd_name;
bus_addr_t hd_base;
bus_addr_t hd_devoff;
bus_addr_t hd_dmaoff;
int hd_irq;
int hd_sysmask;
};
#define HPCDEV_IP20 (1U << 1) /* Indigo R4k */
#define HPCDEV_IP22 (1U << 2) /* Indigo2 */
#define HPCDEV_IP24 (1U << 3) /* Indy, Challenge S */
#define HPCDEV_IP24_INDY (1U << 4) /* Indy only */
/*
* On-board HPC1 devices (IP20 only)
*/
static const struct hpc_device hpc1_onboard[] = {
/* probe order is important for IP20 zs */
{ "zs", /* serial 0/1 duart 1 */
HPC_BASE_ADDRESS_0,
0x0d10, 0,
INT2_L0_INTR(INT2_L0_IP20_SERIAL),
HPCDEV_IP20 },
{ "zs", /* kbd/ms duart 0 */
HPC_BASE_ADDRESS_0,
0x0d00, 0,
INT2_L0_INTR(INT2_L0_IP20_SERIAL),
HPCDEV_IP20 },
{ "sq", /* onboard Ethernet */
HPC_BASE_ADDRESS_0,
HPC1_ENET_DEVREGS, HPC1_ENET_REGS,
INT2_L0_INTR(INT2_L0_ENET),
HPCDEV_IP20 },
{ "wdsc", /* onboard SCSI */
HPC_BASE_ADDRESS_0,
HPC1_SCSI0_DEVREGS, HPC1_SCSI0_REGS,
INT2_L0_INTR(INT2_L0_SCSI1),
HPCDEV_IP20 },
{ NULL }
};
/*
* On-board HPC3 devices (IP22, IP24)
*/
static const struct hpc_device hpc3_onboard[] = {
{ "zs", /* serial 0/1 duart 0 */
HPC_BASE_ADDRESS_0,
IOC_BASE + IOC_SERIAL_REGS, 0,
INT2_MAP1_INTR(INT2_MAP_SERIAL),
HPCDEV_IP22 | HPCDEV_IP24 },
{ "pckbc", /* PS/2 keyboard/mouse controller */
HPC_BASE_ADDRESS_0,
IOC_BASE + IOC_KB_REGS, 0,
INT2_MAP1_INTR(INT2_MAP_PCKBC),
HPCDEV_IP22 | HPCDEV_IP24_INDY },
{ "sq", /* onboard Ethernet */
HPC_BASE_ADDRESS_0,
HPC3_ENET_DEVREGS, HPC3_ENET_REGS,
INT2_L0_INTR(INT2_L0_ENET),
HPCDEV_IP22 | HPCDEV_IP24 },
{ "wdsc", /* onboard SCSI */
HPC_BASE_ADDRESS_0,
HPC3_SCSI0_DEVREGS, HPC3_SCSI0_REGS,
INT2_L0_INTR(INT2_L0_IP22_SCSI0),
HPCDEV_IP22 | HPCDEV_IP24 },
{ "wdsc", /* Indigo2/Challenge M secondary onboard SCSI */
HPC_BASE_ADDRESS_0,
HPC3_SCSI1_DEVREGS, HPC3_SCSI1_REGS,
INT2_L0_INTR(INT2_L0_SCSI1),
HPCDEV_IP22 },
{ "haltwo", /* onboard audio */
HPC_BASE_ADDRESS_0,
HPC3_PBUS_CH0_DEVREGS, HPC3_PBUS_DMAREGS,
INT2_L1_INTR(INT2_L1_IP22_HPC_DMA),
HPCDEV_IP22 | HPCDEV_IP24_INDY },
{ "pione", /* onboard parallel port */
HPC_BASE_ADDRESS_0,
IOC_BASE + IOC_PLP_REGS, 0,
INT2_L0_INTR(INT2_L0_IP22_PARALLEL),
HPCDEV_IP22 | HPCDEV_IP24 },
{ "panel", /* Indy front panel */
HPC_BASE_ADDRESS_0,
IOC_BASE + IOC_PANEL, 0,
INT2_L1_INTR(INT2_L1_IP22_PANEL),
HPCDEV_IP22 | HPCDEV_IP24 },
{ NULL }
};
/*
* Expansion HPC1 devices
*/
static const struct hpc_device hpc1_devices[] = {
{ "sq", /* E++ GIO adapter */
0,
HPC1_ENET_DEVREGS, HPC1_ENET_REGS,
-1,
HPCDEV_IP20 | HPCDEV_IP24 },
{ "wdsc", /* GIO32 SCSI adapter */
0,
HPC1_SCSI0_DEVREGS, HPC1_SCSI0_REGS,
-1,
HPCDEV_IP20 | HPCDEV_IP24 },
{ NULL }
};
/*
* Expansion HPC3 devices
*/
static const struct hpc_device hpc3_devices[] = {
{ "sq", /* Challenge S IO+ secondary ethernet */
HPC_BASE_ADDRESS_1,
HPC3_ENET_DEVREGS, HPC3_ENET_REGS,
INT2_L0_INTR(INT2_L0_GIO_SLOT0),
HPCDEV_IP24 },
{ NULL }
};
struct hpc_softc {
struct device sc_dev;
bus_addr_t sc_base;
bus_space_tag_t sc_ct;
bus_space_handle_t sc_ch;
bus_dma_tag_t sc_dmat;
struct timeout sc_blink_tmo;
};
static struct hpc_values hpc1_values = {
.revision = 1,
.scsi0_regs = HPC1_SCSI0_REGS,
.scsi0_regs_size = HPC1_SCSI0_REGS_SIZE,
.scsi0_cbp = HPC1_SCSI0_CBP,
.scsi0_ndbp = HPC1_SCSI0_NDBP,
.scsi0_bc = HPC1_SCSI0_BC,
.scsi0_ctl = HPC1_SCSI0_CTL,
.scsi0_gio = HPC1_SCSI0_GIO,
.scsi0_dev = HPC1_SCSI0_DEV,
.scsi0_dmacfg = HPC1_SCSI0_DMACFG,
.scsi0_piocfg = HPC1_SCSI0_PIOCFG,
.scsi1_regs = 0,
.scsi1_regs_size = 0,
.scsi1_cbp = 0,
.scsi1_ndbp = 0,
.scsi1_bc = 0,
.scsi1_ctl = 0,
.scsi1_gio = 0,
.scsi1_dev = 0,
.scsi1_dmacfg = 0,
.scsi1_piocfg = 0,
.enet_regs = HPC1_ENET_REGS,
.enet_regs_size = HPC1_ENET_REGS_SIZE,
.enet_intdelay = HPC1_ENET_INTDELAY,
.enet_intdelayval = HPC1_ENET_INTDELAY_OFF,
.enetr_cbp = HPC1_ENETR_CBP,
.enetr_ndbp = HPC1_ENETR_NDBP,
.enetr_bc = HPC1_ENETR_BC,
.enetr_ctl = HPC1_ENETR_CTL,
.enetr_ctl_active = HPC1_ENETR_CTL_ACTIVE,
.enetr_reset = HPC1_ENETR_RESET,
.enetr_dmacfg = 0,
.enetr_piocfg = 0,
.enetx_cbp = HPC1_ENETX_CBP,
.enetx_ndbp = HPC1_ENETX_NDBP,
.enetx_bc = HPC1_ENETX_BC,
.enetx_ctl = HPC1_ENETX_CTL,
.enetx_ctl_active = HPC1_ENETX_CTL_ACTIVE,
.enetx_dev = 0,
.enetr_fifo = HPC1_ENETR_FIFO,
.enetr_fifo_size = HPC1_ENETR_FIFO_SIZE,
.enetx_fifo = HPC1_ENETX_FIFO,
.enetx_fifo_size = HPC1_ENETX_FIFO_SIZE,
.enet_devregs = HPC1_ENET_DEVREGS,
.enet_devregs_size = HPC1_ENET_DEVREGS_SIZE,
.pbus_fifo = 0,
.pbus_fifo_size = 0,
.pbus_bbram = 0,
#define MAX_SCSI_XFER (roundup(MAXPHYS, PAGE_SIZE))
.scsi_dma_segs = (MAX_SCSI_XFER / 4096),
.scsi_dma_segs_size = 4096,
.scsi_dma_datain_cmd = (HPC1_SCSI_DMACTL_ACTIVE | HPC1_SCSI_DMACTL_DIR),
.scsi_dma_dataout_cmd = HPC1_SCSI_DMACTL_ACTIVE,
.scsi_dmactl_flush = HPC1_SCSI_DMACTL_FLUSH,
.scsi_dmactl_active = HPC1_SCSI_DMACTL_ACTIVE,
.scsi_dmactl_reset = HPC1_SCSI_DMACTL_RESET
};
static struct hpc_values hpc3_values = {
.revision = 3,
.scsi0_regs = HPC3_SCSI0_REGS,
.scsi0_regs_size = HPC3_SCSI0_REGS_SIZE,
.scsi0_cbp = HPC3_SCSI0_CBP,
.scsi0_ndbp = HPC3_SCSI0_NDBP,
.scsi0_bc = HPC3_SCSI0_BC,
.scsi0_ctl = HPC3_SCSI0_CTL,
.scsi0_gio = HPC3_SCSI0_GIO,
.scsi0_dev = HPC3_SCSI0_DEV,
.scsi0_dmacfg = HPC3_SCSI0_DMACFG,
.scsi0_piocfg = HPC3_SCSI0_PIOCFG,
.scsi1_regs = HPC3_SCSI1_REGS,
.scsi1_regs_size = HPC3_SCSI1_REGS_SIZE,
.scsi1_cbp = HPC3_SCSI1_CBP,
.scsi1_ndbp = HPC3_SCSI1_NDBP,
.scsi1_bc = HPC3_SCSI1_BC,
.scsi1_ctl = HPC3_SCSI1_CTL,
.scsi1_gio = HPC3_SCSI1_GIO,
.scsi1_dev = HPC3_SCSI1_DEV,
.scsi1_dmacfg = HPC3_SCSI1_DMACFG,
.scsi1_piocfg = HPC3_SCSI1_PIOCFG,
.enet_regs = HPC3_ENET_REGS,
.enet_regs_size = HPC3_ENET_REGS_SIZE,
.enet_intdelay = 0,
.enet_intdelayval = 0,
.enetr_cbp = HPC3_ENETR_CBP,
.enetr_ndbp = HPC3_ENETR_NDBP,
.enetr_bc = HPC3_ENETR_BC,
.enetr_ctl = HPC3_ENETR_CTL,
.enetr_ctl_active = HPC3_ENETR_CTL_ACTIVE,
.enetr_reset = HPC3_ENETR_RESET,
.enetr_dmacfg = HPC3_ENETR_DMACFG,
.enetr_piocfg = HPC3_ENETR_PIOCFG,
.enetx_cbp = HPC3_ENETX_CBP,
.enetx_ndbp = HPC3_ENETX_NDBP,
.enetx_bc = HPC3_ENETX_BC,
.enetx_ctl = HPC3_ENETX_CTL,
.enetx_ctl_active = HPC3_ENETX_CTL_ACTIVE,
.enetx_dev = HPC3_ENETX_DEV,
.enetr_fifo = HPC3_ENETR_FIFO,
.enetr_fifo_size = HPC3_ENETR_FIFO_SIZE,
.enetx_fifo = HPC3_ENETX_FIFO,
.enetx_fifo_size = HPC3_ENETX_FIFO_SIZE,
.enet_devregs = HPC3_ENET_DEVREGS,
.enet_devregs_size = HPC3_ENET_DEVREGS_SIZE,
.pbus_fifo = HPC3_PBUS_FIFO,
.pbus_fifo_size = HPC3_PBUS_FIFO_SIZE,
.pbus_bbram = HPC3_PBUS_BBRAM,
.scsi_dma_segs = (MAX_SCSI_XFER / 8192),
.scsi_dma_segs_size = 8192,
.scsi_dma_datain_cmd = HPC3_SCSI_DMACTL_ACTIVE,
.scsi_dma_dataout_cmd =(HPC3_SCSI_DMACTL_ACTIVE | HPC3_SCSI_DMACTL_DIR),
.scsi_dmactl_flush = HPC3_SCSI_DMACTL_FLUSH,
.scsi_dmactl_active = HPC3_SCSI_DMACTL_ACTIVE,
.scsi_dmactl_reset = HPC3_SCSI_DMACTL_RESET
};
int hpc_match(struct device *, void *, void *);
void hpc_attach(struct device *, struct device *, void *);
int hpc_print(void *, const char *);
int hpc_revision(struct hpc_softc *, struct gio_attach_args *);
int hpc_submatch(struct device *, void *, void *);
int hpc_power_intr(void *);
void hpc_blink(void *);
void hpc_blink_ioc(void *);
int hpc_read_eeprom(int, bus_space_tag_t, bus_space_handle_t, uint8_t *,
size_t);
struct hpc_dma_desc *hpc_read_dma_desc_par(struct hpc_dma_desc *,
struct hpc_dma_desc *);
struct hpc_dma_desc *hpc_read_dma_desc_ecc(struct hpc_dma_desc *,
struct hpc_dma_desc *);
void hpc_write_dma_desc_par(struct hpc_dma_desc *, struct hpc_dma_desc *);
void hpc_write_dma_desc_ecc(struct hpc_dma_desc *, struct hpc_dma_desc *);
/* globals since they depend upon the system type, not the hpc version */
struct hpc_dma_desc *(*hpc_read_dma_desc_fn)(struct hpc_dma_desc *,
struct hpc_dma_desc *);
void (*hpc_write_dma_desc_fn)(struct hpc_dma_desc *, struct hpc_dma_desc *);
const struct cfattach hpc_ca = {
sizeof(struct hpc_softc), hpc_match, hpc_attach
};
struct cfdriver hpc_cd = {
NULL, "hpc", DV_DULL
};
void hpc3_space_barrier(bus_space_tag_t, bus_space_handle_t, bus_size_t,
bus_size_t, int);
bus_space_t hpc3bus_tag = {
PHYS_TO_XKPHYS(0, CCA_NC),
NULL,
imc_read_1, imc_write_1,
imc_read_2, imc_write_2,
imc_read_4, imc_write_4,
imc_read_8, imc_write_8,
imc_read_raw_2, imc_write_raw_2,
imc_read_raw_4, imc_write_raw_4,
imc_read_raw_8, imc_write_raw_8,
imc_space_map, imc_space_unmap, imc_space_region,
imc_space_vaddr, hpc3_space_barrier
};
int
hpc_match(struct device *parent, void *vcf, void *aux)
{
struct gio_attach_args* ga = aux;
uint32_t dummy;
/* Make sure it's actually there and readable */
if (guarded_read_4(PHYS_TO_XKPHYS(ga->ga_addr, CCA_NC), &dummy) == 0)
return 1;
return 0;
}
void
hpc_attach(struct device *parent, struct device *self, void *aux)
{
struct hpc_softc *sc = (struct hpc_softc *)self;
struct gio_attach_args* ga = aux;
struct hpc_attach_args ha;
const struct hpc_device *hd;
struct hpc_values *hv;
uint32_t probe32;
uint8_t probe8;
uint32_t hpctype;
int isonboard;
int isioplus;
int giofast;
int needprobe;
int sysmask = 0;
sc->sc_base = ga->ga_addr;
sc->sc_ct = ga->ga_iot;
sc->sc_ch = PHYS_TO_XKPHYS(sc->sc_base, CCA_NC);
sc->sc_dmat = ga->ga_dmat;
/* setup HPC DMA helpers if not done already */
if (hpc_read_dma_desc_fn == NULL) {
if (ip22_ecc) {
hpc_read_dma_desc_fn = hpc_read_dma_desc_ecc;
hpc_write_dma_desc_fn = hpc_write_dma_desc_ecc;
} else {
hpc_read_dma_desc_fn = hpc_read_dma_desc_par;
hpc_write_dma_desc_fn = hpc_write_dma_desc_par;
}
}
switch (sys_config.system_type) {
case SGI_IP20:
sysmask = HPCDEV_IP20;
break;
case SGI_IP22:
case SGI_IP26:
case SGI_IP28:
switch (sys_config.system_subtype) {
default:
case IP22_INDIGO2:
sysmask = HPCDEV_IP22;
break;
case IP22_CHALLS:
sysmask = HPCDEV_IP24;
break;
case IP22_INDY:
sysmask = HPCDEV_IP24 | HPCDEV_IP24_INDY;
break;
}
break;
};
if ((hpctype = hpc_revision(sc, ga)) == 0) {
printf(": could not identify HPC revision\n");
return;
}
if (hpctype != 3)
hpc_old = 1;
/* force big-endian mode */
if (hpctype == 15)
bus_space_write_4(sc->sc_ct, sc->sc_ch, HPC1_BIGENDIAN, 0);
/*
* Select the proper bus_space_tag for child devices. HPC3 need a
* specific barrier function.
*/
if (hpctype == 3)
sc->sc_ct = &hpc3bus_tag;
/*
* All machines have only one HPC on the mainboard itself. ''Extra''
* HPCs require bus arbiter and other magic to run happily.
*/
isonboard = (sc->sc_base == HPC_BASE_ADDRESS_0);
isioplus = (sc->sc_base == HPC_BASE_ADDRESS_1 && hpctype == 3 &&
(sysmask & HPCDEV_IP24) != 0);
printf(": SGI HPC%d%s (%s)\n", (hpctype == 3) ? 3 : 1,
(hpctype == 15) ? ".5" : "", (isonboard) ? "onboard" :
(isioplus) ? "IO+ mezzanine" : "GIO slot");
/*
* Configure the IOC.
*/
if (isonboard && sys_config.system_type != SGI_IP20) {
/* Reset IOC */
bus_space_write_4(sc->sc_ct, sc->sc_ch, IOC_BASE + IOC_RESET,
IOC_RESET_PARALLEL | IOC_RESET_PCKBC | IOC_RESET_EISA |
IOC_RESET_ISDN | IOC_RESET_LED_GREEN );
/*
* Set the two serial ports to PC mode.
*/
bus_space_write_4(sc->sc_ct, sc->sc_ch, IOC_BASE + IOC_WRITE,
bus_space_read_4(sc->sc_ct, sc->sc_ch,
IOC_BASE + IOC_WRITE) |
IOC_WRITE_PC_UART2 | IOC_WRITE_PC_UART1);
/* XXX: the firmware should have taken care of this already */
#if 0
if (sys_config.system_subtype != IP22_INDIGO) {
bus_space_write_4(sc->sc_ct, sc->sc_ch,
IOC_BASE + IOC_GCSEL, 0xff);
bus_space_write_4(sc->sc_ct, sc->sc_ch,
IOC_BASE + IOC_GCREG, 0xff);
}
#endif
}
/*
* Configure the bus arbiter appropriately.
*
* In the case of Challenge S, we must tell the IO+ board which
* DMA channel to use (we steal it from one of the slots). SGI allows
* an HPC1.5 in slot 1, in which case IO+ must use EXP0, or any
* other DMA-capable board in slot 0, which leaves us to use EXP1. Of
* course, this means that only one GIO board may use DMA.
*
* Note that this never happens on Indigo2.
*/
if (isioplus) {
int arb_slot;
if (guarded_read_4(PHYS_TO_XKPHYS(HPC_BASE_ADDRESS_2, CCA_NC),
&probe32) != 0)
arb_slot = GIO_SLOT_EXP1;
else
arb_slot = GIO_SLOT_EXP0;
if (gio_arb_config(arb_slot, GIO_ARB_LB | GIO_ARB_MST |
GIO_ARB_64BIT | GIO_ARB_HPC2_64BIT)) {
printf("%s: failed to configure GIO bus arbiter\n",
sc->sc_dev.dv_xname);
return;
}
printf("%s: using EXP%d's DMA channel\n",
sc->sc_dev.dv_xname,
(arb_slot == GIO_SLOT_EXP0) ? 0 : 1);
bus_space_write_4(sc->sc_ct, sc->sc_ch,
HPC3_PBUS_CFGPIO_REGS, 0x0003ffff);
if (arb_slot == GIO_SLOT_EXP0)
bus_space_write_4(sc->sc_ct, sc->sc_ch,
HPC3_PBUS_CH0_DEVREGS, 0x20202020);
else
bus_space_write_4(sc->sc_ct, sc->sc_ch,
HPC3_PBUS_CH0_DEVREGS, 0x30303030);
} else if (!isonboard) {
int arb_slot;
arb_slot = (sc->sc_base == HPC_BASE_ADDRESS_1) ?
GIO_SLOT_EXP0 : GIO_SLOT_EXP1;
if (gio_arb_config(arb_slot, GIO_ARB_RT | GIO_ARB_MST)) {
printf("%s: failed to configure GIO bus arbiter\n",
sc->sc_dev.dv_xname);
return;
}
}
hpc_read_eeprom(hpctype, sc->sc_ct, sc->sc_ch,
ha.hpc_eeprom, sizeof(ha.hpc_eeprom));
if (hpctype == 3) {
hv = &hpc3_values;
if (isonboard) {
hd = hpc3_onboard;
if (sys_config.system_subtype == IP22_INDIGO2) {
/* wild guess */
giofast = 1;
} else {
/*
* According to IRIX hpc3.h, the fast GIO bit
* is active high, but the register value has
* been found to be 0xf8 on slow GIO systems
* and 0xf1 on fast ones, which tends to prove
* the opposite...
*/
if (bus_space_read_4(sc->sc_ct, sc->sc_ch,
IOC_BASE + IOC_GCREG) & IOC_GCREG_GIO_33MHZ)
giofast = 0;
else
giofast = 1;
}
} else {
hd = hpc3_devices;
/*
* XXX should IO+ Mezzanine use the same settings as
* XXX the onboard HPC3?
*/
giofast = 0;
}
needprobe = 0;
} else {
hv = &hpc1_values;
hv->revision = hpctype;
giofast = 0;
if (isonboard) {
hd = hpc1_onboard;
needprobe = 0;
} else {
hd = hpc1_devices;
/*
* Until a reliable way of telling E++ and GIO32 SCSI
* boards apart is found, we will need to do basic
* chip existence checks before attempting to attach.
*/
needprobe = 1;
}
}
for (; hd->hd_name != NULL; hd++) {
if ((hd->hd_sysmask & sysmask) == 0 ||
(hd->hd_base != 0 && hd->hd_base != sc->sc_base))
continue;
ha.ha_name = hd->hd_name;
ha.ha_base = sc->sc_base;
ha.ha_devoff = hd->hd_devoff;
ha.ha_dmaoff = hd->hd_dmaoff;
/*
* Compute the interrupt line for HPC1 expansion boards.
* This allows the hpc1_devices[] array to remain compact.
*/
if (hd->hd_irq < 0) {
if (sys_config.system_type == SGI_IP20)
ha.ha_irq = INT2_L0_INTR(INT2_L0_GIO_LVL1);
else {
if (sc->sc_base == HPC_BASE_ADDRESS_1)
ha.ha_irq =
INT2_MAP0_INTR(INT2_MAP_GIO_SLOT0);
else
ha.ha_irq =
INT2_MAP0_INTR(INT2_MAP_GIO_SLOT1);
}
} else
ha.ha_irq = hd->hd_irq;
ha.ha_st = sc->sc_ct;
ha.ha_sh = sc->sc_ch;
ha.ha_dmat = sc->sc_dmat;
ha.hpc_regs = hv;
ha.ha_giofast = giofast;
/*
* On hpc@gio boards such as the E++, we want to avoid
* `wdsc not configured' messages (or sq on SCSI boards).
* The following checks are borrowed from the sq(4) and
* wdsc(4) respective probes.
*/
if (needprobe) {
paddr_t pa;
volatile uint32_t *reg;
if (strcmp(hd->hd_name, "sq") == 0) {
/*
* E++ registers aren't accessible until
* the reset register is written to.
*/
pa = sc->sc_ch + hd->hd_dmaoff +
hv->enetr_reset;
reg = (volatile uint32_t *)
PHYS_TO_XKPHYS(pa, CCA_NC);
if (guarded_read_4((vaddr_t)reg, &probe32) != 0)
continue;
*reg = 0x01;
delay(20);
*reg = 0x00;
pa = sc->sc_ch + hd->hd_devoff;
if (guarded_read_4(PHYS_TO_XKPHYS(pa, CCA_NC),
&probe32) != 0)
continue;
} else
/* if (strcmp(hd->hd_name, "wdsc") == 0) */ {
/*
* wdsc registers may not be accessible
* until the dma engine is reset.
*/
pa = sc->sc_ch + hd->hd_dmaoff +
hv->scsi0_ctl;
reg = (volatile uint32_t *)
PHYS_TO_XKPHYS(pa, CCA_NC);
if (guarded_read_4((vaddr_t)reg, &probe32) != 0)
continue;
*reg = hv->scsi_dmactl_reset;
delay(1000);
*reg = 0;
delay(1000);
pa = sc->sc_ch + hd->hd_devoff + 3;
if (guarded_read_1(PHYS_TO_XKPHYS(pa, CCA_NC),
&probe8) != 0)
continue;
if (probe8 == 0xff)
continue;
}
}
config_found_sm(self, &ha, hpc_print, hpc_submatch);
}
/*
* Attach the clock chip as well if on hpc0.
*/
if (isonboard) {
if (sys_config.system_type == SGI_IP20) {
ha.ha_name = "dpclock";
ha.ha_devoff = HPC1_PBUS_BBRAM;
} else {
ha.ha_name = "dsclock";
ha.ha_devoff = HPC3_PBUS_BBRAM;
}
ha.ha_base = sc->sc_base;
ha.ha_dmaoff = 0;
ha.ha_irq = -1;
ha.ha_st = sc->sc_ct;
ha.ha_sh = sc->sc_ch;
ha.ha_dmat = sc->sc_dmat;
ha.hpc_regs = NULL;
ha.ha_giofast = giofast;
config_found_sm(self, &ha, hpc_print, hpc_submatch);
if (sys_config.system_type == SGI_IP20) {
timeout_set(&sc->sc_blink_tmo, hpc_blink, sc);
hpc_blink(sc);
} else {
timeout_set(&sc->sc_blink_tmo, hpc_blink_ioc, sc);
hpc_blink_ioc(sc);
}
}
}
/*
* HPC revision detection isn't as simple as it should be. Devices probe
* differently depending on their slots, but luckily there is only one
* instance in which we have to decide the major revision (HPC1 vs HPC3).
*
* The HPC is found in the following configurations:
* o Indigo R4k
* One on-board HPC1 or HPC1.5.
* Up to two additional HPC1.5's in GIO slots 0 and 1.
* o Indy
* One on-board HPC3.
* Up to two additional HPC1.5's in GIO slots 0 and 1.
* o Challenge S
* One on-board HPC3.
* Up to one additional HPC3 on the IO+ board (if installed).
* Up to one additional HPC1.5 in slot 1 of the IO+ board.
* o Indigo2, Challenge M
* One on-board HPC3.
*
* All we really have to worry about is the IP24 case.
*/
int
hpc_revision(struct hpc_softc *sc, struct gio_attach_args *ga)
{
uint32_t reg;
/* No hardware ever supported the last hpc base address. */
if (ga->ga_addr == HPC_BASE_ADDRESS_3)
return 0;
switch (sys_config.system_type) {
case SGI_IP20:
if (guarded_read_4(PHYS_TO_XKPHYS(ga->ga_addr + HPC1_BIGENDIAN,
CCA_NC), ®) != 0) {
if (((reg >> HPC1_REVSHIFT) & HPC1_REVMASK) ==
HPC1_REV15)
return 15;
else
return 1;
}
return 1;
case SGI_IP22:
case SGI_IP26:
case SGI_IP28:
if (ga->ga_addr == HPC_BASE_ADDRESS_0)
return 3;
if (sys_config.system_subtype == IP22_INDIGO2)
return 0;
/*
* If IP24, probe slot 0 to determine if HPC1.5 or HPC3. Slot 1
* must be HPC1.5.
*/
if (ga->ga_addr == HPC_BASE_ADDRESS_2)
return 15;
/*
* Probe for it. We use one of the PBUS registers. Note
* that this probe succeeds with my E++ adapter in slot 1
* (bad), but it appears to always do the right thing in
* slot 0 (good!) and we're only worried about that one
* anyhow.
*/
if (guarded_read_4(PHYS_TO_XKPHYS(ga->ga_addr +
HPC3_PBUS_CH7_BP, CCA_NC), ®) != 0)
return 15;
else
return 3;
}
return 0;
}
int
hpc_submatch(struct device *parent, void *vcf, void *aux)
{
struct cfdata *cf = (struct cfdata *)vcf;
struct hpc_attach_args *ha = (struct hpc_attach_args *)aux;
if (cf->cf_loc[0 /*HPCCF_OFFSET*/] != -1 &&
(bus_addr_t)cf->cf_loc[0 /*HPCCF_OFFSET*/] != ha->ha_devoff)
return 0;
return (*cf->cf_attach->ca_match)(parent, cf, aux);
}
int
hpc_print(void *aux, const char *pnp)
{
struct hpc_attach_args *ha = aux;
if (pnp)
printf("%s at %s", ha->ha_name, pnp);
printf(" offset 0x%08lx", ha->ha_devoff);
if (ha->ha_irq >= 0)
printf(" irq %d", ha->ha_irq);
return UNCONF;
}
void *
hpc_intr_establish(int irq, int level, int (*handler)(void *), void *arg,
const char *what)
{
return int2_intr_establish(irq, level, handler, arg, what);
}
int
hpc_is_intr_pending(int irq)
{
return int2_is_intr_pending(irq);
}
void
hpc_intr_disable(void *v)
{
int2_intr_disable(v);
}
void
hpc_intr_enable(void *v)
{
int2_intr_enable(v);
}
/*
* bus_space_barrier() function for HPC3 (which have a write buffer)
*/
void
hpc3_space_barrier(bus_space_tag_t t, bus_space_handle_t h, bus_size_t offs,
bus_size_t sz, int how)
{
__asm__ __volatile__ ("sync" ::: "memory");
/* just read a side-effect free register */
(void)*(volatile uint32_t *)
PHYS_TO_XKPHYS(HPC_BASE_ADDRESS_0 + HPC3_INTRSTAT_40, CCA_NC);
}
void
hpc_blink(void *arg)
{
struct hpc_softc *sc = arg;
bus_space_write_1(sc->sc_ct, sc->sc_ch, HPC1_AUX_REGS,
bus_space_read_1(sc->sc_ct, sc->sc_ch, HPC1_AUX_REGS) ^
HPC1_AUX_CONSLED);
timeout_add(&sc->sc_blink_tmo,
(((averunnable.ldavg[0] + FSCALE) * hz) >> (FSHIFT + 1)));
}
void
hpc_blink_ioc(void *arg)
{
struct hpc_softc *sc = arg;
uint32_t value;
/* This is a bit odd. To strobe the green LED, we have to toggle the
red control bit. */
value = bus_space_read_4(sc->sc_ct, sc->sc_ch, IOC_BASE + IOC_RESET) &
0xff;
value ^= IOC_RESET_LED_RED;
bus_space_write_4(sc->sc_ct, sc->sc_ch, IOC_BASE + IOC_RESET, value);
timeout_add(&sc->sc_blink_tmo,
(((averunnable.ldavg[0] + FSCALE) * hz) >> (FSHIFT + 1)));
}
/*
* Read the eeprom associated with one of the HPC's.
*
* NB: An eeprom is not always present, but the HPC should be able to
* handle this gracefully. Any consumers should validate the data to
* ensure it's reasonable.
*/
int
hpc_read_eeprom(int hpctype, bus_space_tag_t t, bus_space_handle_t h,
uint8_t *buf, size_t len)
{
struct seeprom_descriptor sd;
bus_space_handle_t bsh;
bus_size_t offset;
if (!len || len & 0x1)
return (1);
offset = (hpctype == 3) ? HPC3_EEPROM_DATA : HPC1_AUX_REGS;
if (bus_space_subregion(t, h, offset, 1, &bsh) != 0)
return (1);
sd.sd_chip = C56_66;
sd.sd_tag = t;
sd.sd_bsh = bsh;
sd.sd_regsize = 1;
sd.sd_control_offset = 0;
sd.sd_status_offset = 0;
sd.sd_dataout_offset = 0;
sd.sd_DI = 0x10; /* EEPROM -> CPU */
sd.sd_DO = 0x08; /* CPU -> EEPROM */
sd.sd_CK = 0x04;
sd.sd_CS = 0x02;
sd.sd_MS = 0;
sd.sd_RDY = 0;
if (read_seeprom(&sd, (uint16_t *)buf, 0, len / 2) != 1)
return (1);
bus_space_unmap(t, bsh, 1);
return 0;
}
/*
* Routines to copy and update HPC DMA descriptors in uncached memory.
*/
struct hpc_dma_desc *
hpc_read_dma_desc(struct hpc_dma_desc *src, struct hpc_dma_desc *store)
{
return (*hpc_read_dma_desc_fn)(src, store);
}
void
hpc_write_dma_desc(struct hpc_dma_desc *dst, struct hpc_dma_desc *src)
{
(*hpc_write_dma_desc_fn)(dst, src);
}
/* parity MC flavour: no copy */
struct hpc_dma_desc *
hpc_read_dma_desc_par(struct hpc_dma_desc *src, struct hpc_dma_desc *store)
{
return src;
}
void
hpc_write_dma_desc_par(struct hpc_dma_desc *dst, struct hpc_dma_desc *src)
{
}
/* ECC MC flavour: copy, and update in slow mode */
struct hpc_dma_desc *
hpc_read_dma_desc_ecc(struct hpc_dma_desc *src, struct hpc_dma_desc *store)
{
bcopy(src, store, sizeof(struct hpc_dma_desc));
return store;
}
void
hpc_write_dma_desc_ecc(struct hpc_dma_desc *dst, struct hpc_dma_desc *src)
{
uint32_t sr;
int mode;
sr = disableintr();
mode = ip22_slow_mode();
bcopy(src, dst, sizeof(struct hpc_dma_desc));
ip22_restore_mode(mode);
setsr(sr);
}
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