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|
/* $OpenBSD: xbridge.c,v 1.68 2010/03/28 17:12:41 miod Exp $ */
/*
* Copyright (c) 2008, 2009 Miodrag Vallat.
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
/*
* XBow Bridge (as well as XBridge and PIC) Widget driver.
*/
/*
* IMPORTANT AUTHOR'S NOTE: I did not write any of this code under the
* influence of drugs. Looking back at that particular piece of hardware,
* I wonder if this hasn't been a terrible mistake.
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/device.h>
#include <sys/evcount.h>
#include <sys/malloc.h>
#include <sys/extent.h>
#include <sys/mbuf.h>
#include <sys/mutex.h>
#include <sys/queue.h>
#include <machine/atomic.h>
#include <machine/autoconf.h>
#include <machine/bus.h>
#include <machine/cpu.h>
#include <machine/intr.h>
#include <machine/mnode.h>
#include <uvm/uvm_extern.h>
#include <dev/pci/pcireg.h>
#include <dev/pci/pcivar.h>
#include <dev/pci/pcidevs.h>
#include <dev/pci/ppbreg.h>
#include <dev/cardbus/rbus.h>
#include <mips64/archtype.h>
#include <sgi/xbow/xbow.h>
#include <sgi/xbow/xbowdevs.h>
#include <sgi/xbow/widget.h>
#include <sgi/xbow/xbridgereg.h>
#ifdef TGT_OCTANE
#include <sgi/sgi/ip30.h>
#endif
#include "cardbus.h"
int xbridge_match(struct device *, void *, void *);
void xbridge_attach(struct device *, struct device *, void *);
int xbridge_print(void *, const char *);
int xbridge_submatch(struct device *, void *, void *);
int xbpci_match(struct device *, void *, void *);
void xbpci_attach(struct device *, struct device *, void *);
int xbpci_print(void *, const char *);
struct xbridge_ate;
struct xbridge_intr;
struct xbpci_attach_args {
uint xaa_busno;
int xaa_flags;
int16_t xaa_nasid;
int xaa_widget;
uint xaa_devio_skew;
int xaa_revision;
bus_space_tag_t xaa_regt;
bus_addr_t xaa_offset;
};
struct xbpci_softc {
struct device xb_dev;
struct device *xb_bow;
/*
* Bridge register accessors.
* Due to hardware bugs, PIC registers can only be accessed
* with 64 bit operations, although the hardware was supposed
* to be directly compatible with XBridge on that aspect.
*/
uint64_t (*xb_read_reg)(bus_space_tag_t, bus_space_handle_t,
bus_addr_t);
void (*xb_write_reg)(bus_space_tag_t, bus_space_handle_t,
bus_addr_t, uint64_t);
uint xb_busno;
uint xb_nslots;
int xb_flags;
#define XF_XBRIDGE 0x01 /* is either PIC or XBridge */
#define XF_PIC 0x02 /* is PIC */
#define XF_NO_DIRECT_IO 0x04 /* no direct I/O mapping */
#define XF_PCIX 0x08 /* bus in PCIX mode */
int16_t xb_nasid;
int xb_widget;
uint xb_devio_skew; /* upper bits of devio ARCS mappings */
int xb_revision;
struct mips_pci_chipset xb_pc;
bus_space_tag_t xb_regt;
bus_space_handle_t xb_regh;
struct mips_bus_space *xb_mem_bus_space;
struct mips_bus_space *xb_io_bus_space;
struct machine_bus_dma_tag *xb_dmat;
struct xbridge_intr *xb_intr[BRIDGE_NINTRS];
char xb_intrstr[BRIDGE_NINTRS][sizeof("irq #, xbow irq ###")];
int xb_err_intrsrc;
uint64_t xb_ier; /* copy of BRIDGE_IER value */
/*
* Device information.
*/
struct {
pcireg_t id;
uint32_t devio;
} xb_devices[MAX_SLOTS];
uint xb_devio_usemask;
/*
* ATE management.
*/
struct mutex xb_atemtx;
uint xb_atecnt;
struct xbridge_ate *xb_ate;
LIST_HEAD(, xbridge_ate) xb_free_ate;
LIST_HEAD(, xbridge_ate) xb_used_ate;
/*
* Large resource view sizes
*/
bus_addr_t xb_iostart, xb_ioend;
bus_addr_t xb_memstart, xb_memend;
/*
* Resource extents for the large resource views, used during
* resource setup, then cleaned up for the MI code.
*/
char xb_ioexname[32];
struct extent *xb_ioex;
char xb_memexname[32];
struct extent *xb_memex;
};
struct xbridge_softc {
struct device sc_dev;
uint sc_nbuses;
struct mips_bus_space sc_regt;
};
#define DEVNAME(xb) ((xb)->xb_dev.dv_xname)
#define PCI_ID_EMPTY PCI_ID_CODE(PCI_VENDOR_INVALID, 0xffff);
#define SLOT_EMPTY(xb,dev) \
(PCI_VENDOR((xb)->xb_devices[dev].id) == PCI_VENDOR_INVALID || \
PCI_VENDOR((xb)->xb_devices[dev].id) == 0)
const struct cfattach xbridge_ca = {
sizeof(struct xbridge_softc), xbridge_match, xbridge_attach
};
struct cfdriver xbridge_cd = {
NULL, "xbridge", DV_DULL
};
const struct cfattach xbpci_ca = {
sizeof(struct xbpci_softc), xbpci_match, xbpci_attach
};
struct cfdriver xbpci_cd = {
NULL, "xbpci", DV_DULL
};
void xbridge_attach_hook(struct device *, struct device *,
struct pcibus_attach_args *);
int xbridge_bus_maxdevs(void *, int);
pcitag_t xbridge_make_tag(void *, int, int, int);
void xbridge_decompose_tag(void *, pcitag_t, int *, int *, int *);
pcireg_t xbridge_conf_read(void *, pcitag_t, int);
void xbridge_conf_write(void *, pcitag_t, int, pcireg_t);
int xbridge_intr_map(struct pci_attach_args *, pci_intr_handle_t *);
const char *xbridge_intr_string(void *, pci_intr_handle_t);
void *xbridge_intr_establish(void *, pci_intr_handle_t, int,
int (*func)(void *), void *, const char *);
void xbridge_intr_disestablish(void *, void *);
int xbridge_intr_line(void *, pci_intr_handle_t);
int xbridge_ppb_setup(void *, pcitag_t, bus_addr_t *, bus_addr_t *,
bus_addr_t *, bus_addr_t *);
void *xbridge_rbus_parent_io(struct pci_attach_args *);
void *xbridge_rbus_parent_mem(struct pci_attach_args *);
int16_t xbridge_get_nasid(void *);
int xbridge_get_widget(void *);
int xbridge_pci_intr_handler(void *);
int xbridge_err_intr_handler(void *);
uint8_t xbridge_read_1(bus_space_tag_t, bus_space_handle_t, bus_size_t);
uint16_t xbridge_read_2(bus_space_tag_t, bus_space_handle_t, bus_size_t);
void xbridge_write_1(bus_space_tag_t, bus_space_handle_t, bus_size_t,
uint8_t);
void xbridge_write_2(bus_space_tag_t, bus_space_handle_t, bus_size_t,
uint16_t);
void xbridge_read_raw_2(bus_space_tag_t, bus_space_handle_t, bus_addr_t,
uint8_t *, bus_size_t);
void xbridge_write_raw_2(bus_space_tag_t, bus_space_handle_t, bus_addr_t,
const uint8_t *, bus_size_t);
void xbridge_read_raw_4(bus_space_tag_t, bus_space_handle_t, bus_addr_t,
uint8_t *, bus_size_t);
void xbridge_write_raw_4(bus_space_tag_t, bus_space_handle_t, bus_addr_t,
const uint8_t *, bus_size_t);
void xbridge_read_raw_8(bus_space_tag_t, bus_space_handle_t, bus_addr_t,
uint8_t *, bus_size_t);
void xbridge_write_raw_8(bus_space_tag_t, bus_space_handle_t, bus_addr_t,
const uint8_t *, bus_size_t);
int xbridge_space_map_devio(bus_space_tag_t, bus_addr_t, bus_size_t, int,
bus_space_handle_t *);
int xbridge_space_map_io(bus_space_tag_t, bus_addr_t, bus_size_t, int,
bus_space_handle_t *);
int xbridge_space_map_mem(bus_space_tag_t, bus_addr_t, bus_size_t, int,
bus_space_handle_t *);
int xbridge_space_region_devio(bus_space_tag_t, bus_space_handle_t,
bus_size_t, bus_size_t, bus_space_handle_t *);
int xbridge_space_region_io(bus_space_tag_t, bus_space_handle_t,
bus_size_t, bus_size_t, bus_space_handle_t *);
int xbridge_space_region_mem(bus_space_tag_t, bus_space_handle_t,
bus_size_t, bus_size_t, bus_space_handle_t *);
int xbridge_dmamap_load_buffer(bus_dma_tag_t, bus_dmamap_t, void *,
bus_size_t, struct proc *, int, paddr_t *, int *, int);
void xbridge_dmamap_unload(bus_dma_tag_t, bus_dmamap_t);
int xbridge_dmamem_alloc(bus_dma_tag_t, bus_size_t, bus_size_t, bus_size_t,
bus_dma_segment_t *, int, int *, int);
bus_addr_t xbridge_pa_to_device(paddr_t);
paddr_t xbridge_device_to_pa(bus_addr_t);
int xbridge_rbus_space_map(bus_space_tag_t, bus_addr_t, bus_size_t,
int, bus_space_handle_t *);
void xbridge_rbus_space_unmap(bus_space_tag_t, bus_space_handle_t,
bus_size_t, bus_addr_t *);
int xbridge_address_map(struct xbpci_softc *, paddr_t, bus_addr_t *,
bus_addr_t *);
void xbridge_address_unmap(struct xbpci_softc *, bus_addr_t, bus_size_t);
uint xbridge_ate_add(struct xbpci_softc *, paddr_t);
void xbridge_ate_dump(struct xbpci_softc *);
uint xbridge_ate_find(struct xbpci_softc *, paddr_t);
uint64_t xbridge_ate_read(struct xbpci_softc *, uint);
void xbridge_ate_unref(struct xbpci_softc *, uint, uint);
void xbridge_ate_write(struct xbpci_softc *, uint, uint64_t);
void xbridge_err_clear(struct xbpci_softc *, uint64_t);
void xbridge_err_handle(struct xbpci_softc *, uint64_t);
int xbridge_allocate_devio(struct xbpci_softc *, int, int);
void xbridge_set_devio(struct xbpci_softc *, int, uint32_t, int);
int xbridge_resource_explore(struct xbpci_softc *, pcitag_t,
struct extent *, struct extent *);
void xbridge_resource_manage(struct xbpci_softc *, pcitag_t,
struct extent *, struct extent *);
void xbridge_ate_setup(struct xbpci_softc *);
void xbridge_device_setup(struct xbpci_softc *, int, int, uint32_t);
int xbridge_extent_chomp(struct xbpci_softc *, struct extent *);
void xbridge_extent_setup(struct xbpci_softc *);
struct extent *
xbridge_mapping_setup(struct xbpci_softc *, int);
void xbridge_resource_setup(struct xbpci_softc *);
void xbridge_rrb_setup(struct xbpci_softc *, int);
const char *
xbridge_setup(struct xbpci_softc *);
uint64_t bridge_read_reg(bus_space_tag_t, bus_space_handle_t, bus_addr_t);
void bridge_write_reg(bus_space_tag_t, bus_space_handle_t, bus_addr_t,
uint64_t);
uint64_t pic_read_reg(bus_space_tag_t, bus_space_handle_t, bus_addr_t);
void pic_write_reg(bus_space_tag_t, bus_space_handle_t, bus_addr_t,
uint64_t);
static __inline__ uint64_t
xbridge_read_reg(struct xbpci_softc *xb, bus_addr_t a)
{
return (*xb->xb_read_reg)(xb->xb_regt, xb->xb_regh, a);
}
static __inline__ void
xbridge_write_reg(struct xbpci_softc *xb, bus_addr_t a, uint64_t v)
{
(*xb->xb_write_reg)(xb->xb_regt, xb->xb_regh, a, v);
}
const struct machine_bus_dma_tag xbridge_dma_tag = {
NULL, /* _cookie */
_dmamap_create,
_dmamap_destroy,
_dmamap_load,
_dmamap_load_mbuf,
_dmamap_load_uio,
_dmamap_load_raw,
xbridge_dmamap_load_buffer,
xbridge_dmamap_unload,
_dmamap_sync,
xbridge_dmamem_alloc,
_dmamem_free,
_dmamem_map,
_dmamem_unmap,
_dmamem_mmap,
xbridge_pa_to_device,
xbridge_device_to_pa,
BRIDGE_DMA_DIRECT_LENGTH - 1
};
/*
********************* Autoconf glue.
*/
static const struct {
uint32_t vendor;
uint32_t product;
int flags;
} xbridge_devices[] = {
/* original Bridge */
{ XBOW_VENDOR_SGI4, XBOW_PRODUCT_SGI4_BRIDGE, 0 },
/* XBridge */
{ XBOW_VENDOR_SGI3, XBOW_PRODUCT_SGI3_XBRIDGE, XF_XBRIDGE },
/* PIC */
{ XBOW_VENDOR_SGI3, XBOW_PRODUCT_SGI3_PIC, XF_PIC }
};
int
xbridge_match(struct device *parent, void *match, void *aux)
{
struct xbow_attach_args *xaa = aux;
uint i;
for (i = 0; i < nitems(xbridge_devices); i++)
if (xaa->xaa_vendor == xbridge_devices[i].vendor &&
xaa->xaa_product == xbridge_devices[i].product)
return 1;
return 0;
}
void
xbridge_attach(struct device *parent, struct device *self, void *aux)
{
struct xbridge_softc *sc = (struct xbridge_softc *)self;
struct xbow_attach_args *xaa = aux;
struct xbpci_attach_args xbpa;
int flags;
uint devio_skew;
uint i;
printf(" revision %d\n", xaa->xaa_revision);
for (i = 0; i < nitems(xbridge_devices); i++)
if (xaa->xaa_vendor == xbridge_devices[i].vendor &&
xaa->xaa_product == xbridge_devices[i].product) {
flags = xbridge_devices[i].flags;
break;
}
/* PICs are XBridges without an I/O window */
if (ISSET(flags, XF_PIC))
SET(flags, XF_XBRIDGE | XF_NO_DIRECT_IO);
/* Bridge < D lacks an I/O window */
if (!ISSET(flags, XF_XBRIDGE) && xaa->xaa_revision < 4)
SET(flags, XF_NO_DIRECT_IO);
/*
* Figure out where the ARCS devio mappings will go.
* ARCS configures all the devio in a contiguous 16MB area
* (i.e. the upper 8 bits of the DEVIO_BASE field of the
* devio registers are the same).
*
* In order to make our life simpler, on widgets where we may
* want to keep some of the ARCS mappings (because that's where
* our console device lives), we will use the same 16MB area.
*
* Otherwise, we can use whatever values we want; to keep the
* code simpler, we will nevertheless use a 16MB area as well,
* making sure it does not start at zero so that pcmcia bridges
* can be used.
*
* On Octane, the upper bits of ARCS mappings are zero, and thus
* point to the start of the widget. On Origin, they match the
* widget number.
*/
#ifdef TGT_OCTANE
if (sys_config.system_type == SGI_OCTANE &&
xaa->xaa_widget == IP30_BRIDGE_WIDGET)
devio_skew = 0;
else
#endif
devio_skew = xaa->xaa_widget;
sc->sc_nbuses = ISSET(flags, XF_PIC) ? PIC_NBUSES : BRIDGE_NBUSES;
/* make a permanent copy of the on-stack bus_space_tag */
bcopy(xaa->xaa_iot, &sc->sc_regt, sizeof(struct mips_bus_space));
/* configure and attach PCI buses */
for (i = 0; i < sc->sc_nbuses; i++) {
xbpa.xaa_busno = i;
xbpa.xaa_flags = flags;
xbpa.xaa_nasid = xaa->xaa_nasid;
xbpa.xaa_widget = xaa->xaa_widget;
xbpa.xaa_devio_skew = devio_skew;
xbpa.xaa_revision = xaa->xaa_revision;
xbpa.xaa_regt = &sc->sc_regt;
xbpa.xaa_offset = i != 0 ? BRIDGE_BUS_OFFSET : 0;
config_found_sm(&sc->sc_dev, &xbpa, xbridge_print,
xbridge_submatch);
}
}
int
xbridge_submatch(struct device *parent, void *vcf, void *aux)
{
struct cfdata *cf = vcf;
struct xbpci_attach_args *xaa = aux;
if (cf->cf_loc[0] != -1 && cf->cf_loc[0] != xaa->xaa_busno)
return 0;
return (*cf->cf_attach->ca_match)(parent, vcf, aux);
}
int
xbridge_print(void *aux, const char *pnp)
{
struct xbpci_attach_args *xaa = aux;
if (pnp)
printf("xbpci at %s", pnp);
printf(" bus %d", xaa->xaa_busno);
return UNCONF;
}
int
xbpci_match(struct device *parent, void *vcf, void *aux)
{
return 1;
}
void
xbpci_attach(struct device *parent, struct device *self, void *aux)
{
struct xbpci_softc *xb = (struct xbpci_softc *)self;
struct xbpci_attach_args *xaa = (struct xbpci_attach_args *)aux;
struct pcibus_attach_args pba;
const char *errmsg = NULL;
printf(": ");
/* xbow -> xbridge -> xbpci: xbow device is our grandfather */
xb->xb_bow = parent->dv_parent;
xb->xb_busno = xaa->xaa_busno;
xb->xb_flags = xaa->xaa_flags;
xb->xb_nasid = xaa->xaa_nasid;
xb->xb_widget = xaa->xaa_widget;
xb->xb_devio_skew = xaa->xaa_devio_skew;
xb->xb_revision = xaa->xaa_revision;
if (ISSET(xb->xb_flags, XF_PIC)) {
xb->xb_nslots = PIC_NSLOTS;
xb->xb_read_reg = pic_read_reg;
xb->xb_write_reg = pic_write_reg;
} else {
xb->xb_nslots = BRIDGE_NSLOTS;
xb->xb_read_reg = bridge_read_reg;
xb->xb_write_reg = bridge_write_reg;
}
/*
* Map Bridge registers.
*/
xb->xb_regt = xaa->xaa_regt;
if (bus_space_map(xaa->xaa_regt, xaa->xaa_offset,
BRIDGE_REGISTERS_SIZE, 0, &xb->xb_regh)) {
printf("unable to map control registers\n");
return;
}
/*
* Create bus_space accessors... we inherit them from xbow, but
* it is necessary to perform endianness conversion for the
* low-order address bits.
*/
xb->xb_mem_bus_space = malloc(sizeof (*xb->xb_mem_bus_space),
M_DEVBUF, M_NOWAIT);
if (xb->xb_mem_bus_space == NULL)
goto fail1;
xb->xb_io_bus_space = malloc(sizeof (*xb->xb_io_bus_space),
M_DEVBUF, M_NOWAIT);
if (xb->xb_io_bus_space == NULL)
goto fail2;
bcopy(xb->xb_regt, xb->xb_mem_bus_space, sizeof(*xb->xb_mem_bus_space));
xb->xb_mem_bus_space->bus_private = xb;
xb->xb_mem_bus_space->_space_map = xbridge_space_map_devio;
xb->xb_mem_bus_space->_space_subregion = xbridge_space_region_devio;
xb->xb_mem_bus_space->_space_read_1 = xbridge_read_1;
xb->xb_mem_bus_space->_space_write_1 = xbridge_write_1;
xb->xb_mem_bus_space->_space_read_2 = xbridge_read_2;
xb->xb_mem_bus_space->_space_write_2 = xbridge_write_2;
xb->xb_mem_bus_space->_space_read_raw_2 = xbridge_read_raw_2;
xb->xb_mem_bus_space->_space_write_raw_2 = xbridge_write_raw_2;
xb->xb_mem_bus_space->_space_read_raw_4 = xbridge_read_raw_4;
xb->xb_mem_bus_space->_space_write_raw_4 = xbridge_write_raw_4;
xb->xb_mem_bus_space->_space_read_raw_8 = xbridge_read_raw_8;
xb->xb_mem_bus_space->_space_write_raw_8 = xbridge_write_raw_8;
bcopy(xb->xb_regt, xb->xb_io_bus_space, sizeof(*xb->xb_io_bus_space));
xb->xb_io_bus_space->bus_private = xb;
xb->xb_io_bus_space->_space_map = xbridge_space_map_devio;
xb->xb_io_bus_space->_space_subregion = xbridge_space_region_devio;
xb->xb_io_bus_space->_space_read_1 = xbridge_read_1;
xb->xb_io_bus_space->_space_write_1 = xbridge_write_1;
xb->xb_io_bus_space->_space_read_2 = xbridge_read_2;
xb->xb_io_bus_space->_space_write_2 = xbridge_write_2;
xb->xb_io_bus_space->_space_read_raw_2 = xbridge_read_raw_2;
xb->xb_io_bus_space->_space_write_raw_2 = xbridge_write_raw_2;
xb->xb_io_bus_space->_space_read_raw_4 = xbridge_read_raw_4;
xb->xb_io_bus_space->_space_write_raw_4 = xbridge_write_raw_4;
xb->xb_io_bus_space->_space_read_raw_8 = xbridge_read_raw_8;
xb->xb_io_bus_space->_space_write_raw_8 = xbridge_write_raw_8;
xb->xb_dmat = malloc(sizeof (*xb->xb_dmat), M_DEVBUF, M_NOWAIT);
if (xb->xb_dmat == NULL)
goto fail3;
memcpy(xb->xb_dmat, &xbridge_dma_tag, sizeof(*xb->xb_dmat));
xb->xb_dmat->_cookie = xb;
/*
* Initialize PCI methods.
*/
xb->xb_pc.pc_conf_v = xb;
xb->xb_pc.pc_attach_hook = xbridge_attach_hook;
xb->xb_pc.pc_make_tag = xbridge_make_tag;
xb->xb_pc.pc_decompose_tag = xbridge_decompose_tag;
xb->xb_pc.pc_bus_maxdevs = xbridge_bus_maxdevs;
xb->xb_pc.pc_conf_read = xbridge_conf_read;
xb->xb_pc.pc_conf_write = xbridge_conf_write;
xb->xb_pc.pc_get_nasid = xbridge_get_nasid;
xb->xb_pc.pc_get_widget = xbridge_get_widget;
xb->xb_pc.pc_intr_v = xb;
xb->xb_pc.pc_intr_map = xbridge_intr_map;
xb->xb_pc.pc_intr_string = xbridge_intr_string;
xb->xb_pc.pc_intr_establish = xbridge_intr_establish;
xb->xb_pc.pc_intr_disestablish = xbridge_intr_disestablish;
xb->xb_pc.pc_intr_line = xbridge_intr_line;
xb->xb_pc.pc_ppb_setup = xbridge_ppb_setup;
#if NCARDBUS > 0
xb->xb_pc.pc_rbus_parent_io = xbridge_rbus_parent_io;
xb->xb_pc.pc_rbus_parent_mem = xbridge_rbus_parent_mem;
#endif
/*
* Configure Bridge for proper operation (DMA, I/O mappings,
* RRB allocation, etc).
*/
if ((errmsg = xbridge_setup(xb)) != NULL)
goto fail4;
printf("\n");
/*
* Attach children.
*/
xbridge_extent_setup(xb);
bzero(&pba, sizeof(pba));
pba.pba_busname = "pci";
pba.pba_iot = xb->xb_io_bus_space;
pba.pba_memt = xb->xb_mem_bus_space;
pba.pba_dmat = xb->xb_dmat;
pba.pba_ioex = xb->xb_ioex;
pba.pba_memex = xb->xb_memex;
#ifdef DEBUG
if (xb->xb_ioex != NULL)
extent_print(xb->xb_ioex);
if (xb->xb_memex != NULL)
extent_print(xb->xb_memex);
#endif
pba.pba_pc = &xb->xb_pc;
pba.pba_domain = pci_ndomains++;
pba.pba_bus = 0;
config_found(self, &pba, xbpci_print);
return;
fail4:
free(xb->xb_dmat, M_DEVBUF);
fail3:
free(xb->xb_io_bus_space, M_DEVBUF);
fail2:
free(xb->xb_mem_bus_space, M_DEVBUF);
fail1:
if (errmsg == NULL)
errmsg = "not enough memory to build bus access structures";
printf("%s\n", errmsg);
}
int
xbpci_print(void *aux, const char *pnp)
{
struct pcibus_attach_args *pba = aux;
if (pnp)
printf("%s at %s", pba->pba_busname, pnp);
printf(" bus %d", pba->pba_bus);
return UNCONF;
}
/*
********************* PCI glue.
*/
void
xbridge_attach_hook(struct device *parent, struct device *self,
struct pcibus_attach_args *pba)
{
}
pcitag_t
xbridge_make_tag(void *cookie, int bus, int dev, int func)
{
return (bus << 16) | (dev << 11) | (func << 8);
}
void
xbridge_decompose_tag(void *cookie, pcitag_t tag, int *busp, int *devp,
int *funcp)
{
if (busp != NULL)
*busp = (tag >> 16) & 0xff;
if (devp != NULL)
*devp = (tag >> 11) & 0x1f;
if (funcp != NULL)
*funcp = (tag >> 8) & 0x7;
}
int
xbridge_bus_maxdevs(void *cookie, int busno)
{
struct xbpci_softc *xb = cookie;
return busno == 0 ? xb->xb_nslots : 32;
}
pcireg_t
xbridge_conf_read(void *cookie, pcitag_t tag, int offset)
{
struct xbpci_softc *xb = cookie;
pcireg_t data;
int bus, dev, fn;
paddr_t pa;
int skip;
int s;
/* Disable interrupts on this bridge (especially error interrupts) */
xbridge_write_reg(xb, BRIDGE_IER, 0);
(void)xbridge_read_reg(xb, WIDGET_TFLUSH);
s = splhigh();
xbridge_decompose_tag(cookie, tag, &bus, &dev, &fn);
if (bus != 0) {
xbridge_write_reg(xb, BRIDGE_PCI_CFG,
(bus << 16) | (dev << 11));
pa = xb->xb_regh + BRIDGE_PCI_CFG1_SPACE;
} else {
if (ISSET(xb->xb_flags, XF_PIC)) {
/*
* On PIC, device 0 in configuration space is the
* PIC itself, device slots are offset by one.
*/
pa = xb->xb_regh + BRIDGE_PCI_CFG_SPACE +
((dev + 1) << 12);
} else
pa = xb->xb_regh + BRIDGE_PCI_CFG_SPACE + (dev << 12);
}
/*
* IOC3 devices only implement a subset of the PCI configuration
* registers (supposedly only the first 0x20 bytes, however
* writing to the second BAR also writes to the first).
*
* Depending on which particular model we encounter, things may
* seem to work, or write access to nonexisting registers would
* completely freeze the machine.
*
* We thus check for the device type here, and handle the non
* existing registers ourselves.
*/
skip = 0;
if (bus == 0 && xb->xb_devices[dev].id ==
PCI_ID_CODE(PCI_VENDOR_SGI, PCI_PRODUCT_SGI_IOC3)) {
switch (offset) {
case PCI_ID_REG:
case PCI_COMMAND_STATUS_REG:
case PCI_CLASS_REG:
case PCI_BHLC_REG:
case PCI_MAPREG_START:
/* These registers are implemented. Go ahead. */
break;
case PCI_INTERRUPT_REG:
/* This register is not implemented. Fake it. */
data = (PCI_INTERRUPT_PIN_A <<
PCI_INTERRUPT_PIN_SHIFT) |
(dev << PCI_INTERRUPT_LINE_SHIFT);
skip = 1;
break;
default:
/* These registers are not implemented. */
data = 0;
skip = 1;
break;
}
}
if (skip == 0) {
pa += (fn << 8) + offset;
if (guarded_read_4(pa, &data) != 0)
data = 0xffffffff;
}
splx(s);
xbridge_write_reg(xb, BRIDGE_IER, xb->xb_ier);
(void)xbridge_read_reg(xb, WIDGET_TFLUSH);
return data;
}
void
xbridge_conf_write(void *cookie, pcitag_t tag, int offset, pcireg_t data)
{
struct xbpci_softc *xb = cookie;
int bus, dev, fn;
paddr_t pa;
int skip;
int s;
/* Disable interrupts on this bridge (especially error interrupts) */
xbridge_write_reg(xb, BRIDGE_IER, 0);
(void)xbridge_read_reg(xb, WIDGET_TFLUSH);
s = splhigh();
xbridge_decompose_tag(cookie, tag, &bus, &dev, &fn);
if (bus != 0) {
xbridge_write_reg(xb, BRIDGE_PCI_CFG,
(bus << 16) | (dev << 11));
pa = xb->xb_regh + BRIDGE_PCI_CFG1_SPACE;
} else {
if (ISSET(xb->xb_flags, XF_PIC)) {
/*
* On PIC, device 0 in configuration space is the
* PIC itself, device slots are offset by one.
*/
pa = xb->xb_regh + BRIDGE_PCI_CFG_SPACE +
((dev + 1) << 12);
} else
pa = xb->xb_regh + BRIDGE_PCI_CFG_SPACE + (dev << 12);
}
/*
* IOC3 devices only implement a subset of the PCI configuration
* registers.
* Depending on which particular model we encounter, things may
* seem to work, or write access to nonexisting registers would
* completely freeze the machine.
*
* We thus check for the device type here, and handle the non
* existing registers ourselves.
*/
skip = 0;
if (bus == 0 && xb->xb_devices[dev].id ==
PCI_ID_CODE(PCI_VENDOR_SGI, PCI_PRODUCT_SGI_IOC3)) {
switch (offset) {
case PCI_COMMAND_STATUS_REG:
/*
* Some IOC3 models do not support having this bit
* cleared (which is what pci_mapreg_probe() will
* do), so we set it unconditionnaly.
*/
data |= PCI_COMMAND_MEM_ENABLE;
/* FALLTHROUGH */
case PCI_ID_REG:
case PCI_CLASS_REG:
case PCI_BHLC_REG:
case PCI_MAPREG_START:
/* These registers are implemented. Go ahead. */
break;
default:
/* These registers are not implemented. */
skip = 1;
break;
}
}
if (skip == 0) {
pa += (fn << 8) + offset;
guarded_write_4(pa, data);
}
splx(s);
xbridge_write_reg(xb, BRIDGE_IER, xb->xb_ier);
(void)xbridge_read_reg(xb, WIDGET_TFLUSH);
}
int16_t
xbridge_get_nasid(void *cookie)
{
struct xbpci_softc *xb = cookie;
return xb->xb_nasid;
}
int
xbridge_get_widget(void *cookie)
{
struct xbpci_softc *xb = cookie;
return xb->xb_widget;
}
/*
********************* Interrupt handling.
*/
/*
* We map each slot to its own interrupt bit, which will in turn be routed to
* the Heart or Hub widget in charge of interrupt processing.
*/
struct xbridge_intrhandler {
LIST_ENTRY(xbridge_intrhandler) xih_nxt;
struct xbridge_intr *xih_main;
int (*xih_func)(void *);
void *xih_arg;
struct evcount xih_count;
int xih_level;
int xih_device; /* device slot number */
};
struct xbridge_intr {
struct xbpci_softc *xi_bus;
int xi_intrsrc; /* interrupt source on interrupt widget */
int xi_intrbit; /* interrupt source on BRIDGE */
LIST_HEAD(, xbridge_intrhandler) xi_handlers;
};
/* how our pci_intr_handle_t are constructed... */
#define XBRIDGE_INTR_VALID 0x100
#define XBRIDGE_INTR_HANDLE(d,b) (XBRIDGE_INTR_VALID | ((d) << 3) | (b))
#define XBRIDGE_INTR_DEVICE(h) (((h) >> 3) & 07)
#define XBRIDGE_INTR_BIT(h) ((h) & 07)
int
xbridge_intr_map(struct pci_attach_args *pa, pci_intr_handle_t *ihp)
{
struct xbpci_softc *xb = pa->pa_pc->pc_conf_v;
int bus, device, intr;
int pin;
*ihp = 0;
if (pa->pa_intrpin == 0) {
/* No IRQ used. */
return 1;
}
#ifdef DIAGNOSTIC
if (pa->pa_intrpin > 4) {
printf("%s: bad interrupt pin %d\n", __func__, pa->pa_intrpin);
return 1;
}
#endif
pci_decompose_tag(pa->pa_pc, pa->pa_tag, &bus, &device, NULL);
if (pa->pa_bridgetag) {
pin = PPB_INTERRUPT_SWIZZLE(pa->pa_rawintrpin, device);
if (!ISSET(pa->pa_bridgeih[pin - 1], XBRIDGE_INTR_VALID))
return 0;
intr = XBRIDGE_INTR_BIT(pa->pa_bridgeih[pin - 1]);
} else {
/*
* For IOC3 devices, pin A is always the regular PCI interrupt,
* but wiring of interrupt pin B may vary.
* We rely upon ioc(4) being able to figure out whether it's
* an onboard chip or not, and to require interrupt pin D
* instead of B in the former case.
*/
intr = -1;
if (xb->xb_devices[device].id ==
PCI_ID_CODE(PCI_VENDOR_SGI, PCI_PRODUCT_SGI_IOC3)) {
switch (pa->pa_intrpin) {
case PCI_INTERRUPT_PIN_A:
case PCI_INTERRUPT_PIN_B:
break;
case PCI_INTERRUPT_PIN_D:
/*
* If this device is an onboard IOC3,
* interrupt pin B is wired as pin A of
* the first empty PCI slot...
*/
for (intr = 0; intr < MAX_SLOTS; intr++)
if (SLOT_EMPTY(xb, intr))
break;
/* should not happen, but fallback anyway */
if (intr >= MAX_SLOTS)
intr = -1;
break;
default:
return 1;
}
}
if (intr < 0) {
if (pa->pa_intrpin & 1)
intr = device;
else
intr = device ^ 4;
}
}
*ihp = XBRIDGE_INTR_HANDLE(device, intr);
return 0;
}
const char *
xbridge_intr_string(void *cookie, pci_intr_handle_t ih)
{
struct xbpci_softc *xb = (struct xbpci_softc *)cookie;
int intrbit = XBRIDGE_INTR_BIT(ih);
if (xb->xb_intrstr[intrbit][0] == '\0')
snprintf(xb->xb_intrstr[intrbit],
sizeof xb->xb_intrstr[intrbit], "irq %d", ih);
return xb->xb_intrstr[intrbit];
}
void *
xbridge_intr_establish(void *cookie, pci_intr_handle_t ih, int level,
int (*func)(void *), void *arg, const char *name)
{
struct xbpci_softc *xb = (struct xbpci_softc *)cookie;
struct xbridge_intr *xi;
struct xbridge_intrhandler *xih;
uint64_t int_addr;
int intrbit = XBRIDGE_INTR_BIT(ih);
int device = XBRIDGE_INTR_DEVICE(ih);
int intrsrc;
int new;
/*
* Allocate bookkeeping structure if this is the
* first time we're using this interrupt source.
*/
if ((xi = xb->xb_intr[intrbit]) == NULL) {
xi = (struct xbridge_intr *)
malloc(sizeof(*xi), M_DEVBUF, M_NOWAIT);
if (xi == NULL)
return NULL;
xi->xi_bus = xb;
xi->xi_intrbit = intrbit;
LIST_INIT(&xi->xi_handlers);
if (xbow_intr_register(xb->xb_widget, level, &intrsrc) != 0) {
free(xi, M_DEVBUF);
return NULL;
}
xi->xi_intrsrc = intrsrc;
xb->xb_intr[intrbit] = xi;
snprintf(xb->xb_intrstr[intrbit],
sizeof xb->xb_intrstr[intrbit],
"irq %d, xbow irq %d", intrbit, intrsrc);
} else
intrsrc = xi->xi_intrsrc;
/*
* Register the interrupt at the Heart or Hub level if this is the
* first time we're using this interrupt source.
*/
new = LIST_EMPTY(&xi->xi_handlers);
if (new) {
/*
* XXX The interrupt dispatcher is always registered
* XXX at IPL_BIO, in case the interrupt will be shared
* XXX between devices of different levels.
*/
if (xbow_intr_establish(xbridge_pci_intr_handler, xi, intrsrc,
IPL_BIO, NULL, NULL)) {
printf("%s: unable to register interrupt handler\n",
DEVNAME(xb));
return NULL;
}
}
xih = (struct xbridge_intrhandler *)
malloc(sizeof(*xih), M_DEVBUF, M_NOWAIT);
if (xih == NULL)
return NULL;
xih->xih_main = xi;
xih->xih_func = func;
xih->xih_arg = arg;
xih->xih_level = level;
xih->xih_device = device;
evcount_attach(&xih->xih_count, name, &xi->xi_intrsrc, &evcount_intr);
LIST_INSERT_HEAD(&xi->xi_handlers, xih, xih_nxt);
if (new) {
/*
* Note that, while PIC uses a complete XIO address,
* Bridge will only store the interrupt source and high
* bits of the address, and will reuse the widget interrupt
* address for the low 38 bits of the XIO address.
*/
if (ISSET(xb->xb_flags, XF_PIC))
int_addr = ((uint64_t)intrsrc << 48) |
(xbow_intr_widget_register & ((1UL << 48) - 1));
else
int_addr = ((xbow_intr_widget_register >> 30) &
0x0003ff00) | intrsrc;
xb->xb_ier |= 1 << intrbit;
xbridge_write_reg(xb, BRIDGE_INT_ADDR(intrbit), int_addr);
xbridge_write_reg(xb, BRIDGE_IER, xb->xb_ier);
/*
* INT_MODE register controls which interrupt pins cause
* ``interrupt clear'' packets to be sent for high->low
* transition.
* We enable such packets to be sent in order not to have to
* clear interrupts ourselves.
*/
xbridge_write_reg(xb, BRIDGE_INT_MODE,
xbridge_read_reg(xb, BRIDGE_INT_MODE) | (1 << intrbit));
xbridge_write_reg(xb, BRIDGE_INT_DEV,
xbridge_read_reg(xb, BRIDGE_INT_DEV) |
(device << (intrbit * 3)));
(void)xbridge_read_reg(xb, WIDGET_TFLUSH);
}
return (void *)xih;
}
void
xbridge_intr_disestablish(void *cookie, void *vih)
{
struct xbpci_softc *xb = cookie;
struct xbridge_intrhandler *xih = (struct xbridge_intrhandler *)vih;
struct xbridge_intr *xi = xih->xih_main;
int intrbit = xi->xi_intrbit;
evcount_detach(&xih->xih_count);
LIST_REMOVE(xih, xih_nxt);
if (LIST_EMPTY(&xi->xi_handlers)) {
xb->xb_ier &= ~(1 << intrbit);
xbridge_write_reg(xb, BRIDGE_INT_ADDR(intrbit), 0);
xbridge_write_reg(xb, BRIDGE_IER, xb->xb_ier);
xbridge_write_reg(xb, BRIDGE_INT_MODE,
xbridge_read_reg(xb, BRIDGE_INT_MODE) & ~(1 << intrbit));
xbridge_write_reg(xb, BRIDGE_INT_DEV,
xbridge_read_reg(xb, BRIDGE_INT_DEV) &
~(7 << (intrbit * 3)));
(void)xbridge_read_reg(xb, WIDGET_TFLUSH);
xbow_intr_disestablish(xi->xi_intrsrc);
/*
* Note we could free xb->xb_intr[intrbit] at this point,
* but it's not really worth doing.
*/
}
free(xih, M_DEVBUF);
}
int
xbridge_intr_line(void *cookie, pci_intr_handle_t ih)
{
return XBRIDGE_INTR_BIT(ih);
}
int
xbridge_err_intr_handler(void *v)
{
struct xbpci_softc *xb = (struct xbpci_softc *)v;
uint64_t isr;
isr = xbridge_read_reg(xb, BRIDGE_ISR) & ~BRIDGE_ISR_HWINTR_MASK;
xbridge_err_handle(xb, isr);
xbow_intr_clear(xb->xb_err_intrsrc);
return 1;
}
int
xbridge_pci_intr_handler(void *v)
{
struct xbridge_intr *xi = (struct xbridge_intr *)v;
struct xbpci_softc *xb = xi->xi_bus;
struct xbridge_intrhandler *xih;
int rc;
uint64_t isr;
/* XXX shouldn't happen, and assumes interrupt is not shared */
if (LIST_EMPTY(&xi->xi_handlers)) {
printf("%s: spurious irq %d\n", DEVNAME(xb), xi->xi_intrbit);
return 0;
}
/*
* Flush PCI write buffers before servicing the interrupt.
*/
LIST_FOREACH(xih, &xi->xi_handlers, xih_nxt)
xbridge_read_reg(xb, BRIDGE_DEVICE_WBFLUSH(xih->xih_device));
isr = xbridge_read_reg(xb, BRIDGE_ISR);
if ((isr & ~BRIDGE_ISR_HWINTR_MASK) != 0) {
/*
* This is an error interrupt triggered by a particular
* device.
*/
xbridge_err_handle(xb, isr & ~BRIDGE_ISR_HWINTR_MASK);
if ((isr &= BRIDGE_ISR_HWINTR_MASK) == 0)
return 1;
}
if ((isr & (1L << xi->xi_intrbit)) == 0) {
/*
* May be a result of the lost interrupt workaround (see
* near the end of this function); don't complain in that
* case.
*/
rc = -1;
#ifdef DEBUG
printf("%s: irq %d but not pending in ISR %08x\n",
DEVNAME(xb), xi->xi_intrbit, isr);
#endif
} else {
rc = 0;
LIST_FOREACH(xih, &xi->xi_handlers, xih_nxt) {
splraise(xih->xih_level);
if ((*xih->xih_func)(xih->xih_arg) != 0) {
xih->xih_count.ec_count++;
rc = 1;
}
/*
* No need to lower spl here, as our caller will
* lower spl upon our return.
* However that splraise() is necessary so that
* interrupt handler code calling splx() will not
* cause our interrupt source to be unmasked.
*/
}
/* XXX assumes interrupt is not shared */
if (rc == 0)
printf("%s: spurious irq %d\n",
DEVNAME(xb), xi->xi_intrbit);
}
/*
* There is a known BRIDGE race in which, if two interrupts
* on two different pins occur within 60nS of each other,
* further interrupts on the first pin do not cause an
* interrupt to be sent.
*
* The workaround against this is to check if our interrupt
* source is still active (i.e. another interrupt is pending),
* in which case we force an interrupt anyway.
*
* The XBridge even has a nice facility to do this, where we
* do not even have to check if our interrupt is pending.
*/
if (ISSET(xb->xb_flags, XF_XBRIDGE))
xbridge_write_reg(xb, BRIDGE_INT_FORCE_PIN(xi->xi_intrbit), 1);
else {
if (xbridge_read_reg(xb, BRIDGE_ISR) & (1 << xi->xi_intrbit))
xbow_intr_set(xi->xi_intrsrc);
}
return rc;
}
/*
********************* chip register access.
*/
uint64_t
bridge_read_reg(bus_space_tag_t t, bus_space_handle_t h, bus_addr_t a)
{
return (uint64_t)widget_read_4(t, h, a);
}
void
bridge_write_reg(bus_space_tag_t t, bus_space_handle_t h, bus_addr_t a,
uint64_t v)
{
widget_write_4(t, h, a, (uint32_t)v);
}
uint64_t
pic_read_reg(bus_space_tag_t t, bus_space_handle_t h, bus_addr_t a)
{
return widget_read_8(t, h, a);
}
void
pic_write_reg(bus_space_tag_t t, bus_space_handle_t h, bus_addr_t a,
uint64_t v)
{
widget_write_8(t, h, a, v);
}
/*
********************* bus_space glue.
*/
uint8_t
xbridge_read_1(bus_space_tag_t t, bus_space_handle_t h, bus_size_t o)
{
return *(volatile uint8_t *)((h + o) ^ 3);
}
uint16_t
xbridge_read_2(bus_space_tag_t t, bus_space_handle_t h, bus_size_t o)
{
return *(volatile uint16_t *)((h + o) ^ 2);
}
void
xbridge_write_1(bus_space_tag_t t, bus_space_handle_t h, bus_size_t o,
uint8_t v)
{
*(volatile uint8_t *)((h + o) ^ 3) = v;
}
void
xbridge_write_2(bus_space_tag_t t, bus_space_handle_t h, bus_size_t o,
uint16_t v)
{
*(volatile uint16_t *)((h + o) ^ 2) = v;
}
void
xbridge_read_raw_2(bus_space_tag_t t, bus_space_handle_t h, bus_addr_t o,
uint8_t *buf, bus_size_t len)
{
volatile uint16_t *addr = (volatile uint16_t *)((h + o) ^ 2);
len >>= 1;
while (len-- != 0) {
*(uint16_t *)buf = letoh16(*addr);
buf += 2;
}
}
void
xbridge_write_raw_2(bus_space_tag_t t, bus_space_handle_t h, bus_addr_t o,
const uint8_t *buf, bus_size_t len)
{
volatile uint16_t *addr = (volatile uint16_t *)((h + o) ^ 2);
len >>= 1;
while (len-- != 0) {
*addr = htole16(*(uint16_t *)buf);
buf += 2;
}
}
void
xbridge_read_raw_4(bus_space_tag_t t, bus_space_handle_t h, bus_addr_t o,
uint8_t *buf, bus_size_t len)
{
volatile uint32_t *addr = (volatile uint32_t *)(h + o);
len >>= 2;
while (len-- != 0) {
*(uint32_t *)buf = letoh32(*addr);
buf += 4;
}
}
void
xbridge_write_raw_4(bus_space_tag_t t, bus_space_handle_t h, bus_addr_t o,
const uint8_t *buf, bus_size_t len)
{
volatile uint32_t *addr = (volatile uint32_t *)(h + o);
len >>= 2;
while (len-- != 0) {
*addr = htole32(*(uint32_t *)buf);
buf += 4;
}
}
void
xbridge_read_raw_8(bus_space_tag_t t, bus_space_handle_t h, bus_addr_t o,
uint8_t *buf, bus_size_t len)
{
volatile uint64_t *addr = (volatile uint64_t *)(h + o);
len >>= 3;
while (len-- != 0) {
*(uint64_t *)buf = letoh64(*addr);
buf += 8;
}
}
void
xbridge_write_raw_8(bus_space_tag_t t, bus_space_handle_t h, bus_addr_t o,
const uint8_t *buf, bus_size_t len)
{
volatile uint64_t *addr = (volatile uint64_t *)(h + o);
len >>= 3;
while (len-- != 0) {
*addr = htole64(*(uint64_t *)buf);
buf += 8;
}
}
int
xbridge_space_map_devio(bus_space_tag_t t, bus_addr_t offs, bus_size_t size,
int flags, bus_space_handle_t *bshp)
{
struct xbpci_softc *xb = (struct xbpci_softc *)t->bus_private;
bus_addr_t bpa;
#ifdef DIAGNOSTIC
bus_addr_t start, end;
uint d;
#endif
if ((offs >> 24) != xb->xb_devio_skew)
return EINVAL; /* not a devio mapping */
/*
* Figure out which devio `slot' we are using, and make sure
* we do not overrun it.
*/
bpa = offs & ((1UL << 24) - 1);
#ifdef DIAGNOSTIC
for (d = 0; d < xb->xb_nslots; d++) {
start = PIC_DEVIO_OFFS(xb->xb_busno, d);
end = start + BRIDGE_DEVIO_SIZE(d);
if (bpa >= start && bpa < end) {
if (bpa + size > end)
return EINVAL;
else
break;
}
}
if (d == xb->xb_nslots)
return EINVAL;
#endif
/*
* Note we can not use our own bus_base because it might not point
* to our small window. Instead, use the one used by the xbridge
* driver itself, which _always_ points to the short window.
*/
*bshp = xb->xb_regt->bus_base + bpa;
return 0;
}
int
xbridge_space_map_io(bus_space_tag_t t, bus_addr_t offs, bus_size_t size,
int flags, bus_space_handle_t *bshp)
{
struct xbpci_softc *xb = (struct xbpci_softc *)t->bus_private;
/*
* Base address is either within the devio area, or our direct
* window.
*/
if ((offs >> 24) == xb->xb_devio_skew)
return xbridge_space_map_devio(t, offs, size, flags, bshp);
#ifdef DIAGNOSTIC
/* check that this does not overflow the mapping */
if (offs < xb->xb_iostart || offs + size - 1 > xb->xb_ioend)
return EINVAL;
#endif
*bshp = (t->bus_base + offs);
return 0;
}
int
xbridge_space_map_mem(bus_space_tag_t t, bus_addr_t offs, bus_size_t size,
int flags, bus_space_handle_t *bshp)
{
#if defined(TGT_ORIGIN) || defined(DIAGNOSTIC)
struct xbpci_softc *xb = (struct xbpci_softc *)t->bus_private;
#endif
/*
* Base address is either within the devio area, or our direct
* window. Except on Octane where we never setup devio memory
* mappings, because the large mapping is always available.
*/
#ifdef TGT_ORIGIN
if (sys_config.system_type != SGI_OCTANE &&
(offs >> 24) == xb->xb_devio_skew)
return xbridge_space_map_devio(t, offs, size, flags, bshp);
#endif
#ifdef DIAGNOSTIC
/* check that this does not overflow the mapping */
if (offs < xb->xb_memstart || offs + size - 1 > xb->xb_memend)
return EINVAL;
#endif
*bshp = (t->bus_base + offs);
return 0;
}
int
xbridge_space_region_devio(bus_space_tag_t t , bus_space_handle_t bsh,
bus_size_t offset, bus_size_t size, bus_space_handle_t *nbshp)
{
#ifdef DIAGNOSTIC
struct xbpci_softc *xb = (struct xbpci_softc *)t->bus_private;
bus_addr_t bpa;
bus_addr_t start, end;
uint d;
#endif
#ifdef DIAGNOSTIC
/*
* Note we can not use our own bus_base because it might not point
* to our small window. Instead, use the one used by the xbridge
* driver itself, which _always_ points to the short window.
*/
bpa = (bus_addr_t)bsh - xb->xb_regt->bus_base;
if ((bpa >> 24) != 0)
return EINVAL; /* not a devio mapping */
/*
* Figure out which devio `slot' we are using, and make sure
* we do not overrun it.
*/
for (d = 0; d < xb->xb_nslots; d++) {
start = PIC_DEVIO_OFFS(xb->xb_busno, d);
end = start + BRIDGE_DEVIO_SIZE(d);
if (bpa >= start && bpa < end) {
if (bpa + offset + size > end)
return EINVAL;
else
break;
}
}
if (d == xb->xb_nslots)
return EINVAL;
#endif
*nbshp = bsh + offset;
return 0;
}
int
xbridge_space_region_io(bus_space_tag_t t, bus_space_handle_t bsh,
bus_size_t offset, bus_size_t size, bus_space_handle_t *nbshp)
{
struct xbpci_softc *xb = (struct xbpci_softc *)t->bus_private;
bus_addr_t bpa;
/*
* Note we can not use our own bus_base because it might not point
* to our small window. Instead, use the one used by the xbridge
* driver itself, which _always_ points to the short window.
*/
bpa = (bus_addr_t)bsh - xb->xb_regt->bus_base;
if ((bpa >> 24) == 0)
return xbridge_space_region_devio(t, bsh, offset, size, nbshp);
#ifdef DIAGNOSTIC
/* check that this does not overflow the mapping */
bpa = (bus_addr_t)bsh - t->bus_base;
if (bpa + offset + size - 1 > xb->xb_ioend)
return EINVAL;
#endif
*nbshp = bsh + offset;
return 0;
}
int
xbridge_space_region_mem(bus_space_tag_t t, bus_space_handle_t bsh,
bus_size_t offset, bus_size_t size, bus_space_handle_t *nbshp)
{
#if defined(TGT_ORIGIN) || defined(DIAGNOSTIC)
struct xbpci_softc *xb = (struct xbpci_softc *)t->bus_private;
bus_addr_t bpa;
#endif
/*
* Base address is either within the devio area, or our direct
* window. Except on Octane where we never setup devio memory
* mappings, because the large mapping is always available.
*/
#ifdef TGT_ORIGIN
if (sys_config.system_type != SGI_OCTANE) {
/*
* Note we can not use our own bus_base because it might not
* point to our small window. Instead, use the one used by
* the xbridge driver itself, which _always_ points to the
* short window.
*/
bpa = (bus_addr_t)bsh - xb->xb_regt->bus_base;
if ((bpa >> 24) == 0)
return xbridge_space_region_devio(t, bsh, offset, size,
nbshp);
}
#endif
#ifdef DIAGNOSTIC
/* check that this does not overflow the mapping */
bpa = (bus_addr_t)bsh - t->bus_base;
if (bpa + offset + size - 1 > xb->xb_memend)
return EINVAL;
#endif
*nbshp = bsh + offset;
return 0;
}
/*
********************* bus_dma helpers
*/
/*
* ATE primer:
*
* ATE are iommu translation entries. PCI addresses in the translated
* window transparently map to the address their ATE point to.
*
* Bridge chip have 128 so-called `internal' entries, and can use their
* optional SSRAM to provide more (up to 65536 entries with 512KB SSRAM).
* However, due to chip bugs, those `external' entries can not be updated
* while there is DMA in progress using external entries, even if the
* updated entries are disjoint from those used by the DMA transfer.
*
* XBridge chip extend the internal entries to 1024, and do not provide
* support for external entries.
*
* We limit ourselves to internal entries only. Due to the way we force
* bus_dmamem_alloc() to use the direct window, there won't hopefully be
* many concurrent consumers of ATE at once.
*
* All ATE share the same page size, which is configurable as 4KB or 16KB.
* In order to minimize the number of ATE used by the various drivers,
* we use 16KB pages, at the expense of trickier code to account for
* ATE shared by various dma maps.
*
* ATE management:
*
* An array of internal ATE management structures is allocated, and
* provides reference counters (since various dma maps could overlap
* the same 16KB ATE pages).
*
* When using ATE in the various bus_dmamap_load*() functions, we try
* to coalesce individual contiguous pages sharing the same I/O page
* (and thus the same ATE). However, no attempt is made to optimize
* entries using contiguous ATEs.
*
* ATE are organized in lists of in-use and free entries.
*/
struct xbridge_ate {
LIST_ENTRY(xbridge_ate) xa_nxt;
uint xa_refcnt;
paddr_t xa_pa;
};
#ifdef ATE_DEBUG
void
xbridge_ate_dump(struct xbpci_softc *xb)
{
struct xbridge_ate *ate;
uint a;
printf("%s ATE list (in array order)\n", DEVNAME(xb));
for (a = 0, ate = xb->xb_ate; a < xb->xb_atecnt; a++, ate++) {
printf("%03x %p %02u", a, ate->xa_pa, ate->xa_refcnt);
if ((a % 3) == 2)
printf("\n");
else
printf(" ");
}
if ((a % 3) != 0)
printf("\n");
printf("%s USED ATE list (in link order)\n", DEVNAME(xb));
a = 0;
LIST_FOREACH(ate, &xb->xb_used_ate, xa_nxt) {
printf("%03x %p %02u",
ate - xb->xb_ate, ate->xa_pa, ate->xa_refcnt);
if ((a % 3) == 2)
printf("\n");
else
printf(" ");
a++;
}
if ((a % 3) != 0)
printf("\n");
printf("%s FREE ATE list (in link order)\n", DEVNAME(xb));
a = 0;
LIST_FOREACH(ate, &xb->xb_free_ate, xa_nxt) {
printf("%03x %p %02u",
ate - xb->xb_ate, ate->xa_pa, ate->xa_refcnt);
if ((a % 3) == 2)
printf("\n");
else
printf(" ");
a++;
}
if ((a % 3) != 0)
printf("\n");
}
#endif
void
xbridge_ate_setup(struct xbpci_softc *xb)
{
uint64_t ctrl;
uint a;
struct xbridge_ate *ate;
mtx_init(&xb->xb_atemtx, IPL_HIGH);
if (ISSET(xb->xb_flags, XF_XBRIDGE))
xb->xb_atecnt = XBRIDGE_INTERNAL_ATE;
else
xb->xb_atecnt = BRIDGE_INTERNAL_ATE;
xb->xb_ate = (struct xbridge_ate *)malloc(xb->xb_atecnt *
sizeof(struct xbridge_ate), M_DEVBUF, M_ZERO | M_NOWAIT);
if (xb->xb_ate == NULL) {
/* we could run without, but this would be a PITA */
panic("%s: no memory for ATE management", __func__);
}
/*
* Setup the ATE lists.
*/
LIST_INIT(&xb->xb_free_ate);
LIST_INIT(&xb->xb_used_ate);
for (ate = xb->xb_ate; ate != xb->xb_ate + xb->xb_atecnt; ate++)
LIST_INSERT_HEAD(&xb->xb_free_ate, ate, xa_nxt);
/*
* Switch to 16KB pages.
*/
ctrl = xbridge_read_reg(xb, WIDGET_CONTROL);
xbridge_write_reg(xb, WIDGET_CONTROL,
ctrl | BRIDGE_WIDGET_CONTROL_LARGE_PAGES);
(void)xbridge_read_reg(xb, WIDGET_TFLUSH);
/*
* Initialize all ATE entries to invalid.
*/
for (a = 0; a < xb->xb_atecnt; a++)
xbridge_ate_write(xb, a, ATE_NV);
}
#ifdef unused
uint64_t
xbridge_ate_read(struct xbpci_softc *xb, uint a)
{
uint32_t lo, hi;
uint64_t ate;
/*
* ATE can not be read as a whole, and need two 32 bit accesses.
*/
hi = xbridge_read_reg(xb, BRIDGE_ATE(a) + 4);
if (ISSET(xb->xb_flags, XF_XBRIDGE))
lo = xbridge_read_reg(xb, BRIDGE_ATE(a + 1024) + 4);
else
lo = xbridge_read_reg(xb, BRIDGE_ATE(a + 512) + 4);
ate = (uint64_t)hi;
ate <<= 32;
ate |= lo;
return ate;
}
#endif
void
xbridge_ate_write(struct xbpci_softc *xb, uint a, uint64_t ate)
{
widget_write_8(xb->xb_regt, xb->xb_regh, BRIDGE_ATE(a), ate);
}
uint
xbridge_ate_find(struct xbpci_softc *xb, paddr_t pa)
{
uint a;
struct xbridge_ate *ate;
/* round to ATE page */
pa &= ~BRIDGE_ATE_LMASK;
/*
* XXX Might want to build a tree to make this faster than
* XXX that stupid linear search. On the other hand there
* XXX aren't many ATE entries.
*/
LIST_FOREACH(ate, &xb->xb_used_ate, xa_nxt)
if (ate->xa_pa == pa) {
a = ate - xb->xb_ate;
#ifdef ATE_DEBUG
printf("%s: pa %p ate %u (r %u)\n",
__func__, pa, a, ate->xa_refcnt);
#endif
return a;
}
return (uint)-1;
}
uint
xbridge_ate_add(struct xbpci_softc *xb, paddr_t pa)
{
uint a;
struct xbridge_ate *ate;
/* round to ATE page */
pa &= ~BRIDGE_ATE_LMASK;
if (LIST_EMPTY(&xb->xb_free_ate)) {
#ifdef ATE_DEBUG
printf("%s: out of ATEs\n", DEVNAME(xb));
#endif
return (uint)-1;
}
ate = LIST_FIRST(&xb->xb_free_ate);
LIST_REMOVE(ate, xa_nxt);
LIST_INSERT_HEAD(&xb->xb_used_ate, ate, xa_nxt);
ate->xa_refcnt = 1;
ate->xa_pa = pa;
a = ate - xb->xb_ate;
#ifdef ATE_DEBUG
printf("%s: pa %p ate %u\n", __func__, pa, a);
#endif
xbridge_ate_write(xb, a, ate->xa_pa |
(xbow_intr_widget << ATE_WIDGET_SHIFT) | ATE_COH | ATE_V);
return a;
}
void
xbridge_ate_unref(struct xbpci_softc *xb, uint a, uint ref)
{
struct xbridge_ate *ate;
ate = xb->xb_ate + a;
#ifdef DIAGNOSTIC
if (ref > ate->xa_refcnt)
panic("%s: ate #%u %p has only %u refs but needs to drop %u",
DEVNAME(xb), a, ate, ate->xa_refcnt, ref);
#endif
ate->xa_refcnt -= ref;
if (ate->xa_refcnt == 0) {
#ifdef ATE_DEBUG
printf("%s: free ate %u\n", __func__, a);
#endif
xbridge_ate_write(xb, a, ATE_NV);
LIST_REMOVE(ate, xa_nxt);
LIST_INSERT_HEAD(&xb->xb_free_ate, ate, xa_nxt);
} else {
#ifdef ATE_DEBUG
printf("%s: unref ate %u (r %u)\n", __func__, a, ate->xa_refcnt);
#endif
}
}
/*
* Attempt to map the given address, either through the direct map, or
* using an ATE.
*/
int
xbridge_address_map(struct xbpci_softc *xb, paddr_t pa, bus_addr_t *mapping,
bus_addr_t *limit)
{
#if 0
struct xbridge_ate *ate;
uint a;
#endif
bus_addr_t ba;
/*
* Try the direct DMA window first.
*/
ba = (bus_addr_t)pa;
if (ba < BRIDGE_DMA_DIRECT_LENGTH) {
*mapping = ba + BRIDGE_DMA_DIRECT_BASE;
*limit = BRIDGE_DMA_DIRECT_LENGTH + BRIDGE_DMA_DIRECT_BASE;
return 0;
}
#if 0
/*
* Did not fit, so now we need to use an ATE.
* Check if an existing ATE would do the job; if not, try and
* allocate a new one.
*/
mtx_enter(&xb->xb_atemtx);
a = xbridge_ate_find(xb, pa);
if (a != (uint)-1) {
ate = xb->xb_ate + a;
ate->xa_refcnt++;
} else
a = xbridge_ate_add(xb, pa);
if (a != (uint)-1) {
ba = ATE_ADDRESS(a, BRIDGE_ATE_LSHIFT);
/*
* Ask for byteswap during DMA. On Bridge (i.e non-XBridge),
* this setting is device-global and is enforced by
* BRIDGE_DEVICE_SWAP_PMU set in the devio register.
*/
if (ISSET(xb->xb_flags, XF_XBRIDGE))
ba |= XBRIDGE_DMA_TRANSLATED_SWAP;
#ifdef ATE_DEBUG
printf("%s: ate %u through %p\n", __func__, a, ba);
#endif
*mapping = ba + (pa & BRIDGE_ATE_LMASK);
*limit = ba + BRIDGE_ATE_LSIZE;
mtx_leave(&xb->xb_atemtx);
return 0;
}
printf("%s: out of ATE\n", DEVNAME(xb));
#ifdef ATE_DEBUG
xbridge_ate_dump(xb);
#endif
mtx_leave(&xb->xb_atemtx);
#endif
/*
* We could try allocating a bounce buffer here.
* Maybe once there is a MI interface for this...
*/
return EINVAL;
}
void
xbridge_address_unmap(struct xbpci_softc *xb, bus_addr_t ba, bus_size_t len)
{
#if 0
uint a;
uint refs;
#endif
/*
* If this address matches an ATE, unref it, and make it
* available again if the reference count drops to zero.
*/
if (ba < BRIDGE_DMA_TRANSLATED_BASE || ba >= BRIDGE_DMA_DIRECT_BASE)
return;
#if 0
if (ba & XBRIDGE_DMA_TRANSLATED_SWAP)
ba &= ~XBRIDGE_DMA_TRANSLATED_SWAP;
a = ATE_INDEX(ba, BRIDGE_ATE_LSHIFT);
#ifdef DIAGNOSTIC
if (a >= xb->xb_atecnt)
panic("%s: bus address %p references nonexisting ATE %u/%u",
__func__, ba, a, xb->xb_atecnt);
#endif
/*
* Since we only coalesce contiguous pages or page fragments in
* the maps, and we made sure not to cross I/O page boundaries,
* we have one reference per cpu page the range [ba, ba+len-1]
* hits.
*/
refs = 1 + atop(ba + len - 1) - atop(ba);
mtx_enter(&xb->xb_atemtx);
xbridge_ate_unref(xb, a, refs);
mtx_leave(&xb->xb_atemtx);
#endif
}
/*
* bus_dmamap_loadXXX() bowels implementation.
*/
int
xbridge_dmamap_load_buffer(bus_dma_tag_t t, bus_dmamap_t map, void *buf,
bus_size_t buflen, struct proc *p, int flags, paddr_t *lastaddrp,
int *segp, int first)
{
struct xbpci_softc *xb = t->_cookie;
bus_size_t sgsize;
bus_addr_t lastaddr, baddr, bmask;
bus_addr_t busaddr, endaddr;
paddr_t pa;
vaddr_t vaddr = (vaddr_t)buf;
int seg;
pmap_t pmap;
int rc;
if (first) {
for (seg = 0; seg < map->_dm_segcnt; seg++)
map->dm_segs[seg].ds_addr = 0;
}
if (p != NULL)
pmap = p->p_vmspace->vm_map.pmap;
else
pmap = pmap_kernel();
lastaddr = *lastaddrp;
bmask = ~(map->_dm_boundary - 1);
if (t->_dma_mask != 0)
bmask &= t->_dma_mask;
for (seg = *segp; buflen > 0; ) {
/*
* Get the physical address for this segment.
*/
if (pmap_extract(pmap, vaddr, &pa) == FALSE)
panic("%s: pmap_extract(%x, %x) failed",
__func__, pmap, vaddr);
/*
* Compute the DMA address and the physical range
* this mapping can cover.
*/
if (xbridge_address_map(xb, pa, &busaddr, &endaddr) != 0) {
rc = ENOMEM;
goto fail_unmap;
}
/*
* Compute the segment size, and adjust counts.
* Note that we do not min() against (endaddr - busaddr)
* as the initial sgsize computation is <= (endaddr - busaddr).
*/
sgsize = PAGE_SIZE - ((u_long)vaddr & PGOFSET);
if (buflen < sgsize)
sgsize = buflen;
/*
* Make sure we don't cross any boundaries.
*/
if (map->_dm_boundary > 0) {
baddr = (busaddr + map->_dm_boundary) & bmask;
if (sgsize > (baddr - busaddr))
sgsize = baddr - busaddr;
}
/*
* Insert chunk into a segment, coalescing with
* previous segment if possible.
*/
if (first) {
map->dm_segs[seg].ds_addr = busaddr;
map->dm_segs[seg].ds_len = sgsize;
map->dm_segs[seg]._ds_paddr = pa;
map->dm_segs[seg]._ds_vaddr = vaddr;
first = 0;
} else {
if (busaddr == lastaddr &&
(map->dm_segs[seg].ds_len + sgsize) <=
map->_dm_maxsegsz &&
(map->_dm_boundary == 0 ||
(map->dm_segs[seg].ds_addr & bmask) ==
(busaddr & bmask)))
map->dm_segs[seg].ds_len += sgsize;
else {
if (++seg >= map->_dm_segcnt) {
/* drop partial ATE reference */
xbridge_address_unmap(xb, busaddr,
sgsize);
break;
}
map->dm_segs[seg].ds_addr = busaddr;
map->dm_segs[seg].ds_len = sgsize;
map->dm_segs[seg]._ds_paddr = pa;
map->dm_segs[seg]._ds_vaddr = vaddr;
}
}
lastaddr = busaddr + sgsize;
if (lastaddr == endaddr)
lastaddr = ~0; /* can't coalesce */
vaddr += sgsize;
buflen -= sgsize;
}
*segp = seg;
*lastaddrp = lastaddr;
/*
* Did we fit?
*/
if (buflen != 0) {
rc = EFBIG;
goto fail_unmap;
}
return 0;
fail_unmap:
/*
* If control goes there, we need to unref all our ATE, if any.
*/
for (seg = 0; seg < map->_dm_segcnt; seg++) {
xbridge_address_unmap(xb, map->dm_segs[seg].ds_addr,
map->dm_segs[seg].ds_len);
map->dm_segs[seg].ds_addr = 0;
}
return rc;
}
/*
* bus_dmamap_unload() implementation.
*/
void
xbridge_dmamap_unload(bus_dma_tag_t t, bus_dmamap_t map)
{
struct xbpci_softc *xb = t->_cookie;
int seg;
for (seg = 0; seg < map->_dm_segcnt; seg++) {
xbridge_address_unmap(xb, map->dm_segs[seg].ds_addr,
map->dm_segs[seg].ds_len);
map->dm_segs[seg].ds_addr = 0;
}
map->dm_nsegs = 0;
map->dm_mapsize = 0;
}
/*
* bus_dmamem_alloc() implementation.
*/
int
xbridge_dmamem_alloc(bus_dma_tag_t t, bus_size_t size, bus_size_t alignment,
bus_size_t boundary, bus_dma_segment_t *segs, int nsegs, int *rsegs,
int flags)
{
paddr_t low, high;
/*
* Limit bus_dma'able memory to the first 2GB of physical memory.
* XXX This should be lifted if flags & BUS_DMA_64BIT for drivers
* XXX which do not need to restrict themselves to 32 bit DMA
* XXX addresses.
*/
low = 0;
high = low + BRIDGE_DMA_DIRECT_LENGTH - 1;
return _dmamem_alloc_range(t, size, alignment, boundary,
segs, nsegs, rsegs, flags, low, high);
}
/*
* Since we override the various bus_dmamap_load*() functions, the only
* caller of pa_to_device() and device_to_pa() is _dmamem_alloc_range(),
* invoked by xbridge_dmamem_alloc() above. Since we make sure this
* function can only return memory fitting in the direct DMA window, we do
* not need to check for other cases.
*/
bus_addr_t
xbridge_pa_to_device(paddr_t pa)
{
return pa + BRIDGE_DMA_DIRECT_BASE;
}
paddr_t
xbridge_device_to_pa(bus_addr_t addr)
{
return addr - BRIDGE_DMA_DIRECT_BASE;
}
/*
********************* Bridge configuration code.
*/
const char *
xbridge_setup(struct xbpci_softc *xb)
{
paddr_t pa;
uint64_t status, ctrl, int_addr;
int mode, speed, dev;
status = xbridge_read_reg(xb, WIDGET_STATUS);
ctrl = xbridge_read_reg(xb, WIDGET_CONTROL);
/*
* Print bus mode and speed.
*/
mode = ISSET(xb->xb_flags, XF_PIC) &&
ISSET(status, PIC_WIDGET_STATUS_PCIX_MODE);
if (mode != 0) {
SET(xb->xb_flags, XF_PCIX);
speed = (status & PIC_WIDGET_STATUS_PCIX_SPEED_MASK) >>
PIC_WIDGET_STATUS_PCIX_SPEED_SHIFT;
} else if (ISSET(xb->xb_flags, XF_XBRIDGE)) {
speed = (ctrl & BRIDGE_WIDGET_CONTROL_SPEED_MASK) >>
BRIDGE_WIDGET_CONTROL_SPEED_SHIFT;
} else
speed = 0;
/* 0 = 33 MHz, 1 = 66 MHz, 2 = 100 MHz, 3 = 133 MHz */
speed = (speed & 2 ? 100 : 33) + (speed & 1 ? 33 : 0);
printf("%d MHz %s bus", speed, mode ? "PCIX" : "PCI");
/*
* Gather device identification for all slots.
* We need this to be able to allocate RRBs correctly, and also
* to be able to check quickly whether a given device is an IOC3.
*/
for (dev = 0; dev < xb->xb_nslots; dev++) {
if (ISSET(xb->xb_flags, XF_PIC))
pa = xb->xb_regh + BRIDGE_PCI_CFG_SPACE +
((dev + 1) << 12) + PCI_ID_REG;
else
pa = xb->xb_regh + BRIDGE_PCI_CFG_SPACE +
(dev << 12) + PCI_ID_REG;
if (guarded_read_4(pa, &xb->xb_devices[dev].id) != 0)
xb->xb_devices[dev].id = PCI_ID_EMPTY;
}
/*
* Configure the direct DMA window to access the low 2GB of memory.
* XXX assumes masternasid is 0
*/
xbridge_write_reg(xb, BRIDGE_DIR_MAP,
xbow_intr_widget << BRIDGE_DIRMAP_WIDGET_SHIFT);
/*
* Figure out how many ATE we can use for non-direct DMA, and
* setup our ATE management code.
*/
xbridge_ate_setup(xb);
/*
* Allocate RRB for the existing devices.
*/
xbridge_rrb_setup(xb, 0);
xbridge_rrb_setup(xb, 1);
/*
* Disable byteswapping on PIO accesses through the large window
* (we handle this at the bus_space level). It should not have
* been enabled by ARCS, since IOC serial console relies on this,
* but better enforce this anyway.
*/
ctrl &= ~BRIDGE_WIDGET_CONTROL_IO_SWAP;
ctrl &= ~BRIDGE_WIDGET_CONTROL_MEM_SWAP;
xbridge_write_reg(xb, WIDGET_CONTROL, ctrl);
(void)xbridge_read_reg(xb, WIDGET_TFLUSH);
/*
* The PROM will only configure the onboard devices. Set up
* any other device we might encounter.
*/
xbridge_resource_setup(xb);
/*
* Older Bridge chips needs to run with pci timeouts
* disabled.
*/
if (!ISSET(xb->xb_flags, XF_XBRIDGE) && xb->xb_revision < 4) {
xbridge_write_reg(xb, BRIDGE_BUS_TIMEOUT,
xbridge_read_reg(xb, BRIDGE_BUS_TIMEOUT) &
~BRIDGE_BUS_PCI_RETRY_CNT_MASK);
}
/*
* Setup interrupt handling.
*
* Note that, on PIC, the `lower address' register is a 64 bit
* register and thus need to be initialized with the whole 64 bit
* address; the `upper address' register is hardwired to zero and
* ignores writes, so we can use the same logic on Bridge and PIC.
*
* Also, on Octane, we need to keep otherwise unused interrupt source
* #6 enabled on the obio widget, as it controls routing of the
* power button interrupt (and to make things more complicated than
* necessary, this pin is wired to a particular Heart interrupt
* register bit, so interrupts on this pin will never be seen at the
* Bridge level.
*/
#ifdef TGT_OCTANE
if (sys_config.system_type == SGI_OCTANE &&
xb->xb_widget == IP30_BRIDGE_WIDGET)
xb->xb_ier = 1 << 6;
else
#endif
xb->xb_ier = 0;
xbridge_write_reg(xb, BRIDGE_IER, 0);
xbridge_write_reg(xb, BRIDGE_INT_MODE, 0);
xbridge_write_reg(xb, BRIDGE_INT_DEV, 0);
int_addr = ((uint64_t)xbow_intr_widget << 48) |
(xbow_intr_widget_register & ((1UL << 48) - 1));
xbridge_write_reg(xb, WIDGET_INTDEST_ADDR_LOWER, int_addr);
xbridge_write_reg(xb, WIDGET_INTDEST_ADDR_UPPER, int_addr >> 32);
(void)xbridge_read_reg(xb, WIDGET_TFLUSH);
/*
* Register an error interrupt handler.
*/
if (xbow_intr_register(xb->xb_widget, IPL_HIGH,
&xb->xb_err_intrsrc) != 0)
return "can't allocate error interrupt source";
if (xbow_intr_establish(xbridge_err_intr_handler, xb,
xb->xb_err_intrsrc, IPL_HIGH, DEVNAME(xb), NULL))
return "unable to register error interrupt handler";
xbridge_err_clear(xb, 0);
xbridge_write_reg(xb, BRIDGE_INT_HOST_ERR, xb->xb_err_intrsrc);
/*
* Enable as many error interrupt sources as possible; older
* Bridge chips need to have a few of them kept masked to
* avoid hitting hardware issues.
*/
xb->xb_ier |= (ISSET(xb->xb_flags, XF_PIC) ?
PIC_ISR_ERRMASK : BRIDGE_ISR_ERRMASK) &
~(BRIDGE_ISR_MULTIPLE_ERR | BRIDGE_ISR_SSRAM_PERR |
BRIDGE_ISR_GIO_BENABLE_ERR);
if (xb->xb_busno != 0) {
/* xtalk errors will only show up on bus #0 */
xb->xb_ier &= ~(BRIDGE_ISR_UNSUPPORTED_XOP |
BRIDGE_ISR_LLP_REC_SNERR | BRIDGE_ISR_LLP_REC_CBERR |
BRIDGE_ISR_LLP_RCTY | BRIDGE_ISR_LLP_TX_RETRY |
BRIDGE_ISR_LLP_TCTY);
}
if (!ISSET(xb->xb_flags, XF_XBRIDGE)) {
if (xb->xb_revision < 2)
xb->xb_ier &= ~(BRIDGE_ISR_UNEXPECTED_RESP |
BRIDGE_ISR_PCI_MASTER_TMO |
BRIDGE_ISR_RESP_XTALK_ERR |
BRIDGE_ISR_LLP_TX_RETRY | BRIDGE_ISR_XREAD_REQ_TMO);
if (xb->xb_revision < 3)
xb->xb_ier &= ~BRIDGE_ISR_BAD_XRESP_PACKET;
}
xbridge_write_reg(xb, BRIDGE_IER, xb->xb_ier);
(void)xbridge_read_reg(xb, WIDGET_TFLUSH);
return NULL;
}
/*
* Handle PCI errors.
*/
void
xbridge_err_handle(struct xbpci_softc *xb, uint64_t isr)
{
uint64_t pci_err, wid_err, resp_err;
wid_err = xbridge_read_reg(xb, WIDGET_ERR_ADDR_LOWER);
if (!ISSET(xb->xb_flags, XF_PIC))
wid_err |= xbridge_read_reg(xb, WIDGET_ERR_ADDR_UPPER) << 32;
pci_err = xbridge_read_reg(xb, BRIDGE_PCI_ERR_LOWER);
if (!ISSET(xb->xb_flags, XF_PIC))
pci_err |= xbridge_read_reg(xb, BRIDGE_PCI_ERR_UPPER) << 32;
resp_err = xbridge_read_reg(xb, BRIDGE_WIDGET_RESP_LOWER);
if (!ISSET(xb->xb_flags, XF_PIC))
resp_err |=
xbridge_read_reg(xb, BRIDGE_WIDGET_RESP_UPPER) << 32;
/* XXX give more detailed information */
printf("%s: error interrupt, isr %p wid %p pci %p resp %p\n",
DEVNAME(xb), isr, wid_err, pci_err, resp_err);
xbridge_err_clear(xb, isr);
}
/*
* Clear any error condition.
*/
void
xbridge_err_clear(struct xbpci_softc *xb, uint64_t isr)
{
if (ISSET(xb->xb_flags, XF_PIC)) {
if (isr == 0)
isr = xbridge_read_reg(xb, BRIDGE_ISR) &
~BRIDGE_ISR_HWINTR_MASK;
xbridge_write_reg(xb, BRIDGE_ICR, isr);
} else
xbridge_write_reg(xb, BRIDGE_ICR, BRIDGE_ICR_ALL);
(void)xbridge_read_reg(xb, WIDGET_TFLUSH);
}
/*
* Build a not-so-pessimistic RRB allocation register value.
*/
void
xbridge_rrb_setup(struct xbpci_softc *xb, int odd)
{
uint rrb[MAX_SLOTS / 2]; /* tentative rrb assignment */
uint total; /* rrb count */
uint32_t proto; /* proto rrb value */
int dev, i, j;
/*
* First, try to allocate as many RRBs per device as possible.
*/
total = 0;
for (i = 0; i < nitems(rrb); i++) {
dev = (i << 1) + !!odd;
if (dev >= xb->xb_nslots || SLOT_EMPTY(xb, dev))
rrb[i] = 0;
else
rrb[i] = 4; /* optimistic value */
total += rrb[i];
}
/*
* Then, try to reduce greed until we do not claim more than
* the 8 RRBs we can afford.
*/
if (total > 8) {
/*
* All devices should be able to live with 3 RRBs, so
* reduce their allocation from 4 to 3.
*/
for (i = 0; i < nitems(rrb); i++) {
if (rrb[i] == 4) {
rrb[i]--;
if (--total == 8)
break;
}
}
}
if (total > 8) {
/*
* There are too many devices for 3 RRBs per device to
* be possible. Attempt to reduce from 3 to 2, except
* for isp(4) devices.
*/
for (i = 0; i < nitems(rrb); i++) {
if (rrb[i] == 3) {
dev = (i << 1) + !!odd;
if (PCI_VENDOR(xb->xb_devices[dev].id) !=
PCI_VENDOR_QLOGIC) {
rrb[i]--;
if (--total == 8)
break;
}
}
}
}
if (total > 8) {
/*
* Too bad, we need to shrink the RRB allocation for
* isp devices too. We'll try to favour the lowest
* slots, though, hence the reversed loop order.
*/
for (i = nitems(rrb) - 1; i >= 0; i--) {
if (rrb[i] == 3) {
rrb[i]--;
if (--total == 8)
break;
}
}
}
/*
* Now build the RRB register value proper.
*/
proto = 0;
for (i = 0; i < nitems(rrb); i++) {
for (j = 0; j < rrb[i]; j++)
proto = (proto << RRB_SHIFT) | (RRB_VALID | i);
}
xbridge_write_reg(xb, odd ? BRIDGE_RRB_ODD : BRIDGE_RRB_EVEN, proto);
}
/*
* Configure PCI resources for all devices.
*/
void
xbridge_resource_setup(struct xbpci_softc *xb)
{
pci_chipset_tag_t pc = &xb->xb_pc;
int dev, nfuncs;
pcitag_t tag;
pcireg_t id, bhlcr;
uint32_t devio;
int need_setup;
uint secondary, nppb, npccbb, ppbstride;
const struct pci_quirkdata *qd;
/*
* On Octane, we will want to map everything through the large
* windows, whenever possible.
*
* Set up these mappings now.
*/
if (sys_config.system_type == SGI_OCTANE) {
xb->xb_ioex = xbridge_mapping_setup(xb, 1);
xb->xb_memex = xbridge_mapping_setup(xb, 0);
}
/*
* Configure all regular PCI devices.
*/
#ifdef DEBUG
for (dev = 0; dev < xb->xb_nslots; dev++)
printf("device %d: devio %08x\n",
dev, xbridge_read_reg(xb, BRIDGE_DEVICE(dev)));
#endif
nppb = npccbb = 0;
for (dev = 0; dev < xb->xb_nslots; dev++) {
if (SLOT_EMPTY(xb, dev))
continue;
/*
* Count ppb and pccbb devices, we will need their number later.
*/
tag = pci_make_tag(pc, 0, dev, 0);
bhlcr = pci_conf_read(pc, tag, PCI_BHLC_REG);
if (PCI_HDRTYPE_TYPE(bhlcr) == 1)
nppb++;
if (PCI_HDRTYPE_TYPE(bhlcr) == 2)
npccbb++;
/*
* We want to avoid changing mapping configuration for
* devices which have been setup by ARCS.
*
* On Octane, the whole on-board I/O widget has been
* set up, with direct mappings into widget space.
*
* On Origin, since direct mappings are expensive,
* everything set up by ARCS has a valid devio
* mapping; those can be identified as they sport the
* widget number in the high address bits.
*
* We will only fix the device-global devio flags on
* devices which have been set up by ARCS. Otherwise,
* we'll need to perform proper PCI resource allocation.
*/
id = xb->xb_devices[dev].id;
devio = xbridge_read_reg(xb, BRIDGE_DEVICE(dev));
if (id != PCI_ID_CODE(PCI_VENDOR_SGI, PCI_PRODUCT_SGI_IOC3) &&
id != PCI_ID_CODE(PCI_VENDOR_SGI, PCI_PRODUCT_SGI_IOC4))
need_setup = 1;
else
need_setup = xb->xb_busno != 0 || xb->xb_devio_skew !=
((devio & BRIDGE_DEVICE_BASE_MASK) >>
(24 - BRIDGE_DEVICE_BASE_SHIFT));
/*
* Enable byte swapping for DMA, except on IOC3, IOC4 and
* RAD1 devices.
*/
if (ISSET(xb->xb_flags, XF_XBRIDGE))
devio &= ~BRIDGE_DEVICE_SWAP_PMU;
else
devio |= BRIDGE_DEVICE_SWAP_PMU;
devio |= BRIDGE_DEVICE_SWAP_DIR;
if (id == PCI_ID_CODE(PCI_VENDOR_SGI, PCI_PRODUCT_SGI_IOC3) ||
id == PCI_ID_CODE(PCI_VENDOR_SGI, PCI_PRODUCT_SGI_IOC4) ||
id == PCI_ID_CODE(PCI_VENDOR_SGI, PCI_PRODUCT_SGI_RAD1))
devio &=
~(BRIDGE_DEVICE_SWAP_DIR | BRIDGE_DEVICE_SWAP_PMU);
/*
* Disable prefetching - on-board isp(4) controllers on
* Octane are set up with this, but this confuses the
* driver.
*/
devio &= ~BRIDGE_DEVICE_PREFETCH;
/*
* Force cache coherency.
*/
devio |= BRIDGE_DEVICE_COHERENT;
if (need_setup == 0) {
xbridge_set_devio(xb, dev, devio, 1);
continue;
}
/*
* Clear any residual devio mapping.
*/
devio &= ~BRIDGE_DEVICE_BASE_MASK;
devio &= ~BRIDGE_DEVICE_IO_MEM;
xbridge_set_devio(xb, dev, devio, 0);
/*
* We now need to perform the resource allocation for this
* device, which has not been setup by ARCS.
*/
qd = pci_lookup_quirkdata(PCI_VENDOR(id), PCI_PRODUCT(id));
if (PCI_HDRTYPE_MULTIFN(bhlcr) ||
(qd != NULL && (qd->quirks & PCI_QUIRK_MULTIFUNCTION) != 0))
nfuncs = 8;
else
nfuncs = 1;
xbridge_device_setup(xb, dev, nfuncs, devio);
}
/*
* Configure PCI-PCI and PCI-CardBus bridges, if any.
*
* We do this after all the other PCI devices have been configured
* in order to favour them during resource allocation.
*/
if (npccbb != 0) {
/*
* If there are PCI-CardBus bridges, we really want to be
* able to have large resource spaces...
*/
if (xb->xb_ioex == NULL)
xb->xb_ioex = xbridge_mapping_setup(xb, 1);
if (xb->xb_memex == NULL)
xb->xb_memex = xbridge_mapping_setup(xb, 0);
}
secondary = 1;
ppbstride = nppb == 0 ? 0 : (255 - npccbb) / nppb;
for (dev = 0; dev < xb->xb_nslots; dev++) {
if (SLOT_EMPTY(xb, dev))
continue;
tag = pci_make_tag(pc, 0, dev, 0);
bhlcr = pci_conf_read(pc, tag, PCI_BHLC_REG);
switch (PCI_HDRTYPE_TYPE(bhlcr)) {
case 1: /* PCI-PCI bridge */
ppb_initialize(pc, tag, 0, secondary,
secondary + ppbstride - 1);
secondary += ppbstride;
break;
case 2: /* PCI-CardBus bridge */
/*
* We do not expect cardbus devices to sport
* PCI-PCI bridges themselves, so only one
* PCI bus will do.
*/
pccbb_initialize(pc, tag, 0, secondary, secondary);
secondary++;
break;
}
}
if (xb->xb_ioex != NULL) {
extent_destroy(xb->xb_ioex);
xb->xb_ioex = NULL;
}
if (xb->xb_memex != NULL) {
extent_destroy(xb->xb_memex);
xb->xb_memex = NULL;
}
}
/*
* Make the Octane flash area unavailable in the PCI space extents, so
* that we do not try to map devices in its area.
*/
int
xbridge_extent_chomp(struct xbpci_softc *xb, struct extent *ex)
{
#ifdef TGT_OCTANE
/*
* On Octane, the boot PROM is part of the onboard IOC3
* device, and is accessible through the PCI memory space
* (and maybe through the PCI I/O space as well).
*
* To avoid undebuggable surprises, make sure we never use
* this space.
*/
if (sys_config.system_type == SGI_OCTANE &&
xb->xb_widget == IP30_BRIDGE_WIDGET) {
u_long fmin, fmax;
/*
* This relies upon the knowledge that both flash bases
* are contiguous, to perform only one extent operation.
* I don't think we need to be pedantic to the point of
* doing this in two steps, really -- miod
*/
fmin = max(IP30_FLASH_BASE, ex->ex_start);
fmax = min(IP30_FLASH_ALT + IP30_FLASH_SIZE - 1, ex->ex_end);
if (fmax >= fmin)
return extent_alloc_region(ex, fmin, fmax + 1 - fmin,
EX_NOWAIT | EX_MALLOCOK);
}
#endif
return 0;
}
/*
* Build resource extents for the MI PCI code to play with.
* These extents cover the configured devio areas, and the large resource
* views, if applicable.
*/
void
xbridge_extent_setup(struct xbpci_softc *xb)
{
int dev;
int errors;
bus_addr_t start, end;
uint32_t devio;
snprintf(xb->xb_ioexname, sizeof(xb->xb_ioexname), "%s_io",
DEVNAME(xb));
xb->xb_ioex = extent_create(xb->xb_ioexname, 0, 0xffffffff,
M_DEVBUF, NULL, 0, EX_NOWAIT | EX_FILLED);
if (xb->xb_ioex != NULL) {
errors = 0;
/* make all configured devio ranges available... */
for (dev = 0; dev < xb->xb_nslots; dev++) {
devio = xb->xb_devices[dev].devio;
if (devio == 0 || ISSET(devio, BRIDGE_DEVICE_IO_MEM))
continue;
start = (devio & BRIDGE_DEVICE_BASE_MASK) <<
BRIDGE_DEVICE_BASE_SHIFT;
if (start == 0)
continue;
if (extent_free(xb->xb_ioex, start,
BRIDGE_DEVIO_SIZE(dev), EX_NOWAIT) != 0) {
errors++;
break;
}
}
/* ...as well as the large views, if any */
if (xb->xb_ioend != 0) {
start = xb->xb_iostart;
if (start == 0)
start = 1;
end = xb->xb_devio_skew << 24;
if (start < end)
if (extent_free(xb->xb_ioex, start,
end, EX_NOWAIT) != 0)
errors++;
start = (xb->xb_devio_skew + 1) << 24;
if (start < xb->xb_iostart)
start = xb->xb_iostart;
if (extent_free(xb->xb_ioex, start,
xb->xb_ioend + 1 - start, EX_NOWAIT) != 0)
errors++;
}
if (xbridge_extent_chomp(xb, xb->xb_ioex) != 0)
errors++;
if (errors != 0) {
extent_destroy(xb->xb_ioex);
xb->xb_ioex = NULL;
}
}
snprintf(xb->xb_memexname, sizeof(xb->xb_memexname), "%s_mem",
DEVNAME(xb));
xb->xb_memex = extent_create(xb->xb_memexname, 0, 0xffffffff,
M_DEVBUF, NULL, 0, EX_NOWAIT | EX_FILLED);
if (xb->xb_memex != NULL) {
errors = 0;
/* make all configured devio ranges available... */
for (dev = 0; dev < xb->xb_nslots; dev++) {
devio = xb->xb_devices[dev].devio;
if (devio == 0 || !ISSET(devio, BRIDGE_DEVICE_IO_MEM))
continue;
start = (devio & BRIDGE_DEVICE_BASE_MASK) <<
BRIDGE_DEVICE_BASE_SHIFT;
if (start == 0)
continue;
if (extent_free(xb->xb_memex, start,
BRIDGE_DEVIO_SIZE(dev), EX_NOWAIT) != 0) {
errors++;
break;
}
}
/* ...as well as the large views, if any */
if (xb->xb_memend != 0) {
start = xb->xb_memstart;
if (start == 0)
start = 1;
end = xb->xb_devio_skew << 24;
if (start < end)
if (extent_free(xb->xb_memex, start,
end, EX_NOWAIT) != 0)
errors++;
start = (xb->xb_devio_skew + 1) << 24;
if (start < xb->xb_memstart)
start = xb->xb_memstart;
if (extent_free(xb->xb_memex, start,
xb->xb_memend + 1 - start, EX_NOWAIT) != 0)
errors++;
}
if (xbridge_extent_chomp(xb, xb->xb_memex) != 0)
errors++;
if (errors != 0) {
extent_destroy(xb->xb_memex);
xb->xb_memex = NULL;
}
}
}
struct extent *
xbridge_mapping_setup(struct xbpci_softc *xb, int io)
{
bus_addr_t membase, offs;
bus_size_t len;
paddr_t base;
u_long start, end;
struct extent *ex = NULL;
if (io) {
/*
* I/O mappings are available in the widget at offset
* BRIDGE_PCI_IO_SPACE_BASE onwards, but weren't working
* correctly until Bridge revision 4 (apparently, what
* didn't work was the byteswap logic).
*
* Also, this direct I/O space is not supported on PIC
* widgets.
*/
if (!ISSET(xb->xb_flags, XF_NO_DIRECT_IO)) {
offs = BRIDGE_PCI_IO_SPACE_BASE;
len = BRIDGE_PCI_IO_SPACE_LENGTH;
base = xbow_widget_map_space(xb->xb_bow,
xb->xb_widget, &offs, &len);
} else
base = 0;
if (base != 0) {
if (offs + len > BRIDGE_PCI_IO_SPACE_BASE +
BRIDGE_PCI_IO_SPACE_LENGTH)
len = BRIDGE_PCI_IO_SPACE_BASE +
BRIDGE_PCI_IO_SPACE_LENGTH - offs;
#ifdef DEBUG
printf("direct io %p-%p base %p\n",
offs, offs + len - 1, base);
#endif
offs -= BRIDGE_PCI_IO_SPACE_BASE;
ex = extent_create("xbridge_direct_io",
offs == 0 ? 1 : offs, offs + len - 1,
M_DEVBUF, NULL, 0, EX_NOWAIT);
/*
* Note that we do not need to invoke
* xbridge_extent_chomp() here since we will
* reserve the whole devio area.
*/
if (ex != NULL) {
xb->xb_io_bus_space->bus_base = base - offs;
xb->xb_io_bus_space->_space_map =
xbridge_space_map_io;
xb->xb_io_bus_space->_space_subregion =
xbridge_space_region_io;
xb->xb_iostart = offs;
xb->xb_ioend = offs + len - 1;
}
}
} else {
/*
* Memory mappings are available in the widget at offset
* BRIDGE_PCI#_MEM_SPACE_BASE onwards.
*/
membase = xb->xb_busno == 0 ? BRIDGE_PCI0_MEM_SPACE_BASE :
BRIDGE_PCI1_MEM_SPACE_BASE;
offs = membase;
len = BRIDGE_PCI_MEM_SPACE_LENGTH;
base = xbow_widget_map_space(xb->xb_bow,
xb->xb_widget, &offs, &len);
if (base != 0) {
/*
* Only the low 30 bits of memory BAR are honoured
* by the hardware, thus restricting memory mappings
* to 1GB.
*/
if (offs + len > membase + BRIDGE_PCI_MEM_SPACE_LENGTH)
len = membase + BRIDGE_PCI_MEM_SPACE_LENGTH -
offs;
#ifdef DEBUG
printf("direct mem %p-%p base %p\n",
offs, offs + len - 1, base);
#endif
offs -= membase;
ex = extent_create("xbridge_direct_mem",
offs == 0 ? 1 : offs, offs + len - 1,
M_DEVBUF, NULL, 0, EX_NOWAIT);
/*
* Note that we do not need to invoke
* xbridge_extent_chomp() here since we will
* reserve the whole devio area.
*/
if (ex != NULL) {
xb->xb_mem_bus_space->bus_base = base - offs;
xb->xb_mem_bus_space->_space_map =
xbridge_space_map_mem;
xb->xb_mem_bus_space->_space_subregion =
xbridge_space_region_mem;
xb->xb_memstart = offs;
xb->xb_memend = offs + len - 1;
}
}
}
if (ex != NULL) {
/*
* Remove the devio mapping range from the extent
* to avoid ambiguous mappings.
*
* Note that xbow_widget_map_space() may have returned
* a range in which the devio area does not appear.
*/
start = xb->xb_devio_skew << 24;
end = (xb->xb_devio_skew + 1) << 24;
if (end >= ex->ex_start && start <= ex->ex_end) {
if (start < ex->ex_start)
start = ex->ex_start;
if (end > ex->ex_end + 1)
end = ex->ex_end + 1;
if (extent_alloc_region(ex, start, end - start,
EX_NOWAIT | EX_MALLOCOK) != 0) {
printf("%s: failed to expurge devio range"
" from %s large extent\n",
DEVNAME(xb), io ? "i/o" : "mem");
extent_destroy(ex);
ex = NULL;
}
}
}
return ex;
}
/*
* Flags returned by xbridge_resource_explore()
*/
#define XR_IO 0x01 /* needs I/O mappings */
#define XR_MEM 0x02 /* needs memory mappings */
#define XR_IO_OFLOW_S 0x04 /* can't fit I/O in a short devio */
#define XR_MEM_OFLOW_S 0x08 /* can't fit memory in a short devio */
#define XR_IO_OFLOW 0x10 /* can't fit I/O in a large devio */
#define XR_MEM_OFLOW 0x20 /* can't fit memory in a large devio */
int
xbridge_resource_explore(struct xbpci_softc *xb, pcitag_t tag,
struct extent *ioex, struct extent *memex)
{
pci_chipset_tag_t pc = &xb->xb_pc;
pcireg_t bhlc, type, addr, mask;
bus_addr_t base;
bus_size_t size;
int reg, reg_start, reg_end, reg_rom;
int rc = 0;
bhlc = pci_conf_read(pc, tag, PCI_BHLC_REG);
switch (PCI_HDRTYPE_TYPE(bhlc)) {
case 0:
reg_start = PCI_MAPREG_START;
reg_end = PCI_MAPREG_END;
reg_rom = PCI_ROM_REG;
break;
case 1: /* PCI-PCI bridge */
reg_start = PCI_MAPREG_START;
reg_end = PCI_MAPREG_PPB_END;
reg_rom = 0; /* 0x38 */
break;
case 2: /* PCI-CardBus bridge */
reg_start = PCI_MAPREG_START;
reg_end = PCI_MAPREG_PCB_END;
reg_rom = 0;
break;
default:
return rc;
}
for (reg = reg_start; reg < reg_end; reg += 4) {
if (pci_mapreg_probe(pc, tag, reg, &type) == 0)
continue;
if (pci_mapreg_info(pc, tag, reg, type, NULL, &size, NULL))
continue;
switch (type) {
case PCI_MAPREG_TYPE_MEM | PCI_MAPREG_MEM_TYPE_64BIT:
reg += 4;
/* FALLTHROUGH */
case PCI_MAPREG_TYPE_MEM | PCI_MAPREG_MEM_TYPE_32BIT:
rc |= XR_MEM;
if (memex != NULL) {
if (size > memex->ex_end - memex->ex_start)
rc |= XR_MEM_OFLOW | XR_MEM_OFLOW_S;
else if (extent_alloc(memex, size, size,
0, 0, 0, &base) != 0)
rc |= XR_MEM_OFLOW | XR_MEM_OFLOW_S;
else if (base >= BRIDGE_DEVIO_SHORT)
rc |= XR_MEM_OFLOW_S;
} else
rc |= XR_MEM_OFLOW | XR_MEM_OFLOW_S;
break;
case PCI_MAPREG_TYPE_IO:
rc |= XR_IO;
if (ioex != NULL) {
if (size > ioex->ex_end - ioex->ex_start)
rc |= XR_IO_OFLOW | XR_IO_OFLOW_S;
else if (extent_alloc(ioex, size, size,
0, 0, 0, &base) != 0)
rc |= XR_IO_OFLOW | XR_IO_OFLOW_S;
else if (base >= BRIDGE_DEVIO_SHORT)
rc |= XR_IO_OFLOW_S;
} else
rc |= XR_IO_OFLOW | XR_IO_OFLOW_S;
break;
}
}
if (reg_rom != 0) {
addr = pci_conf_read(pc, tag, reg_rom);
pci_conf_write(pc, tag, reg_rom, ~PCI_ROM_ENABLE);
mask = pci_conf_read(pc, tag, reg_rom);
pci_conf_write(pc, tag, reg_rom, addr);
size = PCI_ROM_SIZE(mask);
if (size != 0) {
rc |= XR_MEM;
if (memex != NULL) {
if (size > memex->ex_end - memex->ex_start)
rc |= XR_MEM_OFLOW | XR_MEM_OFLOW_S;
else if (extent_alloc(memex, size, size,
0, 0, 0, &base) != 0)
rc |= XR_MEM_OFLOW | XR_MEM_OFLOW_S;
else if (base >= BRIDGE_DEVIO_SHORT)
rc |= XR_MEM_OFLOW_S;
} else
rc |= XR_MEM_OFLOW | XR_MEM_OFLOW_S;
}
}
return rc;
}
void
xbridge_resource_manage(struct xbpci_softc *xb, pcitag_t tag,
struct extent *ioex, struct extent *memex)
{
pci_chipset_tag_t pc = &xb->xb_pc;
pcireg_t bhlc, type, mask;
bus_addr_t base;
bus_size_t size;
int reg, reg_start, reg_end, reg_rom;
bhlc = pci_conf_read(pc, tag, PCI_BHLC_REG);
switch (PCI_HDRTYPE_TYPE(bhlc)) {
case 0:
reg_start = PCI_MAPREG_START;
reg_end = PCI_MAPREG_END;
reg_rom = PCI_ROM_REG;
break;
case 1: /* PCI-PCI bridge */
reg_start = PCI_MAPREG_START;
reg_end = PCI_MAPREG_PPB_END;
reg_rom = 0; /* 0x38 */
break;
case 2: /* PCI-CardBus bridge */
reg_start = PCI_MAPREG_START;
reg_end = PCI_MAPREG_PCB_END;
reg_rom = 0;
break;
default:
return;
}
for (reg = reg_start; reg < reg_end; reg += 4) {
if (pci_mapreg_probe(pc, tag, reg, &type) == 0)
continue;
if (pci_mapreg_info(pc, tag, reg, type, &base, &size, NULL))
continue;
/*
* Note that we do not care about the existing BAR values,
* since these devices either have not been setup by ARCS
* or do not matter for early system setup (such as
* optional IOC3 PCI boards, which will get setup by
* ARCS but can be reinitialized as we see fit).
*/
#ifdef DEBUG
printf("tag %04x bar %02x type %d base %p size %p",
tag, reg, type, base, size);
#endif
switch (type) {
case PCI_MAPREG_TYPE_MEM | PCI_MAPREG_MEM_TYPE_64BIT:
/*
* Since our mapping ranges are restricted to
* at most 30 bits, the upper part of the 64 bit
* BAR registers is always zero.
*/
pci_conf_write(pc, tag, reg + 4, 0);
/* FALLTHROUGH */
case PCI_MAPREG_TYPE_MEM | PCI_MAPREG_MEM_TYPE_32BIT:
if (memex != NULL) {
if (extent_alloc(memex, size, size, 0, 0, 0,
&base) != 0)
base = 0;
} else
base = 0;
break;
case PCI_MAPREG_TYPE_IO:
if (ioex != NULL) {
if (extent_alloc(ioex, size, size, 0, 0, 0,
&base) != 0)
base = 0;
} else
base = 0;
break;
}
#ifdef DEBUG
printf(" setup at %p\n", base);
#endif
pci_conf_write(pc, tag, reg, base);
if (type == (PCI_MAPREG_TYPE_MEM | PCI_MAPREG_MEM_TYPE_64BIT))
reg += 4;
}
if (reg_rom != 0) {
base = (bus_addr_t)pci_conf_read(pc, tag, reg_rom);
pci_conf_write(pc, tag, reg_rom, ~PCI_ROM_ENABLE);
mask = pci_conf_read(pc, tag, reg_rom);
size = PCI_ROM_SIZE(mask);
if (size != 0) {
#ifdef DEBUG
printf("bar %02x type rom base %p size %p",
reg_rom, base, size);
#endif
if (memex != NULL) {
if (extent_alloc(memex, size, size, 0, 0, 0,
&base) != 0)
base = 0;
} else
base = 0;
#ifdef DEBUG
printf(" setup at %p\n", base);
#endif
} else
base = 0;
/* ROM intentionally left disabled */
pci_conf_write(pc, tag, reg_rom, base);
}
}
void
xbridge_device_setup(struct xbpci_softc *xb, int dev, int nfuncs,
uint32_t devio)
{
pci_chipset_tag_t pc = &xb->xb_pc;
int function;
pcitag_t tag;
pcireg_t id, csr;
uint32_t baseio;
int resources;
int io_devio, mem_devio;
struct extent *ioex, *memex;
/*
* In a first step, we enumerate all the requested resources,
* and check if they could fit within devio mappings.
*
* If devio can't afford us the mappings we need, we'll
* try and allocate a large window.
*/
/*
* Allocate extents to use for devio mappings if necessary.
* This can fail; in that case we'll try to use a large mapping
* whenever possible, or silently fail to configure the device.
*/
if (xb->xb_ioex != NULL)
ioex = NULL;
else {
ioex = extent_create("xbridge_io",
0, BRIDGE_DEVIO_LARGE - 1,
M_DEVBUF, NULL, 0, EX_NOWAIT);
#ifdef DEBUG
if (ioex == NULL)
printf("%s: ioex extent_create failed\n");
#endif
}
if (xb->xb_memex != NULL)
memex = NULL;
else {
memex = extent_create("xbridge_mem",
0, BRIDGE_DEVIO_LARGE - 1,
M_DEVBUF, NULL, 0, EX_NOWAIT);
#ifdef DEBUG
if (memex == NULL)
printf("%s: memex extent_create failed\n");
#endif
}
resources = 0;
for (function = 0; function < nfuncs; function++) {
tag = pci_make_tag(pc, 0, dev, function);
id = pci_conf_read(pc, tag, PCI_ID_REG);
if (PCI_VENDOR(id) == PCI_VENDOR_INVALID ||
PCI_VENDOR(id) == 0)
continue;
csr = pci_conf_read(pc, tag, PCI_COMMAND_STATUS_REG);
pci_conf_write(pc, tag, PCI_COMMAND_STATUS_REG, csr &
~(PCI_COMMAND_IO_ENABLE | PCI_COMMAND_MEM_ENABLE));
resources |= xbridge_resource_explore(xb, tag, ioex, memex);
}
#ifdef DEBUG
printf("resources mask: %02x\n", resources);
#endif
if (memex != NULL) {
extent_destroy(memex);
memex = NULL;
}
if (ioex != NULL) {
extent_destroy(ioex);
ioex = NULL;
}
/*
* In a second step, if resources can be mapped using devio slots,
* allocate them. Otherwise, or if we can't get a devio slot
* big enough for the resources we need to map, we'll need
* to get a large window mapping.
*
* Note that, on Octane, we try to avoid using devio whenever
* possible.
*/
io_devio = -1;
if (ISSET(resources, XR_IO)) {
if (!ISSET(resources, XR_IO_OFLOW) &&
(sys_config.system_type != SGI_OCTANE ||
xb->xb_ioex == NULL))
io_devio = xbridge_allocate_devio(xb, dev,
ISSET(resources, XR_IO_OFLOW_S));
if (io_devio >= 0) {
baseio = (xb->xb_devio_skew << 24) |
PIC_DEVIO_OFFS(xb->xb_busno, io_devio);
xbridge_set_devio(xb, io_devio, devio |
(baseio >> BRIDGE_DEVICE_BASE_SHIFT), 1);
ioex = extent_create("xbridge_io", baseio,
baseio + BRIDGE_DEVIO_SIZE(io_devio) - 1,
M_DEVBUF, NULL, 0, EX_NOWAIT);
} else {
/*
* Try to get a large window mapping if we don't
* have one already.
*/
if (xb->xb_ioex == NULL)
xb->xb_ioex = xbridge_mapping_setup(xb, 1);
}
}
mem_devio = -1;
if (ISSET(resources, XR_MEM)) {
if (!ISSET(resources, XR_MEM_OFLOW) &&
sys_config.system_type != SGI_OCTANE)
mem_devio = xbridge_allocate_devio(xb, dev,
ISSET(resources, XR_MEM_OFLOW_S));
if (mem_devio >= 0) {
baseio = (xb->xb_devio_skew << 24) |
PIC_DEVIO_OFFS(xb->xb_busno, mem_devio);
xbridge_set_devio(xb, mem_devio, devio |
BRIDGE_DEVICE_IO_MEM |
(baseio >> BRIDGE_DEVICE_BASE_SHIFT), 1);
memex = extent_create("xbridge_mem", baseio,
baseio + BRIDGE_DEVIO_SIZE(mem_devio) - 1,
M_DEVBUF, NULL, 0, EX_NOWAIT);
} else {
/*
* Try to get a large window mapping if we don't
* have one already.
*/
if (xb->xb_memex == NULL)
xb->xb_memex = xbridge_mapping_setup(xb, 0);
}
}
/*
* Finally allocate the resources proper and update the
* device BARs accordingly.
*/
for (function = 0; function < nfuncs; function++) {
tag = pci_make_tag(pc, 0, dev, function);
id = pci_conf_read(pc, tag, PCI_ID_REG);
if (PCI_VENDOR(id) == PCI_VENDOR_INVALID ||
PCI_VENDOR(id) == 0)
continue;
xbridge_resource_manage(xb, tag,
ioex != NULL ? ioex : xb->xb_ioex,
memex != NULL ? memex : xb->xb_memex);
}
if (memex != NULL)
extent_destroy(memex);
if (ioex != NULL)
extent_destroy(ioex);
}
int
xbridge_ppb_setup(void *cookie, pcitag_t tag, bus_addr_t *iostart,
bus_addr_t *ioend, bus_addr_t *memstart, bus_addr_t *memend)
{
struct xbpci_softc *xb = cookie;
pci_chipset_tag_t pc = &xb->xb_pc;
uint32_t base, devio;
bus_size_t exsize;
u_long exstart;
int dev, devio_idx, tries;
pci_decompose_tag(pc, tag, NULL, &dev, NULL);
devio = xbridge_read_reg(xb, BRIDGE_DEVICE(dev));
/*
* Since our caller computes resource needs starting at zero, we
* can ignore the start values when computing the amount of
* resources we'll need.
*/
/*
* Try and allocate I/O resources first, as we may not be able
* to use a large I/O mapping, in which case we want to use our
* reserved devio for this purpose.
*/
exsize = *ioend;
*iostart = 0xffffffff;
*ioend = 0;
if (exsize++ != 0) {
/* try to allocate through a devio slot whenever possible... */
if (exsize < BRIDGE_DEVIO_SHORT)
devio_idx = xbridge_allocate_devio(xb, dev, 0);
else if (exsize < BRIDGE_DEVIO_LARGE)
devio_idx = xbridge_allocate_devio(xb, dev, 1);
else
devio_idx = -1;
/* ...if it fails, try the large view.... */
if (devio_idx < 0 && xb->xb_ioex == NULL)
xb->xb_ioex = xbridge_mapping_setup(xb, 1);
/* ...if it is not available, try to get a devio slot anyway. */
if (devio_idx < 0 && xb->xb_ioex == NULL) {
if (exsize > BRIDGE_DEVIO_SHORT)
devio_idx = xbridge_allocate_devio(xb, dev, 1);
if (devio_idx < 0)
devio_idx = xbridge_allocate_devio(xb, dev, 0);
}
if (devio_idx >= 0) {
base = (xb->xb_devio_skew << 24) |
PIC_DEVIO_OFFS(xb->xb_busno, devio_idx);
xbridge_set_devio(xb, devio_idx, devio |
(base >> BRIDGE_DEVICE_BASE_SHIFT), 1);
*iostart = base;
*ioend = base + BRIDGE_DEVIO_SIZE(devio_idx) - 1;
} else if (xb->xb_ioex != NULL) {
/*
* We know that the direct I/O resource range fits
* within the 32 bit address space, so our allocation,
* if successfull, will work as a 32 bit i/o range.
*/
if (exsize < 1UL << 12)
exsize = 1UL << 12;
for (tries = 0; tries < 5; tries++) {
if (extent_alloc(xb->xb_ioex, exsize,
1UL << 12, 0, 0, EX_NOWAIT | EX_MALLOCOK,
&exstart) == 0) {
*iostart = exstart;
*ioend = exstart + exsize - 1;
break;
}
exsize >>= 1;
if (exsize < 1UL << 12)
break;
}
}
}
exsize = *memend;
*memstart = 0xffffffff;
*memend = 0;
if (exsize++ != 0) {
/* try to allocate through a devio slot whenever possible... */
if (exsize < BRIDGE_DEVIO_SHORT)
devio_idx = xbridge_allocate_devio(xb, dev, 0);
else if (exsize < BRIDGE_DEVIO_LARGE)
devio_idx = xbridge_allocate_devio(xb, dev, 1);
else
devio_idx = -1;
/* ...if it fails, try the large view.... */
if (devio_idx < 0 && xb->xb_memex == NULL)
xb->xb_memex = xbridge_mapping_setup(xb, 0);
/* ...if it is not available, try to get a devio slot anyway. */
if (devio_idx < 0 && xb->xb_memex == NULL) {
if (exsize > BRIDGE_DEVIO_SHORT)
devio_idx = xbridge_allocate_devio(xb, dev, 1);
if (devio_idx < 0)
devio_idx = xbridge_allocate_devio(xb, dev, 0);
}
if (devio_idx >= 0) {
base = (xb->xb_devio_skew << 24) |
PIC_DEVIO_OFFS(xb->xb_busno, devio_idx);
xbridge_set_devio(xb, devio_idx, devio |
BRIDGE_DEVICE_IO_MEM |
(base >> BRIDGE_DEVICE_BASE_SHIFT), 1);
*memstart = base;
*memend = base + BRIDGE_DEVIO_SIZE(devio_idx) - 1;
} else if (xb->xb_memex != NULL) {
/*
* We know that the direct memory resource range fits
* within the 32 bit address space, and is limited to
* 30 bits, so our allocation, if successfull, will
* work as a 32 bit memory range.
*/
if (exsize < 1UL << 20)
exsize = 1UL << 20;
for (tries = 0; tries < 5; tries++) {
if (extent_alloc(xb->xb_memex, exsize,
1UL << 20, 0, 0, EX_NOWAIT | EX_MALLOCOK,
&exstart) == 0) {
*memstart = exstart;
*memend = exstart + exsize - 1;
break;
}
exsize >>= 1;
if (exsize < 1UL << 20)
break;
}
}
}
return 0;
}
#if NCARDBUS > 0
static struct rb_md_fnptr xbridge_rb_md_fn = {
xbridge_rbus_space_map,
xbridge_rbus_space_unmap
};
int
xbridge_rbus_space_map(bus_space_tag_t t, bus_addr_t addr, bus_size_t size,
int flags, bus_space_handle_t *bshp)
{
return bus_space_map(t, addr, size, flags, bshp);
}
void
xbridge_rbus_space_unmap(bus_space_tag_t t, bus_space_handle_t h,
bus_size_t size, bus_addr_t *addrp)
{
bus_space_unmap(t, h, size);
*addrp = h - t->bus_base;
}
void *
xbridge_rbus_parent_io(struct pci_attach_args *pa)
{
struct extent *ex = pa->pa_ioex;
bus_addr_t start, end;
rbus_tag_t rb = NULL;
/*
* We want to force I/O mappings to lie in the low 16 bits
* area. This is mandatory for 16-bit pcmcia devices; and
* although 32-bit cardbus devices could use a larger range,
* the pccbb driver doesn't enable the large I/O windows.
*/
if (ex != NULL) {
start = 0;
end = 0x10000;
if (start < ex->ex_start)
start = ex->ex_start;
if (end > ex->ex_end)
end = ex->ex_end;
if (start < end) {
rb = rbus_new_root_share(pa->pa_iot, ex,
start, end - start, 0);
if (rb != NULL)
rb->rb_md = &xbridge_rb_md_fn;
}
}
/*
* We are not allowed to return NULL. If we can't provide
* resources, return a valid body which will fail requests.
*/
if (rb == NULL)
rb = rbus_new_body(pa->pa_iot, NULL, NULL, 0, 0, 0,
RBUS_SPACE_INVALID);
return rb;
}
void *
xbridge_rbus_parent_mem(struct pci_attach_args *pa)
{
struct xbpci_softc *xb = pa->pa_pc->pc_conf_v;
struct extent *ex = pa->pa_memex;
bus_addr_t start;
rbus_tag_t rb = NULL;
/*
* There is no restriction for the memory mappings,
* however we need to make sure these won't hit the
* devio range (for md_space_unmap to work correctly).
*/
if (ex != NULL) {
start = (xb->xb_devio_skew + 1) << 24;
if (start < ex->ex_start)
start = ex->ex_start;
if (start < ex->ex_end) {
rb = rbus_new_root_share(pa->pa_memt, ex,
start, ex->ex_end - start, 0);
if (rb != NULL)
rb->rb_md = &xbridge_rb_md_fn;
}
}
/*
* We are not allowed to return NULL. If we can't provide
* resources, return a valid body which will fail requests.
*/
if (rb == NULL)
rb = rbus_new_body(pa->pa_iot, NULL, NULL, 0, 0, 0,
RBUS_SPACE_INVALID);
return rb;
}
#endif /* NCARDBUS > 0 */
int
xbridge_allocate_devio(struct xbpci_softc *xb, int dev, int wantlarge)
{
#ifdef DEBUG
int orig_dev = dev;
#endif
/*
* If the preferred slot is available and matches the size requested,
* use it.
*/
if (!ISSET(xb->xb_devio_usemask, 1 << dev)) {
if (BRIDGE_DEVIO_SIZE(dev) >=
wantlarge ? BRIDGE_DEVIO_LARGE : BRIDGE_DEVIO_SHORT) {
#ifdef DEBUG
printf("%s(%d,%d): using reserved entry\n",
__func__, dev, wantlarge);
#endif
return dev;
}
}
/*
* Otherwise pick the smallest available devio matching our size
* request.
*/
for (dev = 0; dev < xb->xb_nslots; dev++) {
if (ISSET(xb->xb_devio_usemask, 1 << dev))
continue; /* devio in use */
if (!SLOT_EMPTY(xb, dev))
continue; /* devio to be used soon */
if (BRIDGE_DEVIO_SIZE(dev) >=
wantlarge ? BRIDGE_DEVIO_LARGE : BRIDGE_DEVIO_SHORT) {
#ifdef DEBUG
printf("%s(%d,%d): using unused entry %d\n",
__func__, orig_dev, wantlarge, dev);
#endif
return dev;
}
}
#ifdef DEBUG
printf("%s(%d,%d): no entry available\n",
__func__, orig_dev, wantlarge);
#endif
return -1;
}
void
xbridge_set_devio(struct xbpci_softc *xb, int dev, uint32_t devio, int final)
{
xbridge_write_reg(xb, BRIDGE_DEVICE(dev), devio);
(void)xbridge_read_reg(xb, WIDGET_TFLUSH);
xb->xb_devices[dev].devio = devio;
if (final)
SET(xb->xb_devio_usemask, 1 << dev);
#ifdef DEBUG
printf("device %d: new %sdevio %08x\n",
dev, final ? "final " : "", devio);
#endif
}
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