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freebsd-skq/sys/dev/bhnd/siba/siba_erom.c
Landon J. Fuller 111d7cb2e3 Migrate bhndb(4) to the new bhnd_erom API. 
Adds support for probing and initializing bhndb(4) bridge state using
the bhnd_erom API, ensuring that full bridge configuration is available
*prior* to actually attaching and enumerating the bhnd(4) child device,
allowing us to safely allocate bus-level agent/device resources during
bhnd(4) bus enumeration.

- Add a bhnd_erom_probe() method usable by bhndb(4). This is an analogue
  to the existing bhnd_erom_probe_static() method, and allows the bhndb
  bridge to discover the best available erom parser class prior to newbus
  probing of its children.
- Add support for supplying identification hints when probing erom
  devices. This is required on early EXTIF-only chipsets, where chip
  identification registers are not available.
- Migrate bhndb over to the new bhnd_erom API, using bhnd_core_info
  records rather than bridged bhnd(4) device_t references to determine
  the bridged chipsets' capability/bridge configuration.
- The bhndb parent (e.g. if_bwn) is now required to supply a hardware
  priority table to the bridge. The default table is currently sufficient
  for our supported devices.
- Drop the two-pass attach approach we used for compatibility with bhndb(4) in
  the bhnd(4) bus drivers, and instead perform bus enumeration immediately,
  and allocate bridged per-child bus-level resources during that enumeration.

Approved by:	adrian (mentor)
Differential Revision:	https://reviews.freebsd.org/D7768
2016-09-04 00:58:19 +00:00

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/*-
* Copyright (c) 2015-2016 Landon Fuller <landonf@FreeBSD.org>
* 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,
* without modification.
* 2. Redistributions in binary form must reproduce at minimum a disclaimer
* similar to the "NO WARRANTY" disclaimer below ("Disclaimer") and any
* redistribution must be conditioned upon including a substantially
* similar Disclaimer requirement for further binary redistribution.
*
* NO WARRANTY
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF NONINFRINGEMENT, MERCHANTIBILITY
* AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
* THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR 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 DAMAGES.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/param.h>
#include <sys/bus.h>
#include <sys/kernel.h>
#include <sys/malloc.h>
#include <sys/module.h>
#include <machine/bus.h>
#include <dev/bhnd/bhnd_erom.h>
#include <dev/bhnd/cores/chipc/chipcreg.h>
#include "sibareg.h"
#include "sibavar.h"
struct siba_erom;
struct siba_erom_io;
static int siba_eio_init(struct siba_erom_io *io,
device_t parent, struct bhnd_resource *res,
int rid, bus_size_t offset, u_int ncores);
static int siba_eio_init_static(struct siba_erom_io *io,
bus_space_tag_t bst, bus_space_handle_t bsh,
bus_size_t offset, u_int ncores);
static uint32_t siba_eio_read_4(struct siba_erom_io *io,
u_int core_idx, bus_size_t offset);
static struct siba_core_id siba_eio_read_core_id(struct siba_erom_io *io,
u_int core_idx, int unit);
static int siba_eio_read_chipid(struct siba_erom_io *io,
bus_addr_t enum_addr,
struct bhnd_chipid *cid);
/**
* SIBA EROM generic I/O context
*/
struct siba_erom_io {
u_int ncores; /**< core count */
bus_size_t offset; /**< base read offset */
/* resource state */
device_t dev; /**< parent dev to use for resource allocations,
or NULL if unavailable. */
struct bhnd_resource *res; /**< memory resource, or NULL */
int rid; /**< memory resource ID */
/* bus tag state */
bus_space_tag_t bst; /**< bus space tag */
bus_space_handle_t bsh; /**< bus space handle */
};
/**
* SIBA EROM per-instance state.
*/
struct siba_erom {
struct bhnd_erom obj;
struct siba_erom_io io; /**< i/o context */
};
#define EROM_LOG(io, fmt, ...) do { \
if (io->dev != NULL) { \
device_printf(io->dev, "%s: " fmt, __FUNCTION__, \
##__VA_ARGS__); \
} else { \
printf("%s: " fmt, __FUNCTION__, ##__VA_ARGS__); \
} \
} while(0)
static int
siba_erom_probe_common(struct siba_erom_io *io, const struct bhnd_chipid *hint,
struct bhnd_chipid *cid)
{
uint32_t idreg;
int error;
/* Try using the provided hint. */
if (hint != NULL) {
struct siba_core_id sid;
/* Validate bus type */
if (hint->chip_type != BHND_CHIPTYPE_SIBA)
return (ENXIO);
/*
* Verify the first core's IDHIGH/IDLOW identification.
*
* The core must be a Broadcom core, but must *not* be
* a chipcommon core; those shouldn't be hinted.
*
* The first core on EXTIF-equipped devices varies, but on the
* BCM4710, it's a SDRAM core (0x803).
*/
sid = siba_eio_read_core_id(io, 0, 0);
if (sid.core_info.vendor != BHND_MFGID_BCM)
return (ENXIO);
if (sid.core_info.device == BHND_COREID_CC)
return (EINVAL);
*cid = *hint;
} else {
/* Validate bus type */
idreg = siba_eio_read_4(io, 0, CHIPC_ID);
if (CHIPC_GET_BITS(idreg, CHIPC_ID_BUS) != BHND_CHIPTYPE_SIBA)
return (ENXIO);
/* Identify the chipset */
if ((error = siba_eio_read_chipid(io, SIBA_ENUM_ADDR, cid)))
return (error);
/* Verify the chip type */
if (cid->chip_type != BHND_CHIPTYPE_SIBA)
return (ENXIO);
}
/*
* gcc hack: ensure bhnd_chipid.ncores cannot exceed SIBA_MAX_CORES
* without triggering build failure due to -Wtype-limits
*
* if (cid.ncores > SIBA_MAX_CORES)
* return (EINVAL)
*/
_Static_assert((2^sizeof(cid->ncores)) <= SIBA_MAX_CORES,
"ncores could result in over-read of backing resource");
return (0);
}
/* SIBA implementation of BHND_EROM_PROBE() */
static int
siba_erom_probe(bhnd_erom_class_t *cls, struct bhnd_resource *res,
bus_size_t offset, const struct bhnd_chipid *hint,
struct bhnd_chipid *cid)
{
struct siba_erom_io io;
int error, rid;
rid = rman_get_rid(res->res);
/* Initialize I/O context, assuming at least 1 core exists. */
if ((error = siba_eio_init(&io, NULL, res, rid, offset, 1)))
return (error);
return (siba_erom_probe_common(&io, hint, cid));
}
/* SIBA implementation of BHND_EROM_PROBE_STATIC() */
static int
siba_erom_probe_static(bhnd_erom_class_t *cls, bus_space_tag_t bst,
bus_space_handle_t bsh, bus_addr_t paddr, const struct bhnd_chipid *hint,
struct bhnd_chipid *cid)
{
struct siba_erom_io io;
int error;
/* Initialize I/O context, assuming at least 1 core exists. */
if ((error = siba_eio_init_static(&io, bst, bsh, 0, 1)))
return (error);
return (siba_erom_probe_common(&io, hint, cid));
}
/* SIBA implementation of BHND_EROM_INIT() */
static int
siba_erom_init(bhnd_erom_t *erom, const struct bhnd_chipid *cid,
device_t parent, int rid)
{
struct siba_erom *sc;
struct bhnd_resource *res;
int error;
sc = (struct siba_erom *)erom;
/* Allocate backing resource */
res = bhnd_alloc_resource(parent, SYS_RES_MEMORY, &rid,
cid->enum_addr, cid->enum_addr + SIBA_ENUM_SIZE -1, SIBA_ENUM_SIZE,
RF_ACTIVE|RF_SHAREABLE);
if (res == NULL)
return (ENOMEM);
/* Initialize I/O context */
error = siba_eio_init(&sc->io, parent, res, rid, 0x0, cid->ncores);
if (error)
bhnd_release_resource(parent, SYS_RES_MEMORY, rid, res);
return (error);
}
/* SIBA implementation of BHND_EROM_INIT_STATIC() */
static int
siba_erom_init_static(bhnd_erom_t *erom, const struct bhnd_chipid *cid,
bus_space_tag_t bst, bus_space_handle_t bsh)
{
struct siba_erom *sc;
sc = (struct siba_erom *)erom;
/* Initialize I/O context */
return (siba_eio_init_static(&sc->io, bst, bsh, 0x0, cid->ncores));
}
/* SIBA implementation of BHND_EROM_FINI() */
static void
siba_erom_fini(bhnd_erom_t *erom)
{
struct siba_erom *sc = (struct siba_erom *)erom;
if (sc->io.res != NULL) {
bhnd_release_resource(sc->io.dev, SYS_RES_MEMORY, sc->io.rid,
sc->io.res);
sc->io.res = NULL;
sc->io.rid = -1;
}
}
/* Initialize siba_erom resource I/O context */
static int
siba_eio_init(struct siba_erom_io *io, device_t parent,
struct bhnd_resource *res, int rid, bus_size_t offset, u_int ncores)
{
io->dev = parent;
io->res = res;
io->rid = rid;
io->offset = offset;
io->ncores = ncores;
return (0);
}
/* Initialize siba_erom bus space I/O context */
static int
siba_eio_init_static(struct siba_erom_io *io, bus_space_tag_t bst,
bus_space_handle_t bsh, bus_size_t offset, u_int ncores)
{
io->res = NULL;
io->rid = -1;
io->bst = bst;
io->bsh = bsh;
io->offset = offset;
io->ncores = ncores;
return (0);
}
/**
* Read a 32-bit value from @p offset relative to the base address of
* the given @p core_idx.
*
* @param io EROM I/O context.
* @param core_idx Core index.
* @param offset Core register offset.
*/
static uint32_t
siba_eio_read_4(struct siba_erom_io *io, u_int core_idx, bus_size_t offset)
{
bus_size_t core_offset;
/* Sanity check core index and offset */
if (core_idx >= io->ncores)
panic("core index %u out of range (ncores=%u)", core_idx,
io->ncores);
if (offset > SIBA_CORE_SIZE - sizeof(uint32_t))
panic("invalid core offset %#jx", (uintmax_t)offset);
/* Perform read */
core_offset = io->offset + SIBA_CORE_OFFSET(core_idx) + offset;
if (io->res != NULL)
return (bhnd_bus_read_4(io->res, core_offset));
else
return (bus_space_read_4(io->bst, io->bsh, core_offset));
}
/**
* Read and parse identification registers for the given @p core_index.
*
* @param io EROM I/O context.
* @param core_idx The core index.
* @param unit The caller-specified unit number to be included in the return
* value.
*/
static struct siba_core_id
siba_eio_read_core_id(struct siba_erom_io *io, u_int core_idx, int unit)
{
uint32_t idhigh, idlow;
idhigh = siba_eio_read_4(io, core_idx, SB0_REG_ABS(SIBA_CFG0_IDHIGH));
idlow = siba_eio_read_4(io, core_idx, SB0_REG_ABS(SIBA_CFG0_IDLOW));
return (siba_parse_core_id(idhigh, idlow, core_idx, unit));
}
/**
* Read and parse the chip identification register from the ChipCommon core.
*
* @param io EROM I/O context.
* @param enum_addr The physical address mapped by @p io.
* @param cid On success, the parsed chip identifier.
*/
static int
siba_eio_read_chipid(struct siba_erom_io *io, bus_addr_t enum_addr,
struct bhnd_chipid *cid)
{
struct siba_core_id ccid;
uint32_t idreg;
/* Identify the chipcommon core */
ccid = siba_eio_read_core_id(io, 0, 0);
if (ccid.core_info.vendor != BHND_MFGID_BCM ||
ccid.core_info.device != BHND_COREID_CC)
{
if (bootverbose) {
EROM_LOG(io, "first core not chipcommon "
"(vendor=%#hx, core=%#hx)\n", ccid.core_info.vendor,
ccid.core_info.device);
}
return (ENXIO);
}
/* Identify the chipset */
idreg = siba_eio_read_4(io, 0, CHIPC_ID);
*cid = bhnd_parse_chipid(idreg, enum_addr);
/* Fix up the core count in-place */
return (bhnd_chipid_fixed_ncores(cid, ccid.core_info.hwrev,
&cid->ncores));
}
static int
siba_erom_lookup_core(bhnd_erom_t *erom, const struct bhnd_core_match *desc,
struct bhnd_core_info *core)
{
struct siba_erom *sc;
struct bhnd_core_match imatch;
sc = (struct siba_erom *)erom;
/* We can't determine a core's unit number during the initial scan. */
imatch = *desc;
imatch.m.match.core_unit = 0;
/* Locate the first matching core */
for (u_int i = 0; i < sc->io.ncores; i++) {
struct siba_core_id sid;
struct bhnd_core_info ci;
/* Read the core info */
sid = siba_eio_read_core_id(&sc->io, i, 0);
ci = sid.core_info;
/* Check for initial match */
if (!bhnd_core_matches(&ci, &imatch))
continue;
/* Re-scan preceding cores to determine the unit number. */
for (u_int j = 0; j < i; j++) {
sid = siba_eio_read_core_id(&sc->io, i, 0);
/* Bump the unit number? */
if (sid.core_info.vendor == ci.vendor &&
sid.core_info.device == ci.device)
ci.unit++;
}
/* Check for full match against now-valid unit number */
if (!bhnd_core_matches(&ci, desc))
continue;
/* Matching core found */
*core = ci;
return (0);
}
/* Not found */
return (ENOENT);
}
static int
siba_erom_lookup_core_addr(bhnd_erom_t *erom, const struct bhnd_core_match *desc,
bhnd_port_type type, u_int port, u_int region, struct bhnd_core_info *info,
bhnd_addr_t *addr, bhnd_size_t *size)
{
struct siba_erom *sc;
struct bhnd_core_info core;
struct siba_core_id sid;
uint32_t am, am_addr, am_size;
u_int am_offset;
u_int addrspace;
int error;
sc = (struct siba_erom *)erom;
/* Locate the requested core */
if ((error = siba_erom_lookup_core(erom, desc, &core)))
return (error);
/* Fetch full siba core ident */
sid = siba_eio_read_core_id(&sc->io, core.core_idx, core.unit);
/* Is port valid? */
if (!siba_is_port_valid(sid.num_addrspace, type, port))
return (ENOENT);
/* Is region valid? */
if (region >= siba_addrspace_region_count(sid.num_addrspace, port))
return (ENOENT);
/* Map the bhnd port values to a siba addrspace index */
error = siba_addrspace_index(sid.num_addrspace, type, port, region,
&addrspace);
if (error)
return (error);
/* Determine the register offset */
am_offset = siba_admatch_offset(addrspace);
if (am_offset == 0) {
printf("addrspace %u is unsupported", addrspace);
return (ENODEV);
}
/* Read and parse the address match register */
am = siba_eio_read_4(&sc->io, core.core_idx, am_offset);
if ((error = siba_parse_admatch(am, &am_addr, &am_size))) {
printf("failed to decode address match register value 0x%x\n",
am);
return (error);
}
if (info != NULL)
*info = core;
*addr = am_addr;
*size = am_size;
return (0);
}
/* BHND_EROM_GET_CORE_TABLE() */
static int
siba_erom_get_core_table(bhnd_erom_t *erom, struct bhnd_core_info **cores,
u_int *num_cores)
{
struct siba_erom *sc;
struct bhnd_core_info *out;
sc = (struct siba_erom *)erom;
/* Allocate our core array */
out = malloc(sizeof(*out) * sc->io.ncores, M_BHND, M_NOWAIT);
if (out == NULL)
return (ENOMEM);
*cores = out;
*num_cores = sc->io.ncores;
/* Enumerate all cores. */
for (u_int i = 0; i < sc->io.ncores; i++) {
struct siba_core_id sid;
/* Read the core info */
sid = siba_eio_read_core_id(&sc->io, i, 0);
out[i] = sid.core_info;
/* Determine unit number */
for (u_int j = 0; j < i; j++) {
if (out[j].vendor == out[i].vendor &&
out[j].device == out[i].device)
out[i].unit++;
}
}
return (0);
}
/* BHND_EROM_FREE_CORE_TABLE() */
static void
siba_erom_free_core_table(bhnd_erom_t *erom, struct bhnd_core_info *cores)
{
free(cores, M_BHND);
}
static kobj_method_t siba_erom_methods[] = {
KOBJMETHOD(bhnd_erom_probe, siba_erom_probe),
KOBJMETHOD(bhnd_erom_probe_static, siba_erom_probe_static),
KOBJMETHOD(bhnd_erom_init, siba_erom_init),
KOBJMETHOD(bhnd_erom_init_static, siba_erom_init_static),
KOBJMETHOD(bhnd_erom_fini, siba_erom_fini),
KOBJMETHOD(bhnd_erom_get_core_table, siba_erom_get_core_table),
KOBJMETHOD(bhnd_erom_free_core_table, siba_erom_free_core_table),
KOBJMETHOD(bhnd_erom_lookup_core, siba_erom_lookup_core),
KOBJMETHOD(bhnd_erom_lookup_core_addr, siba_erom_lookup_core_addr),
KOBJMETHOD_END
};
BHND_EROM_DEFINE_CLASS(siba_erom, siba_erom_parser, siba_erom_methods, sizeof(struct siba_erom));
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