freebsd-skq/sys/dev/bhnd/bhnd.h
Landon J. Fuller 7f1c814bb3 bhnd(4): Add missing enclosing parentheses to the bhnd bus space macros to
avoid precedence bugs.

Approved by:	adrian (mentor, implicit)
Sponsored by:	The FreeBSD Foundation
2017-12-14 03:03:08 +00:00

1764 lines
59 KiB
C
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*-
* SPDX-License-Identifier: BSD-2-Clause-FreeBSD
*
* Copyright (c) 2015-2016 Landon Fuller <landon@landonf.org>
* Copyright (c) 2017 The FreeBSD Foundation
* All rights reserved.
*
* Portions of this software were developed by Landon Fuller
* under sponsorship from the FreeBSD Foundation.
*
* 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.
*
* $FreeBSD$
*/
#ifndef _BHND_BHND_H_
#define _BHND_BHND_H_
#include <sys/param.h>
#include <sys/bus.h>
#include <sys/lock.h>
#include <sys/mutex.h>
#include <machine/bus.h>
#include "bhnd_ids.h"
#include "bhnd_types.h"
#include "bhnd_erom_types.h"
#include "bhnd_debug.h"
#include "bhnd_bus_if.h"
#include "bhnd_match.h"
#include "nvram/bhnd_nvram.h"
extern devclass_t bhnd_devclass;
extern devclass_t bhnd_hostb_devclass;
extern devclass_t bhnd_nvram_devclass;
#define BHND_CHIPID_MAX_NAMELEN 32 /**< maximum buffer required for a
bhnd_format_chip_id() */
/**
* bhnd child instance variables
*/
enum bhnd_device_vars {
BHND_IVAR_VENDOR, /**< Designer's JEP-106 manufacturer ID. */
BHND_IVAR_DEVICE, /**< Part number */
BHND_IVAR_HWREV, /**< Core revision */
BHND_IVAR_DEVICE_CLASS, /**< Core class (@sa bhnd_devclass_t) */
BHND_IVAR_VENDOR_NAME, /**< Core vendor name */
BHND_IVAR_DEVICE_NAME, /**< Core name */
BHND_IVAR_CORE_INDEX, /**< Bus-assigned core number */
BHND_IVAR_CORE_UNIT, /**< Bus-assigned core unit number,
assigned sequentially (starting at 0) for
each vendor/device pair. */
BHND_IVAR_PMU_INFO, /**< Internal bus-managed PMU state */
};
/**
* bhnd device probe priority bands.
*/
enum {
BHND_PROBE_ROOT = 0, /**< Nexus or host bridge */
BHND_PROBE_BUS = 1000, /**< Buses and bridges */
BHND_PROBE_CPU = 2000, /**< CPU devices */
BHND_PROBE_INTERRUPT = 3000, /**< Interrupt controllers. */
BHND_PROBE_TIMER = 4000, /**< Timers and clocks. */
BHND_PROBE_RESOURCE = 5000, /**< Resource discovery (including NVRAM/SPROM) */
BHND_PROBE_DEFAULT = 6000, /**< Default device priority */
};
/**
* Constants defining fine grained ordering within a BHND_PROBE_* priority band.
*
* Example:
* @code
* BHND_PROBE_BUS + BHND_PROBE_ORDER_FIRST
* @endcode
*/
enum {
BHND_PROBE_ORDER_FIRST = 0,
BHND_PROBE_ORDER_EARLY = 25,
BHND_PROBE_ORDER_MIDDLE = 50,
BHND_PROBE_ORDER_LATE = 75,
BHND_PROBE_ORDER_LAST = 100
};
/**
* Per-core IOCTL flags common to all bhnd(4) cores.
*/
enum {
BHND_IOCTL_BIST = 0x8000, /**< Initiate a built-in self-test (BIST). Must be cleared
after BIST results are read via BHND_IOST_BIST_* */
BHND_IOCTL_PME = 0x4000, /**< Enable posting of power management events by the core. */
BHND_IOCTL_CFLAGS = 0x3FFC, /**< Reserved for core-specific ioctl flags. */
BHND_IOCTL_CLK_FORCE = 0x0002, /**< Force disable of clock gating, resulting in all clocks
being distributed within the core. Should be set when
asserting/deasserting reset to ensure the reset signal
fully propagates to the entire core. */
BHND_IOCTL_CLK_EN = 0x0001, /**< If cleared, the core clock will be disabled. Should be
set during normal operation, and cleared when the core is
held in reset. */
};
/**
* Per-core IOST flags common to all bhnd(4) cores.
*/
enum {
BHND_IOST_BIST_DONE = 0x8000, /**< Set upon BIST completion (see BHND_IOCTL_BIST), and cleared
if 0 is written to BHND_IOCTL_BIST. */
BHND_IOST_BIST_FAIL = 0x4000, /**< Set upon detection of a BIST error; the value is unspecified
if BIST has not completed and BHND_IOST_BIST_DONE is not set. */
BHND_IOST_CLK = 0x2000, /**< Set if the core has requested that gated clocks be enabled, or
cleared otherwise. The value is undefined if a core does not
support clock gating. */
BHND_IOST_DMA64 = 0x1000, /**< Set if this core supports 64-bit DMA */
BHND_IOST_CFLAGS = 0x0FFC, /**< Reserved for core-specific status flags. */
};
/*
* Simplified accessors for bhnd device ivars
*/
#define BHND_ACCESSOR(var, ivar, type) \
__BUS_ACCESSOR(bhnd, var, BHND, ivar, type)
BHND_ACCESSOR(vendor, VENDOR, uint16_t);
BHND_ACCESSOR(device, DEVICE, uint16_t);
BHND_ACCESSOR(hwrev, HWREV, uint8_t);
BHND_ACCESSOR(class, DEVICE_CLASS, bhnd_devclass_t);
BHND_ACCESSOR(vendor_name, VENDOR_NAME, const char *);
BHND_ACCESSOR(device_name, DEVICE_NAME, const char *);
BHND_ACCESSOR(core_index, CORE_INDEX, u_int);
BHND_ACCESSOR(core_unit, CORE_UNIT, int);
BHND_ACCESSOR(pmu_info, PMU_INFO, void *);
#undef BHND_ACCESSOR
/**
* A bhnd(4) board descriptor.
*/
struct bhnd_board_info {
uint16_t board_vendor; /**< Board vendor (PCI-SIG vendor ID).
*
* On PCI devices, this will default to
* the PCI subsystem vendor ID, but may
* be overridden by the 'boardtype'
* NVRAM variable.
*
* On SoCs, this will default to
* PCI_VENDOR_BROADCOM, but may be
* overridden by the 'boardvendor'
* NVRAM variable.
*/
uint16_t board_type; /**< Board type (See BHND_BOARD_*)
*
* This value is usually a
* Broadcom-assigned reference board
* identifier (see BHND_BOARD_*), but
* may be set to an arbitrary value
* assigned by the board vendor.
*
* On PCI devices, this will default
* to the PCI subsystem ID, but may be
* overridden by the 'boardtype'
* NVRAM variable.
*
* On SoCs, this will always be
* populated with the value of the
* 'boardtype' NVRAM variable.
*/
uint16_t board_devid; /**< Board device ID.
*
* On PCI devices, this will default
* to the PCI device ID, but may
* be overridden by the 'devid'
* NVRAM variable.
*/
uint16_t board_rev; /**< Board revision. */
uint8_t board_srom_rev; /**< Board SROM format revision */
uint32_t board_flags; /**< Board flags (see BHND_BFL_*) */
uint32_t board_flags2; /**< Board flags 2 (see BHND_BFL2_*) */
uint32_t board_flags3; /**< Board flags 3 (see BHND_BFL3_*) */
};
/**
* Chip Identification
*
* This is read from the ChipCommon ID register; on earlier bhnd(4) devices
* where ChipCommon is unavailable, known values must be supplied.
*/
struct bhnd_chipid {
uint16_t chip_id; /**< chip id (BHND_CHIPID_*) */
uint8_t chip_rev; /**< chip revision */
uint8_t chip_pkg; /**< chip package (BHND_PKGID_*) */
uint8_t chip_type; /**< chip type (BHND_CHIPTYPE_*) */
bhnd_addr_t enum_addr; /**< chip_type-specific enumeration
* address; either the siba(4) base
* core register block, or the bcma(4)
* EROM core address. */
uint8_t ncores; /**< number of cores, if known. 0 if
* not available. */
};
/**
* A bhnd(4) core descriptor.
*/
struct bhnd_core_info {
uint16_t vendor; /**< JEP-106 vendor (BHND_MFGID_*) */
uint16_t device; /**< device */
uint16_t hwrev; /**< hardware revision */
u_int core_idx; /**< bus-assigned core index */
int unit; /**< bus-assigned core unit */
};
/**
* bhnd(4) DMA address widths.
*/
typedef enum {
BHND_DMA_ADDR_30BIT = 30, /**< 30-bit DMA */
BHND_DMA_ADDR_32BIT = 32, /**< 32-bit DMA */
BHND_DMA_ADDR_64BIT = 64, /**< 64-bit DMA */
} bhnd_dma_addrwidth;
/**
* Convert an address width (in bits) to its corresponding mask.
*/
#define BHND_DMA_ADDR_BITMASK(_width) \
((_width >= 64) ? ~0ULL : \
(_width == 0) ? 0x0 : \
((1ULL << (_width)) - 1)) \
/**
* bhnd(4) DMA address translation descriptor.
*/
struct bhnd_dma_translation {
/**
* Host-to-device physical address translation.
*
* This may be added to the host physical address to produce a device
* DMA address.
*/
bhnd_addr_t base_addr;
/**
* Device-addressable address mask.
*
* This defines the device's DMA address range, excluding any bits
* reserved for mapping the address to the base_addr.
*/
bhnd_addr_t addr_mask;
/**
* Device-addressable extended address mask.
*
* If a per-core bhnd(4) DMA engine supports the 'addrext' control
* field, it can be used to provide address bits excluded by addr_mask.
*
* Support for DMA extended address changes including coordination
* with the core providing DMA translation is handled transparently by
* the DMA engine. For example, on PCI(e) Wi-Fi chipsets, the Wi-Fi
* core DMA engine will (in effect) update the PCI core's DMA
* sbtopcitranslation base address to map the full address prior to
* performing a DMA transaction.
*/
bhnd_addr_t addrext_mask;
/**
* Translation flags (see bhnd_dma_translation_flags).
*/
uint32_t flags;
};
#define BHND_DMA_TRANSLATION_TABLE_END { 0, 0, 0, 0 }
#define BHND_DMA_IS_TRANSLATION_TABLE_END(_dt) \
((_dt)->base_addr == 0 && (_dt)->addr_mask == 0 && \
(_dt)->addrext_mask == 0 && (_dt)->flags == 0)
/**
* bhnd(4) DMA address translation flags.
*/
enum bhnd_dma_translation_flags {
/**
* The translation remaps the device's physical address space.
*
* This is used in conjunction with BHND_DMA_TRANSLATION_BYTESWAPPED to
* define a DMA translation that provides byteswapped access to
* physical memory on big-endian MIPS SoCs.
*/
BHND_DMA_TRANSLATION_PHYSMAP = (1<<0),
/**
* Provides a byte-swapped mapping; write requests will be byte-swapped
* before being written to memory, and read requests will be
* byte-swapped before being returned.
*
* This is primarily used to perform efficient byte swapping of DMA
* data on embedded MIPS SoCs executing in big-endian mode.
*/
BHND_DMA_TRANSLATION_BYTESWAPPED = (1<<1),
};
/**
* A bhnd(4) bus resource.
*
* This provides an abstract interface to per-core resources that may require
* bus-level remapping of address windows prior to access.
*/
struct bhnd_resource {
struct resource *res; /**< the system resource. */
bool direct; /**< false if the resource requires
* bus window remapping before it
* is MMIO accessible. */
};
/** Wrap the active resource @p _r in a bhnd_resource structure */
#define BHND_DIRECT_RESOURCE(_r) ((struct bhnd_resource) { \
.res = (_r), \
.direct = true, \
})
/**
* Device quirk table descriptor.
*/
struct bhnd_device_quirk {
struct bhnd_device_match desc; /**< device match descriptor */
uint32_t quirks; /**< quirk flags */
};
#define BHND_CORE_QUIRK(_rev, _flags) \
{{ BHND_MATCH_CORE_REV(_rev) }, (_flags) }
#define BHND_CHIP_QUIRK(_chip, _rev, _flags) \
{{ BHND_MATCH_CHIP_IR(BCM ## _chip, _rev) }, (_flags) }
#define BHND_PKG_QUIRK(_chip, _pkg, _flags) \
{{ BHND_MATCH_CHIP_IP(BCM ## _chip, BCM ## _chip ## _pkg) }, (_flags) }
#define BHND_BOARD_QUIRK(_board, _flags) \
{{ BHND_MATCH_BOARD_TYPE(_board) }, \
(_flags) }
#define BHND_DEVICE_QUIRK_END { { BHND_MATCH_ANY }, 0 }
#define BHND_DEVICE_QUIRK_IS_END(_q) \
(((_q)->desc.m.match_flags == 0) && (_q)->quirks == 0)
enum {
BHND_DF_ANY = 0,
BHND_DF_HOSTB = (1<<0), /**< core is serving as the bus' host
* bridge. implies BHND_DF_ADAPTER */
BHND_DF_SOC = (1<<1), /**< core is attached to a native
bus (BHND_ATTACH_NATIVE) */
BHND_DF_ADAPTER = (1<<2), /**< core is attached to a bridged
* adapter (BHND_ATTACH_ADAPTER) */
};
/** Device probe table descriptor */
struct bhnd_device {
const struct bhnd_device_match core; /**< core match descriptor */
const char *desc; /**< device description, or NULL. */
const struct bhnd_device_quirk *quirks_table; /**< quirks table for this device, or NULL */
uint32_t device_flags; /**< required BHND_DF_* flags */
};
#define _BHND_DEVICE(_vendor, _device, _desc, _quirks, \
_flags, ...) \
{ { BHND_MATCH_CORE(BHND_MFGID_ ## _vendor, \
BHND_COREID_ ## _device) }, _desc, _quirks, \
_flags }
#define BHND_DEVICE(_vendor, _device, _desc, _quirks, ...) \
_BHND_DEVICE(_vendor, _device, _desc, _quirks, \
## __VA_ARGS__, 0)
#define BHND_DEVICE_END { { BHND_MATCH_ANY }, NULL, NULL, 0 }
#define BHND_DEVICE_IS_END(_d) \
(BHND_MATCH_IS_ANY(&(_d)->core) && (_d)->desc == NULL)
/**
* bhnd device sort order.
*/
typedef enum {
BHND_DEVICE_ORDER_ATTACH, /**< sort by bhnd(4) device attach order;
child devices should be probed/attached
in this order */
BHND_DEVICE_ORDER_DETACH, /**< sort by bhnd(4) device detach order;
child devices should be detached, suspended,
and shutdown in this order */
} bhnd_device_order;
/**
* A registry of bhnd service providers.
*/
struct bhnd_service_registry {
STAILQ_HEAD(,bhnd_service_entry) entries; /**< registered services */
struct mtx lock; /**< state lock */
};
/**
* bhnd service provider flags.
*/
enum {
BHND_SPF_INHERITED = (1<<0), /**< service provider reference was inherited from
a parent bus, and should be deregistered when the
last active reference is released */
};
const char *bhnd_vendor_name(uint16_t vendor);
const char *bhnd_port_type_name(bhnd_port_type port_type);
const char *bhnd_nvram_src_name(bhnd_nvram_src nvram_src);
const char *bhnd_find_core_name(uint16_t vendor,
uint16_t device);
bhnd_devclass_t bhnd_find_core_class(uint16_t vendor,
uint16_t device);
const char *bhnd_core_name(const struct bhnd_core_info *ci);
bhnd_devclass_t bhnd_core_class(const struct bhnd_core_info *ci);
int bhnd_format_chip_id(char *buffer, size_t size,
uint16_t chip_id);
device_t bhnd_bus_match_child(device_t bus,
const struct bhnd_core_match *desc);
device_t bhnd_bus_find_child(device_t bus,
bhnd_devclass_t class, int unit);
int bhnd_bus_get_children(device_t bus,
device_t **devlistp, int *devcountp,
bhnd_device_order order);
void bhnd_bus_free_children(device_t *devlist);
int bhnd_bus_probe_children(device_t bus);
int bhnd_sort_devices(device_t *devlist,
size_t devcount, bhnd_device_order order);
device_t bhnd_find_bridge_root(device_t dev,
devclass_t bus_class);
const struct bhnd_core_info *bhnd_match_core(
const struct bhnd_core_info *cores,
u_int num_cores,
const struct bhnd_core_match *desc);
const struct bhnd_core_info *bhnd_find_core(
const struct bhnd_core_info *cores,
u_int num_cores, bhnd_devclass_t class);
struct bhnd_core_match bhnd_core_get_match_desc(
const struct bhnd_core_info *core);
bool bhnd_cores_equal(
const struct bhnd_core_info *lhs,
const struct bhnd_core_info *rhs);
bool bhnd_core_matches(
const struct bhnd_core_info *core,
const struct bhnd_core_match *desc);
bool bhnd_chip_matches(
const struct bhnd_chipid *chipid,
const struct bhnd_chip_match *desc);
bool bhnd_board_matches(
const struct bhnd_board_info *info,
const struct bhnd_board_match *desc);
bool bhnd_hwrev_matches(uint16_t hwrev,
const struct bhnd_hwrev_match *desc);
bool bhnd_device_matches(device_t dev,
const struct bhnd_device_match *desc);
const struct bhnd_device *bhnd_device_lookup(device_t dev,
const struct bhnd_device *table,
size_t entry_size);
uint32_t bhnd_device_quirks(device_t dev,
const struct bhnd_device *table,
size_t entry_size);
struct bhnd_core_info bhnd_get_core_info(device_t dev);
int bhnd_alloc_resources(device_t dev,
struct resource_spec *rs,
struct bhnd_resource **res);
void bhnd_release_resources(device_t dev,
const struct resource_spec *rs,
struct bhnd_resource **res);
struct bhnd_chipid bhnd_parse_chipid(uint32_t idreg,
bhnd_addr_t enum_addr);
int bhnd_chipid_fixed_ncores(
const struct bhnd_chipid *cid,
uint16_t chipc_hwrev, uint8_t *ncores);
int bhnd_read_chipid(device_t dev,
struct resource_spec *rs,
bus_size_t chipc_offset,
struct bhnd_chipid *result);
void bhnd_set_custom_core_desc(device_t dev,
const char *name);
void bhnd_set_default_core_desc(device_t dev);
void bhnd_set_default_bus_desc(device_t dev,
const struct bhnd_chipid *chip_id);
int bhnd_nvram_getvar_str(device_t dev,
const char *name, char *buf, size_t len,
size_t *rlen);
int bhnd_nvram_getvar_uint(device_t dev,
const char *name, void *value, int width);
int bhnd_nvram_getvar_uint8(device_t dev,
const char *name, uint8_t *value);
int bhnd_nvram_getvar_uint16(device_t dev,
const char *name, uint16_t *value);
int bhnd_nvram_getvar_uint32(device_t dev,
const char *name, uint32_t *value);
int bhnd_nvram_getvar_int(device_t dev,
const char *name, void *value, int width);
int bhnd_nvram_getvar_int8(device_t dev,
const char *name, int8_t *value);
int bhnd_nvram_getvar_int16(device_t dev,
const char *name, int16_t *value);
int bhnd_nvram_getvar_int32(device_t dev,
const char *name, int32_t *value);
int bhnd_nvram_getvar_array(device_t dev,
const char *name, void *buf, size_t count,
bhnd_nvram_type type);
int bhnd_service_registry_init(
struct bhnd_service_registry *bsr);
int bhnd_service_registry_fini(
struct bhnd_service_registry *bsr);
int bhnd_service_registry_add(
struct bhnd_service_registry *bsr,
device_t provider,
bhnd_service_t service,
uint32_t flags);
int bhnd_service_registry_remove(
struct bhnd_service_registry *bsr,
device_t provider,
bhnd_service_t service);
device_t bhnd_service_registry_retain(
struct bhnd_service_registry *bsr,
bhnd_service_t service);
bool bhnd_service_registry_release(
struct bhnd_service_registry *bsr,
device_t provider,
bhnd_service_t service);
int bhnd_bus_generic_register_provider(
device_t dev, device_t child,
device_t provider, bhnd_service_t service);
int bhnd_bus_generic_deregister_provider(
device_t dev, device_t child,
device_t provider, bhnd_service_t service);
device_t bhnd_bus_generic_retain_provider(device_t dev,
device_t child, bhnd_service_t service);
void bhnd_bus_generic_release_provider(device_t dev,
device_t child, device_t provider,
bhnd_service_t service);
int bhnd_bus_generic_sr_register_provider(
device_t dev, device_t child,
device_t provider, bhnd_service_t service);
int bhnd_bus_generic_sr_deregister_provider(
device_t dev, device_t child,
device_t provider, bhnd_service_t service);
device_t bhnd_bus_generic_sr_retain_provider(device_t dev,
device_t child, bhnd_service_t service);
void bhnd_bus_generic_sr_release_provider(device_t dev,
device_t child, device_t provider,
bhnd_service_t service);
bool bhnd_bus_generic_is_hw_disabled(device_t dev,
device_t child);
bool bhnd_bus_generic_is_region_valid(device_t dev,
device_t child, bhnd_port_type type,
u_int port, u_int region);
int bhnd_bus_generic_get_nvram_var(device_t dev,
device_t child, const char *name,
void *buf, size_t *size,
bhnd_nvram_type type);
const struct bhnd_chipid *bhnd_bus_generic_get_chipid(device_t dev,
device_t child);
int bhnd_bus_generic_get_dma_translation(
device_t dev, device_t child, u_int width,
uint32_t flags, bus_dma_tag_t *dmat,
struct bhnd_dma_translation *translation);
int bhnd_bus_generic_read_board_info(device_t dev,
device_t child,
struct bhnd_board_info *info);
struct bhnd_resource *bhnd_bus_generic_alloc_resource (device_t dev,
device_t child, int type, int *rid,
rman_res_t start, rman_res_t end,
rman_res_t count, u_int flags);
int bhnd_bus_generic_release_resource (device_t dev,
device_t child, int type, int rid,
struct bhnd_resource *r);
int bhnd_bus_generic_activate_resource (device_t dev,
device_t child, int type, int rid,
struct bhnd_resource *r);
int bhnd_bus_generic_deactivate_resource (device_t dev,
device_t child, int type, int rid,
struct bhnd_resource *r);
uintptr_t bhnd_bus_generic_get_intr_domain(device_t dev,
device_t child, bool self);
/**
* Return the bhnd(4) bus driver's device enumeration parser class
*
* @param driver A bhnd bus driver instance.
*/
static inline bhnd_erom_class_t *
bhnd_driver_get_erom_class(driver_t *driver)
{
return (BHND_BUS_GET_EROM_CLASS(driver));
}
/**
* Return the active host bridge core for the bhnd bus, if any, or NULL if
* not found.
*
* @param dev A bhnd bus device.
*/
static inline device_t
bhnd_bus_find_hostb_device(device_t dev) {
return (BHND_BUS_FIND_HOSTB_DEVICE(dev));
}
/**
* Register a provider for a given @p service.
*
* @param dev The device to register as a service provider
* with its parent bus.
* @param service The service for which @p dev will be registered.
*
* @retval 0 success
* @retval EEXIST if an entry for @p service already exists.
* @retval non-zero if registering @p dev otherwise fails, a regular
* unix error code will be returned.
*/
static inline int
bhnd_register_provider(device_t dev, bhnd_service_t service)
{
return (BHND_BUS_REGISTER_PROVIDER(device_get_parent(dev), dev, dev,
service));
}
/**
* Attempt to remove a service provider registration for @p dev.
*
* @param dev The device to be deregistered as a service provider.
* @param service The service for which @p dev will be deregistered, or
* BHND_SERVICE_INVALID to remove all service registrations
* for @p dev.
*
* @retval 0 success
* @retval EBUSY if active references to @p dev exist; @see
* bhnd_retain_provider() and bhnd_release_provider().
*/
static inline int
bhnd_deregister_provider(device_t dev, bhnd_service_t service)
{
return (BHND_BUS_DEREGISTER_PROVIDER(device_get_parent(dev), dev, dev,
service));
}
/**
* Retain and return a reference to the registered @p service provider, if any.
*
* @param dev The requesting device.
* @param service The service for which a provider should be returned.
*
* On success, the caller assumes ownership the returned provider, and
* is responsible for releasing this reference via
* BHND_BUS_RELEASE_PROVIDER().
*
* @retval device_t success
* @retval NULL if no provider is registered for @p service.
*/
static inline device_t
bhnd_retain_provider(device_t dev, bhnd_service_t service)
{
return (BHND_BUS_RETAIN_PROVIDER(device_get_parent(dev), dev,
service));
}
/**
* Release a reference to a provider device previously returned by
* bhnd_retain_provider().
*
* @param dev The requesting device.
* @param provider The provider to be released.
* @param service The service for which @p provider was previously retained.
*/
static inline void
bhnd_release_provider(device_t dev, device_t provider,
bhnd_service_t service)
{
return (BHND_BUS_RELEASE_PROVIDER(device_get_parent(dev), dev,
provider, service));
}
/**
* Return true if the hardware components required by @p dev are known to be
* unpopulated or otherwise unusable.
*
* In some cases, enumerated devices may have pins that are left floating, or
* the hardware may otherwise be non-functional; this method allows a parent
* device to explicitly specify if a successfully enumerated @p dev should
* be disabled.
*
* @param dev A bhnd bus child device.
*/
static inline bool
bhnd_is_hw_disabled(device_t dev) {
return (BHND_BUS_IS_HW_DISABLED(device_get_parent(dev), dev));
}
/**
* Return the BHND chip identification info for the bhnd bus.
*
* @param dev A bhnd bus child device.
*/
static inline const struct bhnd_chipid *
bhnd_get_chipid(device_t dev) {
return (BHND_BUS_GET_CHIPID(device_get_parent(dev), dev));
};
/**
* Read the current value of a bhnd(4) device's per-core I/O control register.
*
* @param dev The bhnd bus child device to be queried.
* @param[out] ioctl On success, the I/O control register value.
*
* @retval 0 success
* @retval EINVAL If @p child is not a direct child of @p dev.
* @retval ENODEV If agent/config space for @p child is unavailable.
* @retval non-zero If reading the IOCTL register otherwise fails, a regular
* unix error code will be returned.
*/
static inline int
bhnd_read_ioctl(device_t dev, uint16_t *ioctl)
{
return (BHND_BUS_READ_IOCTL(device_get_parent(dev), dev, ioctl));
}
/**
* Write @p value and @p mask to a bhnd(4) device's per-core I/O control
* register.
*
* @param dev The bhnd bus child device for which the IOCTL register will be
* written.
* @param value The value to be written (see BHND_IOCTL_*).
* @param mask Only the bits defined by @p mask will be updated from @p value.
*
* @retval 0 success
* @retval EINVAL If @p child is not a direct child of @p dev.
* @retval ENODEV If agent/config space for @p child is unavailable.
* @retval non-zero If writing the IOCTL register otherwise fails, a regular
* unix error code will be returned.
*/
static inline int
bhnd_write_ioctl(device_t dev, uint16_t value, uint16_t mask)
{
return (BHND_BUS_WRITE_IOCTL(device_get_parent(dev), dev, value, mask));
}
/**
* Read the current value of a bhnd(4) device's per-core I/O status register.
*
* @param dev The bhnd bus child device to be queried.
* @param[out] iost On success, the I/O status register value.
*
* @retval 0 success
* @retval EINVAL If @p child is not a direct child of @p dev.
* @retval ENODEV If agent/config space for @p child is unavailable.
* @retval non-zero If reading the IOST register otherwise fails, a regular
* unix error code will be returned.
*/
static inline int
bhnd_read_iost(device_t dev, uint16_t *iost)
{
return (BHND_BUS_READ_IOST(device_get_parent(dev), dev, iost));
}
/**
* Return true if the given bhnd device's hardware is currently held
* in a RESET state or otherwise not clocked (BHND_IOCTL_CLK_EN).
*
* @param dev The device to query.
*
* @retval true If @p dev is held in RESET or not clocked (BHND_IOCTL_CLK_EN),
* or an error occured determining @p dev's hardware state.
* @retval false If @p dev is clocked and is not held in RESET.
*/
static inline bool
bhnd_is_hw_suspended(device_t dev)
{
return (BHND_BUS_IS_HW_SUSPENDED(device_get_parent(dev), dev));
}
/**
* Place the bhnd(4) device's hardware into a low-power RESET state with
* the @p reset_ioctl I/O control flags set, and then bring the hardware out of
* RESET with the @p ioctl I/O control flags set.
*
* Any clock or resource PMU requests previously made by @p child will be
* invalidated.
*
* @param dev The device to be reset.
* @param ioctl Device-specific I/O control flags to be set when bringing
* the core out of its RESET state (see BHND_IOCTL_*).
* @param reset_ioctl Device-specific I/O control flags to be set when placing
* the core into its RESET state.
*
* @retval 0 success
* @retval non-zero error
*/
static inline int
bhnd_reset_hw(device_t dev, uint16_t ioctl, uint16_t reset_ioctl)
{
return (BHND_BUS_RESET_HW(device_get_parent(dev), dev, ioctl,
reset_ioctl));
}
/**
* Suspend @p child's hardware in a low-power reset state.
*
* Any clock or resource PMU requests previously made by @p dev will be
* invalidated.
*
* The hardware may be brought out of reset via bhnd_reset_hw().
*
* @param dev The device to be suspended.
*
* @retval 0 success
* @retval non-zero error
*/
static inline int
bhnd_suspend_hw(device_t dev, uint16_t ioctl)
{
return (BHND_BUS_SUSPEND_HW(device_get_parent(dev), dev, ioctl));
}
/**
* Return the BHND attachment type of the parent bhnd bus.
*
* @param dev A bhnd bus child device.
*
* @retval BHND_ATTACH_ADAPTER if the bus is resident on a bridged adapter,
* such as a WiFi chipset.
* @retval BHND_ATTACH_NATIVE if the bus provides hardware services (clock,
* CPU, etc) to a directly attached native host.
*/
static inline bhnd_attach_type
bhnd_get_attach_type (device_t dev) {
return (BHND_BUS_GET_ATTACH_TYPE(device_get_parent(dev), dev));
}
/**
* Find the best available DMA address translation capable of mapping a
* physical host address to a BHND DMA device address of @p width with
* @p flags.
*
* @param dev A bhnd bus child device.
* @param width The address width within which the translation window must
* reside (see BHND_DMA_ADDR_*).
* @param flags Required translation flags (see BHND_DMA_TRANSLATION_*).
* @param[out] dmat On success, will be populated with a DMA tag specifying the
* @p translation DMA address restrictions. This argment may be NULL if the DMA
* tag is not desired.
* the set of valid host DMA addresses reachable via @p translation.
* @param[out] translation On success, will be populated with a DMA address
* translation descriptor for @p child. This argment may be NULL if the
* descriptor is not desired.
*
* @retval 0 success
* @retval ENODEV If DMA is not supported.
* @retval ENOENT If no DMA translation matching @p width and @p flags is
* available.
* @retval non-zero If determining the DMA address translation for @p child
* otherwise fails, a regular unix error code will be returned.
*/
static inline int
bhnd_get_dma_translation(device_t dev, u_int width, uint32_t flags,
bus_dma_tag_t *dmat, struct bhnd_dma_translation *translation)
{
return (BHND_BUS_GET_DMA_TRANSLATION(device_get_parent(dev), dev, width,
flags, dmat, translation));
}
/**
* Attempt to read the BHND board identification from the bhnd bus.
*
* This relies on NVRAM access, and will fail if a valid NVRAM device cannot
* be found, or is not yet attached.
*
* @param dev The bhnd device requesting board info.
* @param[out] info On success, will be populated with the bhnd(4) device's
* board information.
*
* @retval 0 success
* @retval ENODEV No valid NVRAM source could be found.
* @retval non-zero If reading @p name otherwise fails, a regular unix
* error code will be returned.
*/
static inline int
bhnd_read_board_info(device_t dev, struct bhnd_board_info *info)
{
return (BHND_BUS_READ_BOARD_INFO(device_get_parent(dev), dev, info));
}
/**
* Return the number of interrupt lines assigned to @p dev.
*
* @param dev A bhnd bus child device.
*/
static inline u_int
bhnd_get_intr_count(device_t dev)
{
return (BHND_BUS_GET_INTR_COUNT(device_get_parent(dev), dev));
}
/**
* Get the backplane interrupt vector of the @p intr line attached to @p dev.
*
* @param dev A bhnd bus child device.
* @param intr The index of the interrupt line being queried.
* @param[out] ivec On success, the assigned hardware interrupt vector will be
* written to this pointer.
*
* On bcma(4) devices, this returns the OOB bus line assigned to the
* interrupt.
*
* On siba(4) devices, this returns the target OCP slave flag number assigned
* to the interrupt.
*
* @retval 0 success
* @retval ENXIO If @p intr exceeds the number of interrupt lines
* assigned to @p child.
*/
static inline int
bhnd_get_intr_ivec(device_t dev, u_int intr, u_int *ivec)
{
return (BHND_BUS_GET_INTR_IVEC(device_get_parent(dev), dev, intr,
ivec));
}
/**
* Map the given @p intr to an IRQ number; until unmapped, this IRQ may be used
* to allocate a resource of type SYS_RES_IRQ.
*
* On success, the caller assumes ownership of the interrupt mapping, and
* is responsible for releasing the mapping via bhnd_unmap_intr().
*
* @param dev The requesting device.
* @param intr The interrupt being mapped.
* @param[out] irq On success, the bus interrupt value mapped for @p intr.
*
* @retval 0 If an interrupt was assigned.
* @retval non-zero If mapping an interrupt otherwise fails, a regular
* unix error code will be returned.
*/
static inline int
bhnd_map_intr(device_t dev, u_int intr, rman_res_t *irq)
{
return (BHND_BUS_MAP_INTR(device_get_parent(dev), dev, intr, irq));
}
/**
* Unmap an bus interrupt previously mapped via bhnd_map_intr().
*
* @param dev The requesting device.
* @param irq The interrupt value being unmapped.
*/
static inline void
bhnd_unmap_intr(device_t dev, rman_res_t irq)
{
return (BHND_BUS_UNMAP_INTR(device_get_parent(dev), dev, irq));
}
/**
* Allocate and enable per-core PMU request handling for @p child.
*
* The region containing the core's PMU register block (if any) must be
* allocated via bus_alloc_resource(9) (or bhnd_alloc_resource) before
* calling bhnd_alloc_pmu(), and must not be released until after
* calling bhnd_release_pmu().
*
* @param dev The requesting bhnd device.
*
* @retval 0 success
* @retval non-zero If allocating PMU request state otherwise fails, a
* regular unix error code will be returned.
*/
static inline int
bhnd_alloc_pmu(device_t dev)
{
return (BHND_BUS_ALLOC_PMU(device_get_parent(dev), dev));
}
/**
* Release any per-core PMU resources allocated for @p child. Any outstanding
* PMU requests are are discarded.
*
* @param dev The requesting bhnd device.
*
* @retval 0 success
* @retval non-zero If releasing PMU request state otherwise fails, a
* regular unix error code will be returned, and
* the core state will be left unmodified.
*/
static inline int
bhnd_release_pmu(device_t dev)
{
return (BHND_BUS_RELEASE_PMU(device_get_parent(dev), dev));
}
/**
* Return the transition latency required for @p clock in microseconds, if
* known.
*
* The BHND_CLOCK_HT latency value is suitable for use as the D11 core's
* 'fastpwrup_dly' value.
*
* @note A driver must ask the bhnd bus to allocate PMU request state
* via BHND_BUS_ALLOC_PMU() before querying PMU clocks.
*
* @param dev The requesting bhnd device.
* @param clock The clock to be queried for transition latency.
* @param[out] latency On success, the transition latency of @p clock in
* microseconds.
*
* @retval 0 success
* @retval ENODEV If the transition latency for @p clock is not available.
*/
static inline int
bhnd_get_clock_latency(device_t dev, bhnd_clock clock, u_int *latency)
{
return (BHND_BUS_GET_CLOCK_LATENCY(device_get_parent(dev), dev, clock,
latency));
}
/**
* Return the frequency for @p clock in Hz, if known.
*
* @param dev The requesting bhnd device.
* @param clock The clock to be queried.
* @param[out] freq On success, the frequency of @p clock in Hz.
*
* @note A driver must ask the bhnd bus to allocate PMU request state
* via BHND_BUS_ALLOC_PMU() before querying PMU clocks.
*
* @retval 0 success
* @retval ENODEV If the frequency for @p clock is not available.
*/
static inline int
bhnd_get_clock_freq(device_t dev, bhnd_clock clock, u_int *freq)
{
return (BHND_BUS_GET_CLOCK_FREQ(device_get_parent(dev), dev, clock,
freq));
}
/**
* Request that @p clock (or faster) be routed to @p dev.
*
* @note A driver must ask the bhnd bus to allocate clock request state
* via bhnd_alloc_pmu() before it can request clock resources.
*
* @note Any outstanding PMU clock requests will be discarded upon calling
* BHND_BUS_RESET_HW() or BHND_BUS_SUSPEND_HW().
*
* @param dev The bhnd(4) device to which @p clock should be routed.
* @param clock The requested clock source.
*
* @retval 0 success
* @retval ENODEV If an unsupported clock was requested.
* @retval ENXIO If the PMU has not been initialized or is otherwise unvailable,
*/
static inline int
bhnd_request_clock(device_t dev, bhnd_clock clock)
{
return (BHND_BUS_REQUEST_CLOCK(device_get_parent(dev), dev, clock));
}
/**
* Request that @p clocks be powered on behalf of @p dev.
*
* This will power any clock sources (e.g. XTAL, PLL, etc) required for
* @p clocks and wait until they are ready, discarding any previous
* requests by @p dev.
*
* @note A driver must ask the bhnd bus to allocate clock request state
* via bhnd_alloc_pmu() before it can request clock resources.
*
* @note Any outstanding PMU clock requests will be discarded upon calling
* BHND_BUS_RESET_HW() or BHND_BUS_SUSPEND_HW().
*
* @param dev The requesting bhnd(4) device.
* @param clocks The clock(s) to be enabled.
*
* @retval 0 success
* @retval ENODEV If an unsupported clock was requested.
* @retval ENXIO If the PMU has not been initialized or is otherwise unvailable.
*/
static inline int
bhnd_enable_clocks(device_t dev, uint32_t clocks)
{
return (BHND_BUS_ENABLE_CLOCKS(device_get_parent(dev), dev, clocks));
}
/**
* Power up an external PMU-managed resource assigned to @p dev.
*
* @note A driver must ask the bhnd bus to allocate PMU request state
* via bhnd_alloc_pmu() before it can request PMU resources.
*
* @note Any outstanding PMU resource requests will be released upon calling
* bhnd_reset_hw() or bhnd_suspend_hw().
*
* @param dev The requesting bhnd(4) device.
* @param rsrc The core-specific external resource identifier.
*
* @retval 0 success
* @retval ENODEV If the PMU does not support @p rsrc.
* @retval ENXIO If the PMU has not been initialized or is otherwise unvailable.
*/
static inline int
bhnd_request_ext_rsrc(device_t dev, u_int rsrc)
{
return (BHND_BUS_REQUEST_EXT_RSRC(device_get_parent(dev), dev, rsrc));
}
/**
* Power down an external PMU-managed resource assigned to @p dev.
*
* A driver must ask the bhnd bus to allocate PMU request state
* via bhnd_alloc_pmu() before it can request PMU resources.
*
* @param dev The requesting bhnd(4) device.
* @param rsrc The core-specific external resource identifier.
*
* @retval 0 success
* @retval ENODEV If the PMU does not support @p rsrc.
* @retval ENXIO If the PMU has not been initialized or is otherwise unvailable.
*/
static inline int
bhnd_release_ext_rsrc(device_t dev, u_int rsrc)
{
return (BHND_BUS_RELEASE_EXT_RSRC(device_get_parent(dev), dev, rsrc));
}
/**
* Read @p width bytes at @p offset from the bus-specific agent/config
* space of @p dev.
*
* @param dev The bhnd device for which @p offset should be read.
* @param offset The offset to be read.
* @param[out] value On success, the will be set to the @p width value read
* at @p offset.
* @param width The size of the access. Must be 1, 2 or 4 bytes.
*
* The exact behavior of this method is bus-specific. In the case of
* bcma(4), this method provides access to the first agent port of @p child.
*
* @note Device drivers should only use this API for functionality
* that is not available via another bhnd(4) function.
*
* @retval 0 success
* @retval EINVAL If @p child is not a direct child of @p dev.
* @retval EINVAL If @p width is not one of 1, 2, or 4 bytes.
* @retval ENODEV If accessing agent/config space for @p child is unsupported.
* @retval EFAULT If reading @p width at @p offset exceeds the bounds of
* the mapped agent/config space for @p child.
*/
static inline uint32_t
bhnd_read_config(device_t dev, bus_size_t offset, void *value, u_int width)
{
return (BHND_BUS_READ_CONFIG(device_get_parent(dev), dev, offset,
value, width));
}
/**
* Write @p width bytes at @p offset to the bus-specific agent/config
* space of @p dev.
*
* @param dev The bhnd device for which @p offset should be read.
* @param offset The offset to be written.
* @param value A pointer to the value to be written.
* @param width The size of @p value. Must be 1, 2 or 4 bytes.
*
* The exact behavior of this method is bus-specific. In the case of
* bcma(4), this method provides access to the first agent port of @p child.
*
* @note Device drivers should only use this API for functionality
* that is not available via another bhnd(4) function.
*
* @retval 0 success
* @retval EINVAL If @p child is not a direct child of @p dev.
* @retval EINVAL If @p width is not one of 1, 2, or 4 bytes.
* @retval ENODEV If accessing agent/config space for @p child is unsupported.
* @retval EFAULT If reading @p width at @p offset exceeds the bounds of
* the mapped agent/config space for @p child.
*/
static inline int
bhnd_write_config(device_t dev, bus_size_t offset, const void *value,
u_int width)
{
return (BHND_BUS_WRITE_CONFIG(device_get_parent(dev), dev, offset,
value, width));
}
/**
* Read an NVRAM variable, coerced to the requested @p type.
*
* @param dev A bhnd bus child device.
* @param name The NVRAM variable name.
* @param[out] buf A buffer large enough to hold @p len bytes. On
* success, the requested value will be written to
* this buffer. This argment may be NULL if
* the value is not desired.
* @param[in,out] len The maximum capacity of @p buf. On success,
* will be set to the actual size of the requested
* value.
* @param type The desired data representation to be written
* to @p buf.
*
* @retval 0 success
* @retval ENOENT The requested variable was not found.
* @retval ENODEV No valid NVRAM source could be found.
* @retval ENOMEM If a buffer of @p size is too small to hold the
* requested value.
* @retval EOPNOTSUPP If the value cannot be coerced to @p type.
* @retval ERANGE If value coercion would overflow @p type.
* @retval non-zero If reading @p name otherwise fails, a regular unix
* error code will be returned.
*/
static inline int
bhnd_nvram_getvar(device_t dev, const char *name, void *buf, size_t *len,
bhnd_nvram_type type)
{
return (BHND_BUS_GET_NVRAM_VAR(device_get_parent(dev), dev, name, buf,
len, type));
}
/**
* Allocate a resource from a device's parent bhnd(4) bus.
*
* @param dev The device requesting resource ownership.
* @param type The type of resource to allocate. This may be any type supported
* by the standard bus APIs.
* @param rid The bus-specific handle identifying the resource being allocated.
* @param start The start address of the resource.
* @param end The end address of the resource.
* @param count The size of the resource.
* @param flags The flags for the resource to be allocated. These may be any
* values supported by the standard bus APIs.
*
* To request the resource's default addresses, pass @p start and
* @p end values of @c 0 and @c ~0, respectively, and
* a @p count of @c 1.
*
* @retval NULL The resource could not be allocated.
* @retval resource The allocated resource.
*/
static inline struct bhnd_resource *
bhnd_alloc_resource(device_t dev, int type, int *rid, rman_res_t start,
rman_res_t end, rman_res_t count, u_int flags)
{
return BHND_BUS_ALLOC_RESOURCE(device_get_parent(dev), dev, type, rid,
start, end, count, flags);
}
/**
* Allocate a resource from a device's parent bhnd(4) bus, using the
* resource's default start, end, and count values.
*
* @param dev The device requesting resource ownership.
* @param type The type of resource to allocate. This may be any type supported
* by the standard bus APIs.
* @param rid The bus-specific handle identifying the resource being allocated.
* @param flags The flags for the resource to be allocated. These may be any
* values supported by the standard bus APIs.
*
* @retval NULL The resource could not be allocated.
* @retval resource The allocated resource.
*/
static inline struct bhnd_resource *
bhnd_alloc_resource_any(device_t dev, int type, int *rid, u_int flags)
{
return bhnd_alloc_resource(dev, type, rid, 0, ~0, 1, flags);
}
/**
* Activate a previously allocated bhnd resource.
*
* @param dev The device holding ownership of the allocated resource.
* @param type The type of the resource.
* @param rid The bus-specific handle identifying the resource.
* @param r A pointer to the resource returned by bhnd_alloc_resource or
* BHND_BUS_ALLOC_RESOURCE.
*
* @retval 0 success
* @retval non-zero an error occurred while activating the resource.
*/
static inline int
bhnd_activate_resource(device_t dev, int type, int rid,
struct bhnd_resource *r)
{
return BHND_BUS_ACTIVATE_RESOURCE(device_get_parent(dev), dev, type,
rid, r);
}
/**
* Deactivate a previously activated bhnd resource.
*
* @param dev The device holding ownership of the activated resource.
* @param type The type of the resource.
* @param rid The bus-specific handle identifying the resource.
* @param r A pointer to the resource returned by bhnd_alloc_resource or
* BHND_BUS_ALLOC_RESOURCE.
*
* @retval 0 success
* @retval non-zero an error occurred while activating the resource.
*/
static inline int
bhnd_deactivate_resource(device_t dev, int type, int rid,
struct bhnd_resource *r)
{
return BHND_BUS_DEACTIVATE_RESOURCE(device_get_parent(dev), dev, type,
rid, r);
}
/**
* Free a resource allocated by bhnd_alloc_resource().
*
* @param dev The device holding ownership of the resource.
* @param type The type of the resource.
* @param rid The bus-specific handle identifying the resource.
* @param r A pointer to the resource returned by bhnd_alloc_resource or
* BHND_ALLOC_RESOURCE.
*
* @retval 0 success
* @retval non-zero an error occurred while activating the resource.
*/
static inline int
bhnd_release_resource(device_t dev, int type, int rid,
struct bhnd_resource *r)
{
return BHND_BUS_RELEASE_RESOURCE(device_get_parent(dev), dev, type,
rid, r);
}
/**
* Return true if @p region_num is a valid region on @p port_num of
* @p type attached to @p dev.
*
* @param dev A bhnd bus child device.
* @param type The port type being queried.
* @param port The port number being queried.
* @param region The region number being queried.
*/
static inline bool
bhnd_is_region_valid(device_t dev, bhnd_port_type type, u_int port,
u_int region)
{
return (BHND_BUS_IS_REGION_VALID(device_get_parent(dev), dev, type,
port, region));
}
/**
* Return the number of ports of type @p type attached to @p def.
*
* @param dev A bhnd bus child device.
* @param type The port type being queried.
*/
static inline u_int
bhnd_get_port_count(device_t dev, bhnd_port_type type) {
return (BHND_BUS_GET_PORT_COUNT(device_get_parent(dev), dev, type));
}
/**
* Return the number of memory regions mapped to @p child @p port of
* type @p type.
*
* @param dev A bhnd bus child device.
* @param port The port number being queried.
* @param type The port type being queried.
*/
static inline u_int
bhnd_get_region_count(device_t dev, bhnd_port_type type, u_int port) {
return (BHND_BUS_GET_REGION_COUNT(device_get_parent(dev), dev, type,
port));
}
/**
* Return the resource-ID for a memory region on the given device port.
*
* @param dev A bhnd bus child device.
* @param type The port type.
* @param port The port identifier.
* @param region The identifier of the memory region on @p port.
*
* @retval int The RID for the given @p port and @p region on @p device.
* @retval -1 No such port/region found.
*/
static inline int
bhnd_get_port_rid(device_t dev, bhnd_port_type type, u_int port, u_int region)
{
return BHND_BUS_GET_PORT_RID(device_get_parent(dev), dev, type, port,
region);
}
/**
* Decode a port / region pair on @p dev defined by @p rid.
*
* @param dev A bhnd bus child device.
* @param type The resource type.
* @param rid The resource identifier.
* @param[out] port_type The decoded port type.
* @param[out] port The decoded port identifier.
* @param[out] region The decoded region identifier.
*
* @retval 0 success
* @retval non-zero No matching port/region found.
*/
static inline int
bhnd_decode_port_rid(device_t dev, int type, int rid, bhnd_port_type *port_type,
u_int *port, u_int *region)
{
return BHND_BUS_DECODE_PORT_RID(device_get_parent(dev), dev, type, rid,
port_type, port, region);
}
/**
* Get the address and size of @p region on @p port.
*
* @param dev A bhnd bus child device.
* @param port_type The port type.
* @param port The port identifier.
* @param region The identifier of the memory region on @p port.
* @param[out] region_addr The region's base address.
* @param[out] region_size The region's size.
*
* @retval 0 success
* @retval non-zero No matching port/region found.
*/
static inline int
bhnd_get_region_addr(device_t dev, bhnd_port_type port_type, u_int port,
u_int region, bhnd_addr_t *region_addr, bhnd_size_t *region_size)
{
return BHND_BUS_GET_REGION_ADDR(device_get_parent(dev), dev, port_type,
port, region, region_addr, region_size);
}
/*
* bhnd bus-level equivalents of the bus_(read|write|set|barrier|...)
* macros (compatible with bhnd_resource).
*
* Generated with bhnd/tools/bus_macro.sh
*/
#define bhnd_bus_barrier(r, o, l, f) \
(((r)->direct) ? \
bus_barrier((r)->res, (o), (l), (f)) : \
BHND_BUS_BARRIER( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (l), (f)))
#define bhnd_bus_read_1(r, o) \
(((r)->direct) ? \
bus_read_1((r)->res, (o)) : \
BHND_BUS_READ_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o)))
#define bhnd_bus_read_multi_1(r, o, d, c) \
(((r)->direct) ? \
bus_read_multi_1((r)->res, (o), (d), (c)) : \
BHND_BUS_READ_MULTI_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_read_region_1(r, o, d, c) \
(((r)->direct) ? \
bus_read_region_1((r)->res, (o), (d), (c)) : \
BHND_BUS_READ_REGION_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_write_1(r, o, v) \
(((r)->direct) ? \
bus_write_1((r)->res, (o), (v)) : \
BHND_BUS_WRITE_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (v)))
#define bhnd_bus_write_multi_1(r, o, d, c) \
(((r)->direct) ? \
bus_write_multi_1((r)->res, (o), (d), (c)) : \
BHND_BUS_WRITE_MULTI_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_write_region_1(r, o, d, c) \
(((r)->direct) ? \
bus_write_region_1((r)->res, (o), (d), (c)) : \
BHND_BUS_WRITE_REGION_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_read_stream_1(r, o) \
(((r)->direct) ? \
bus_read_stream_1((r)->res, (o)) : \
BHND_BUS_READ_STREAM_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o)))
#define bhnd_bus_read_multi_stream_1(r, o, d, c) \
(((r)->direct) ? \
bus_read_multi_stream_1((r)->res, (o), (d), (c)) : \
BHND_BUS_READ_MULTI_STREAM_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_read_region_stream_1(r, o, d, c) \
(((r)->direct) ? \
bus_read_region_stream_1((r)->res, (o), (d), (c)) : \
BHND_BUS_READ_REGION_STREAM_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_write_stream_1(r, o, v) \
(((r)->direct) ? \
bus_write_stream_1((r)->res, (o), (v)) : \
BHND_BUS_WRITE_STREAM_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (v)))
#define bhnd_bus_write_multi_stream_1(r, o, d, c) \
(((r)->direct) ? \
bus_write_multi_stream_1((r)->res, (o), (d), (c)) : \
BHND_BUS_WRITE_MULTI_STREAM_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_write_region_stream_1(r, o, d, c) \
(((r)->direct) ? \
bus_write_region_stream_1((r)->res, (o), (d), (c)) : \
BHND_BUS_WRITE_REGION_STREAM_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_set_multi_1(r, o, v, c) \
(((r)->direct) ? \
bus_set_multi_1((r)->res, (o), (v), (c)) : \
BHND_BUS_SET_MULTI_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (v), (c)))
#define bhnd_bus_set_region_1(r, o, v, c) \
(((r)->direct) ? \
bus_set_region_1((r)->res, (o), (v), (c)) : \
BHND_BUS_SET_REGION_1( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (v), (c)))
#define bhnd_bus_read_2(r, o) \
(((r)->direct) ? \
bus_read_2((r)->res, (o)) : \
BHND_BUS_READ_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o)))
#define bhnd_bus_read_multi_2(r, o, d, c) \
(((r)->direct) ? \
bus_read_multi_2((r)->res, (o), (d), (c)) : \
BHND_BUS_READ_MULTI_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_read_region_2(r, o, d, c) \
(((r)->direct) ? \
bus_read_region_2((r)->res, (o), (d), (c)) : \
BHND_BUS_READ_REGION_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_write_2(r, o, v) \
(((r)->direct) ? \
bus_write_2((r)->res, (o), (v)) : \
BHND_BUS_WRITE_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (v)))
#define bhnd_bus_write_multi_2(r, o, d, c) \
(((r)->direct) ? \
bus_write_multi_2((r)->res, (o), (d), (c)) : \
BHND_BUS_WRITE_MULTI_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_write_region_2(r, o, d, c) \
(((r)->direct) ? \
bus_write_region_2((r)->res, (o), (d), (c)) : \
BHND_BUS_WRITE_REGION_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_read_stream_2(r, o) \
(((r)->direct) ? \
bus_read_stream_2((r)->res, (o)) : \
BHND_BUS_READ_STREAM_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o)))
#define bhnd_bus_read_multi_stream_2(r, o, d, c) \
(((r)->direct) ? \
bus_read_multi_stream_2((r)->res, (o), (d), (c)) : \
BHND_BUS_READ_MULTI_STREAM_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_read_region_stream_2(r, o, d, c) \
(((r)->direct) ? \
bus_read_region_stream_2((r)->res, (o), (d), (c)) : \
BHND_BUS_READ_REGION_STREAM_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_write_stream_2(r, o, v) \
(((r)->direct) ? \
bus_write_stream_2((r)->res, (o), (v)) : \
BHND_BUS_WRITE_STREAM_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (v)))
#define bhnd_bus_write_multi_stream_2(r, o, d, c) \
(((r)->direct) ? \
bus_write_multi_stream_2((r)->res, (o), (d), (c)) : \
BHND_BUS_WRITE_MULTI_STREAM_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_write_region_stream_2(r, o, d, c) \
(((r)->direct) ? \
bus_write_region_stream_2((r)->res, (o), (d), (c)) : \
BHND_BUS_WRITE_REGION_STREAM_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_set_multi_2(r, o, v, c) \
(((r)->direct) ? \
bus_set_multi_2((r)->res, (o), (v), (c)) : \
BHND_BUS_SET_MULTI_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (v), (c)))
#define bhnd_bus_set_region_2(r, o, v, c) \
(((r)->direct) ? \
bus_set_region_2((r)->res, (o), (v), (c)) : \
BHND_BUS_SET_REGION_2( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (v), (c)))
#define bhnd_bus_read_4(r, o) \
(((r)->direct) ? \
bus_read_4((r)->res, (o)) : \
BHND_BUS_READ_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o)))
#define bhnd_bus_read_multi_4(r, o, d, c) \
(((r)->direct) ? \
bus_read_multi_4((r)->res, (o), (d), (c)) : \
BHND_BUS_READ_MULTI_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_read_region_4(r, o, d, c) \
(((r)->direct) ? \
bus_read_region_4((r)->res, (o), (d), (c)) : \
BHND_BUS_READ_REGION_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_write_4(r, o, v) \
(((r)->direct) ? \
bus_write_4((r)->res, (o), (v)) : \
BHND_BUS_WRITE_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (v)))
#define bhnd_bus_write_multi_4(r, o, d, c) \
(((r)->direct) ? \
bus_write_multi_4((r)->res, (o), (d), (c)) : \
BHND_BUS_WRITE_MULTI_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_write_region_4(r, o, d, c) \
(((r)->direct) ? \
bus_write_region_4((r)->res, (o), (d), (c)) : \
BHND_BUS_WRITE_REGION_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_read_stream_4(r, o) \
(((r)->direct) ? \
bus_read_stream_4((r)->res, (o)) : \
BHND_BUS_READ_STREAM_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o)))
#define bhnd_bus_read_multi_stream_4(r, o, d, c) \
(((r)->direct) ? \
bus_read_multi_stream_4((r)->res, (o), (d), (c)) : \
BHND_BUS_READ_MULTI_STREAM_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_read_region_stream_4(r, o, d, c) \
(((r)->direct) ? \
bus_read_region_stream_4((r)->res, (o), (d), (c)) : \
BHND_BUS_READ_REGION_STREAM_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_write_stream_4(r, o, v) \
(((r)->direct) ? \
bus_write_stream_4((r)->res, (o), (v)) : \
BHND_BUS_WRITE_STREAM_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (v)))
#define bhnd_bus_write_multi_stream_4(r, o, d, c) \
(((r)->direct) ? \
bus_write_multi_stream_4((r)->res, (o), (d), (c)) : \
BHND_BUS_WRITE_MULTI_STREAM_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_write_region_stream_4(r, o, d, c) \
(((r)->direct) ? \
bus_write_region_stream_4((r)->res, (o), (d), (c)) : \
BHND_BUS_WRITE_REGION_STREAM_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (d), (c)))
#define bhnd_bus_set_multi_4(r, o, v, c) \
(((r)->direct) ? \
bus_set_multi_4((r)->res, (o), (v), (c)) : \
BHND_BUS_SET_MULTI_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (v), (c)))
#define bhnd_bus_set_region_4(r, o, v, c) \
(((r)->direct) ? \
bus_set_region_4((r)->res, (o), (v), (c)) : \
BHND_BUS_SET_REGION_4( \
device_get_parent(rman_get_device((r)->res)), \
rman_get_device((r)->res), (r), (o), (v), (c)))
#endif /* _BHND_BHND_H_ */