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BHND(9) FreeBSD Kernel Developer's Manual BHND(9)
NAME
bhnd - BHND driver programming interface
SYNOPSIS
#include <dev/bhnd/bhnd.h>
Bus Resource Functions
int
bhnd_activate_resource(device_t dev, int type, int rid,
struct bhnd_resource *r);
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);
struct bhnd_resource *
bhnd_alloc_resource_any(device_t dev, int type, int *rid, u_int flags);
int
bhnd_alloc_resources(device_t dev, struct resource_spec *rs,
struct bhnd_resource **res);
int
bhnd_deactivate_resource(device_t dev, int type, int rid,
struct bhnd_resource *r);
int
bhnd_release_resource(device_t dev, int type, int rid,
struct bhnd_resource *r);
void
bhnd_release_resources(device_t dev, const struct resource_spec *rs,
struct bhnd_resource **res);
Bus Space Functions
void
bhnd_bus_barrier(struct bhnd_resource *r, bus_size_t offset,
bus_size_t length, int flags);
uint8_t
bhnd_bus_read_1(struct bhnd_resource *r, bus_size_t offset);
uint16_t
bhnd_bus_read_2(struct bhnd_resource *r, bus_size_t offset);
uint32_t
bhnd_bus_read_4(struct bhnd_resource *r, bus_size_t offset);
void
bhnd_bus_read_multi_1(struct bhnd_resource *r, bus_size_t offset,
uint8_t *datap, bus_size_t count);
void
bhnd_bus_read_multi_2(struct bhnd_resource *r, bus_size_t offset,
uint16_t *datap, bus_size_t count);
void
void
bhnd_bus_read_multi_stream_2(struct bhnd_resource *r, bus_size_t offset,
uint16_t *datap, bus_size_t count);
void
bhnd_bus_read_multi_stream_4(struct bhnd_resource *r, bus_size_t offset,
uint32_t *datap, bus_size_t count);
void
bhnd_bus_read_region_1(struct bhnd_resource *r, bus_size_t offset,
uint8_t *datap, bus_size_t count);
void
bhnd_bus_read_region_2(struct bhnd_resource *r, bus_size_t offset,
uint16_t *datap, bus_size_t count);
void
bhnd_bus_read_region_4(struct bhnd_resource *r, bus_size_t offset,
uint32_t *datap, bus_size_t count);
void
bhnd_bus_read_region_stream_1(struct bhnd_resource *r, bus_size_t offset,
uint8_t *datap, bus_size_t count);
void
bhnd_bus_read_region_stream_2(struct bhnd_resource *r, bus_size_t offset,
uint16_t *datap, bus_size_t count);
void
bhnd_bus_read_region_stream_4(struct bhnd_resource *r, bus_size_t offset,
uint32_t *datap, bus_size_t count);
void
bhnd_bus_read_stream_1(struct bhnd_resource *r, bus_size_t offset);
void
bhnd_bus_read_stream_2(struct bhnd_resource *r, bus_size_t offset);
uint32_t
bhnd_bus_read_stream_4(struct bhnd_resource *r, bus_size_t offset);
void
bhnd_bus_set_multi_1(struct bhnd_resource *r, bus_size_t offset,
uint8_t value, bus_size_t count);
void
bhnd_bus_set_multi_2(struct bhnd_resource *r, bus_size_t offset,
uint16_t value, bus_size_t count);
void
bhnd_bus_set_multi_4(struct bhnd_resource *r, bus_size_t offset,
uint32_t value, bus_size_t count);
void
bhnd_bus_set_region_1(struct bhnd_resource *r, bus_size_t offset,
uint8_t value, bus_size_t count);
void
bhnd_bus_set_region_2(struct bhnd_resource *r, bus_size_t offset,
bhnd_bus_write_1(struct bhnd_resource *r, uint8_t value);
void
bhnd_bus_write_2(struct bhnd_resource *r, uint16_t value);
void
bhnd_bus_write_4(struct bhnd_resource *r, uint32_t value);
void
bhnd_bus_write_multi_1(struct bhnd_resource *r, bus_size_t offset,
uint8_t *datap, bus_size_t count);
void
bhnd_bus_write_multi_2(struct bhnd_resource *r, bus_size_t offset,
uint16_t *datap, bus_size_t count);
void
bhnd_bus_write_multi_4(struct bhnd_resource *r, bus_size_t offset,
uint32_t *datap, bus_size_t count);
void
bhnd_bus_write_multi_stream_1(struct bhnd_resource *r, bus_size_t offset,
uint8_t *datap, bus_size_t count);
void
bhnd_bus_write_multi_stream_2(struct bhnd_resource *r, bus_size_t offset,
uint16_t *datap, bus_size_t count);
void
bhnd_bus_write_multi_stream_4(struct bhnd_resource *r, bus_size_t offset,
uint32_t *datap, bus_size_t count);
void
bhnd_bus_write_region_1(struct bhnd_resource *r, bus_size_t offset,
uint8_t *datap, bus_size_t count);
void
bhnd_bus_write_region_2(struct bhnd_resource *r, bus_size_t offset,
uint16_t *datap, bus_size_t count);
void
bhnd_bus_write_region_4(struct bhnd_resource *r, bus_size_t offset,
uint32_t *datap, bus_size_t count);
void
bhnd_bus_write_region_stream_1(struct bhnd_resource *r,
bus_size_t offset, uint8_t *datap, bus_size_t count);
void
bhnd_bus_write_region_stream_2(struct bhnd_resource *r,
bus_size_t offset, uint16_t *datap, bus_size_t count);
void
bhnd_bus_write_region_stream_4(struct bhnd_resource *r,
bus_size_t offset, uint32_t *datap, bus_size_t count);
void
bhnd_bus_write_stream_1(struct bhnd_resource *r, uint8_t value);
int
bhnd_read_ioctl(device_t dev, uint16_t *ioctl);
int
bhnd_write_ioctl(device_t dev, uint16_t value, uint16_t mask);
int
bhnd_read_iost(device_t dev, uint16_t *iost);
uint32_t
bhnd_read_config(device_t dev, bus_size_t offset, void *value,
u_int width);
int
bhnd_write_config(device_t dev, bus_size_t offset, const void *value,
u_int width);
int
bhnd_reset_hw(device_t dev, uint16_t ioctl, uint16_t reset_ioctl);
int
bhnd_suspend_hw(device_t dev, uint16_t ioctl);
bool
bhnd_is_hw_suspended(device_t dev);
Device Information Functions
bhnd_attach_type
bhnd_get_attach_type(device_t dev);
const struct bhnd_chipid *
bhnd_get_chipid(device_t dev);
bhnd_devclass_t
bhnd_get_class(device_t dev);
u_int
bhnd_get_core_index(device_t dev);
struct bhnd_core_info
bhnd_get_core_info(device_t dev);
int
bhnd_get_core_unit(device_t dev);
uint16_t
bhnd_get_device(device_t dev);
const char *
bhnd_get_device_name(device_t dev);
uint8_t
bhnd_get_hwrev(device_t dev);
uint16_t
bhnd_get_vendor(device_t dev);
const char *
bhnd_get_vendor_name(device_t dev);
const struct bhnd_board_match *desc);
device_t
bhnd_bus_match_child(device_t bus, const struct bhnd_core_match *desc);
bool
bhnd_chip_matches(const struct bhnd_chipid *chip,
const struct bhnd_chip_match *desc);
struct bhnd_core_match
bhnd_core_get_match_desc(const struct bhnd_core_info *core);
bool
bhnd_core_matches(const struct bhnd_core_info *core,
const struct bhnd_core_match *desc);
bool
bhnd_cores_equal(const struct bhnd_core_info *lhs,
const struct bhnd_core_info *rhs);
bool
bhnd_hwrev_matches(uint16_t hwrev, const struct bhnd_hwrev_match *desc);
const struct bhnd_core_info *
bhnd_match_core(const struct bhnd_core_info *cores, u_int num_cores,
const struct bhnd_core_match *desc);
Device Table Functions
const struct bhnd_device *
bhnd_device_lookup(device_t dev, const struct bhnd_device *table,
size_t entry_size);
bool
bhnd_device_matches(device_t dev, const struct bhnd_device_match *desc);
uint32_t
bhnd_device_quirks(device_t dev, const struct bhnd_device *table,
size_t entry_size);
BHND_BOARD_QUIRK(board, flags);
BHND_CHIP_QUIRK(chip, hwrev, flags);
BHND_CORE_QUIRK(hwrev, flags);
BHND_DEVICE(vendor, device, desc, quirks, ...);
BHND_DEVICE_IS_END(struct bhnd_device *d);
BHND_DEVICE_QUIRK_IS_END(struct bhnd_device_quirk *q);
BHND_PKG_QUIRK(chip, pkg, flags);
struct bhnd_device_quirk {
struct bhnd_device_match desc;
uint32_t quirks;
};
struct bhnd_device {
BHND_DF_ANY = 0,
BHND_DF_HOSTB = (1 << 0),
BHND_DF_SOC = (1 << 1),
BHND_DF_ADAPTER = (1 << 2)
};
#define BHND_DEVICE_END { { BHND_MATCH_ANY }, NULL, NULL, 0 }
#define BHND_DEVICE_QUIRK_END { { BHND_MATCH_ANY }, 0 }
DMA Address Translation Functions
int
bhnd_get_dma_translation(device_t dev, u_int width, uint32_t flags,
bus_dma_tag_t *dmat, struct bhnd_dma_translation *translation);
struct bhnd_dma_translation {
bhnd_addr_t base_addr;
bhnd_addr_t addr_mask;
bhnd_addr_t addrext_mask;
uint32_t flags;
};
typedef enum {
BHND_DMA_ADDR_30BIT = 30,
BHND_DMA_ADDR_32BIT = 32,
BHND_DMA_ADDR_64BIT = 64
} bhnd_dma_addrwidth;
enum bhnd_dma_translation_flags {
BHND_DMA_TRANSLATION_PHYSMAP = (1<<0),
BHND_DMA_TRANSLATION_BYTESWAPPED = (1<<1)
};
Interrupt Functions
u_int
bhnd_get_intr_count(device_t dev);
int
bhnd_get_intr_ivec(device_t dev, u_int intr, u_int *ivec);
int
bhnd_map_intr(device_t dev, u_int intr, rman_res_t *irq);
void
bhnd_unmap_intr(device_t dev, rman_res_t irq);
NVRAM Functions
int
bhnd_nvram_getvar(device_t dev, const char *name, void *buf, size_t *len,
bhnd_nvram_type type);
int
bhnd_nvram_getvar_array(device_t dev, const char *name, void *buf,
size_t size, bhnd_nvram_type type);
int
bhnd_nvram_getvar_int(device_t dev, const char *name, void *value,
int width);
bhnd_nvram_getvar_int32(device_t dev, const char *name, int32_t *value);
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_str(device_t dev, const char *name, char *buf,
size_t len, size_t *rlen);
const char *
bhnd_nvram_string_array_next(const char *inp, size_t ilen,
const char *prev, size_t *olen);
typedef enum {
BHND_NVRAM_TYPE_UINT8 = 0,
BHND_NVRAM_TYPE_UINT16 = 1,
BHND_NVRAM_TYPE_UINT32 = 2,
BHND_NVRAM_TYPE_UINT64 = 3,
BHND_NVRAM_TYPE_INT8 = 4,
BHND_NVRAM_TYPE_INT16 = 5,
BHND_NVRAM_TYPE_INT32 = 6,
BHND_NVRAM_TYPE_INT64 = 7,
BHND_NVRAM_TYPE_CHAR = 8,
BHND_NVRAM_TYPE_STRING = 9,
BHND_NVRAM_TYPE_BOOL = 10,
BHND_NVRAM_TYPE_NULL = 11,
BHND_NVRAM_TYPE_DATA = 12
BHND_NVRAM_TYPE_UINT8_ARRAY = 16,
BHND_NVRAM_TYPE_UINT16_ARRAY = 17,
BHND_NVRAM_TYPE_UINT32_ARRAY = 18,
BHND_NVRAM_TYPE_UINT64_ARRAY = 19,
BHND_NVRAM_TYPE_INT8_ARRAY = 20,
BHND_NVRAM_TYPE_INT16_ARRAY = 21,
BHND_NVRAM_TYPE_INT32_ARRAY = 22,
BHND_NVRAM_TYPE_INT64_ARRAY = 23,
BHND_NVRAM_TYPE_CHAR_ARRAY = 24,
BHND_NVRAM_TYPE_STRING_ARRAY = 25,
BHND_NVRAM_TYPE_BOOL_ARRAY = 26
} bhnd_nvram_type;
Port/Region Functions
int
bhnd_decode_port_rid(device_t dev, int type, int rid,
bhnd_port_type *port_type, u_int *port, u_int *region);
u_int
bhnd_get_port_count(device_t dev, bhnd_port_type type);
u_int region, bhnd_addr_t *region_addr, bhnd_size_t *region_size);
u_int
bhnd_get_region_count(device_t dev, bhnd_port_type type, u_int port);
bool
bhnd_is_region_valid(device_t dev, bhnd_port_type type, u_int port,
u_int region);
typedef enum {
BHND_PORT_DEVICE = 0,
BHND_PORT_BRIDGE = 1,
BHND_PORT_AGENT = 2
} bhnd_port_type;
Power Management Functions
int
bhnd_alloc_pmu(device_t dev);
int
bhnd_release_pmu(device_t dev);
int
bhnd_enable_clocks(device_t dev, uint32_t clocks);
int
bhnd_request_clock(device_t dev, bhnd_clock clock);
int
bhnd_get_clock_freq(device_t dev, bhnd_clock clock, u_int *freq);
int
bhnd_get_clock_latency(device_t dev, bhnd_clock clock, u_int *latency);
int
bhnd_request_ext_rsrc(device_t dev, u_int rsrc);
int
bhnd_release_ext_rsrc(device_t dev, u_int rsrc);
typedef enum {
BHND_CLOCK_DYN = (1 << 0),
BHND_CLOCK_ILP = (1 << 1),
BHND_CLOCK_ALP = (1 << 2),
BHND_CLOCK_HT = (1 << 3)
} bhnd_clock;
Service Provider Functions
int
bhnd_register_provider(device_t dev, bhnd_service_t service);
int
bhnd_deregister_provider(device_t dev, bhnd_service_t service);
device_t
bhnd_retain_provider(device_t dev, bhnd_service_t service);
void
bhnd_release_provider(device_t dev, device_t provider,
BHND_SERVICE_GPIO,
BHND_SERVICE_ANY = 1000
} bhnd_service_t;
Utility Functions
bhnd_erom_class_t *
bhnd_driver_get_erom_class(driver_t *driver);
bhnd_devclass_t
bhnd_find_core_class(uint16_t vendor, uint16_t device);
const char *
bhnd_find_core_name(uint16_t vendor, uint16_t device);
bhnd_devclass_t
bhnd_core_class(const struct bhnd_core_info *ci);
const char *
bhnd_core_name(const struct bhnd_core_info *ci);
int
bhnd_format_chip_id(char *buffer, size_t size, uint16_t chip_id);
void
bhnd_set_custom_core_desc(device_t dev, const char *dev_name);
void
bhnd_set_default_core_desc(device_t dev);
const char *
bhnd_vendor_name(uint16_t vendor);
#define BHND_CHIPID_MAX_NAMELEN 32
DESCRIPTION
bhnd provides a unified bus and driver programming interface for the on-
chip interconnects and IP cores found in Broadcom Home Networking
Division (BHND) devices.
The BHND device family consists of MIPS/ARM SoCs (System On a Chip) and
host-connected chipsets based on a common library of Broadcom IP cores,
connected via one of two on-chip backplane (hardware bus) architectures.
Hardware designed prior to 2009 used Broadcom's "SSB" backplane
architecture, based on Sonics Silicon's interconnect IP. Each core on
the Sonics backplane vends a 4 KiB register block, containing both
device-specific CSRs, and SSB-specific per-core device management
(enable/reset/etc) registers.
Subsequent hardware is based on Broadcom's "BCMA" backplane, based on
ARM's AMBA IP. The IP cores used in earlier SSB-based devices were
adapted for compatibility with the new backplane, with additional
"wrapper" cores providing per-core device management functions in place
of the SSB per-core management registers.
When BHND hardware is used as a host-connected peripheral (e.g., in a PCI
Wi-Fi card), the on-chip peripheral controller core is configured to
operate as an endpoint device, bridging access to the SoC hardware:
- Any backplane interrupt vectors routed to the bridge core may
be mapped by the bridge to host interrupts (e.g., PCI
INTx/MSI/MSI-X).
The bhnd driver programming interface -- and bhndb(4) host bridge drivers
-- support the implementation of common drivers for Broadcom IP cores,
whether attached via a BHND host bridge, or via the native SoC backplane.
Bus Resource Functions
The bhnd_resource functions are wrappers for the standard struct resource
bus APIs, providing support for SYS_RES_MEMORY resources that, on
bhndb(4) bridged chipsets, may require on-demand remapping of address
windows prior to accessing bus memory.
These functions are primarily used in the implementation of BHND platform
device drivers that, on host-connected peripherals, must share a small
set of register windows during initial setup and teardown.
BHND peripherals are designed to not require register window remapping
during normal operation, and most drivers may safely use the standard
struct resource APIs directly.
The bhnd_activate_resource() function activates a previously allocated
resource.
The arguments are as follows:
dev The device holding ownership of the allocated resource.
type The type of the resource.
rid The bus-specific handle that identifies the resource being
activated.
r A pointer to the resource returned by bhnd_alloc_resource().
The bhnd_alloc_resource() function allocates a resource from a device's
parent bhnd(4) bus.
The arguments are as follows:
dev The device requesting resource ownership.
type The type of resource to allocate. This may be any type supported
by the standard bus_alloc_resource(9) function.
rid The bus-specific handle identifying the resource being allocated.
start The start address of the resource.
end The end address of the resource.
count The size of the resource.
flags The flags for the resource to be allocated. These may be any
values supported by the standard bus_alloc_resource(9) function.
To request that the bus supply the resource's default start, end, and
The arguments are as follows:
dev The device requesting resource ownership.
type The type of resource to allocate. This may be any type supported
by the standard bus_alloc_resource(9) function.
rid The bus-specific handle identifying the resource being allocated.
flags The flags for the resource to be allocated. These may be any
values supported by the standard bus_alloc_resource(9) function.
The bhnd_alloc_resources() function allocates resources defined in
resource specification from a device's parent bhnd(4) bus.
The arguments are as follows:
dev The device requesting ownership of the resources.
rs A standard bus resource specification. If all requested
resources, are successfully allocated, this will be updated with
the allocated resource identifiers.
res If all requested resources are successfully allocated, this will
be populated with the allocated struct bhnd_resource instances.
The bhnd_deactivate_resource() function deactivates a resource previously
activated by. bhnd_activate_resource(). The arguments are as follows:
dev The device holding ownership of the activated resource.
type The type of the resource.
rid The bus-specific handle identifying the resource.
r A pointer to the resource returned by bhnd_alloc_resource.
The bhnd_release_resource() function frees a resource previously returned
by bhnd_alloc_resource(). The arguments are as follows:
dev The device holding ownership of the resource.
type The type of the resource.
rid The bus-specific handle identifying the resource.
r A pointer to the resource returned by bhnd_alloc_resource.
The bhnd_release_resources() function frees resources previously returned
by bhnd_alloc_resources(). The arguments are as follows:
dev The device that owns the resources.
rs A standard bus resource specification previously initialized by
bhnd_alloc_resources().
res The resources to be released.
The bhnd_resource structure contains the following fields:
The bhnd_bus_space functions wrap their equivalent bus_space(9)
counterparts, and provide support for accessing bus memory via struct
bhnd_resource.
bhnd_bus_barrier()
bhnd_bus_[read|write]_[1|2|4]()
bhnd_bus_[read_multi|write_multi]_[1|2|4]()
bhnd_bus_[read_multi_stream|write_multi_stream]_[1|2|4]()
bhnd_bus_[read_region|write_region]_[1|2|4]()
bhnd_bus_[read_region_stream|write_region_stream]_[1|2|4]()
bhnd_bus_[read_stream|write_stream]_[1|2|4]()
bhnd_bus_[set_multi|set_stream]_[1|2|4]()
Drivers that do not rely on struct bhnd_resource should use the standard
struct resource and bus_space(9) APIs directly.
Device Configuration Functions
The bhnd_read_ioctl() function is used to read the I/O control register
value of device dev, returning the current value in ioctl.
The bhnd_write_ioctl() function is used to modify the I/O control
register of dev. The new value of the register is computed by updating
any bits set in mask to value. The following I/O control flags are
supported:
BHND_IOCTL_BIST Initiate a built-in self-test (BIST). Must
be cleared after BIST results are read via
the IOST (I/O Status) register.
BHND_IOCTL_PME Enable posting of power management events by
the core.
BHND_IOCTL_CLK_FORCE 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 If cleared, the core clock will be disabled.
Should be set during normal operation, and
cleared when the core is held in reset.
BHND_IOCTL_CFLAGS The mask of IOCTL bits reserved for
additional core-specific I/O control flags.
The bhnd_read_iost() function is used to read the I/O status register of
device dev, returning the current value in iost. The following I/O
status flags are supported:
BHND_IOST_BIST_DONE Set upon BIST completion. Will be cleared
when the BHND_IOCTL_BIST flag of the I/O
control register is cleared using
bhnd_write_ioctl().
BHND_IOST_BIST_FAIL Set upon detection of a BIST error; the value
is unspecified if BIST has not completed and
BHND_IOST_BIST_DONE is not also set.
BHND_IOST_CLK Set if the core has required that clocked be
core-specific I/O status flags.
The bhnd_read_config() function is used to read a data item of width
bytes at offset from the backplane-specific agent/config space of the
device dev.
The bhnd_write_config() function is used to write a data item of width
bytes with value at offset from the backplane-specific agent/config space
of the device dev. The requested width must be one of 1, 2, or 4 bytes.
The agent/config space accessible via bhnd_read_config() and
bhnd_write_config() is backplane-specific, and these functions should
only be used for functionality that is not available via another bhnd
function.
The bhnd_suspend_hw() function transitions the device dev to a low power
"RESET" state, writing ioctl to the I/O control flags of dev. The
hardware may be brought out of this state using bhnd_reset_hw().
The bhnd_reset_hw() function first transitions the device dev to a low
power RESET state, writing ioctl_reset to the I/O control flags of dev,
and then brings the device out of RESET, writing ioctl to the device's
I/O control flags.
The bhnd_is_hw_suspended() function returns true if the device dev is
currently held in a RESET state, or is otherwise not clocked. Otherwise,
it returns false.
Any outstanding per-device PMU requests made using bhnd_enable_clocks(),
bhnd_request_clock(), or bhnd_request_ext_rsrc() will be released
automatically upon placing a device into a RESET state.
Device Information Functions
The bhnd_get_attach_type() function returns the attachment type of the
parent bhnd(4) bus of device dev.
The following attachment types are supported:
BHND_ATTACH_ADAPTER The bus is resident on a bridged adapter, such
as a PCI Wi-Fi device.
BHND_ATTACH_NATIVE The bus is resident on the native host, such
as the primary or secondary bus of an embedded
SoC.
The bhnd_get_chipid() function returns chip information from the parent
bhnd(4) bus of device dev. The returned bhnd_chipid struct contains the
following fields:
chip_id The chip identifier.
chip_rev The chip's hardware revision.
chip_pkg The chip's semiconductor package identifier.
Several different physical semiconductor package
variants may exist for a given chip, each of which may
require driver workarounds for hardware errata,
unpopulated components, etc.
devices, this will be the address of the enumeration ROM
(EROM) core.
ncores The number of cores on the chip backplane, or 0 if
unknown.
The following constants are defined for known chip_type values:
BHND_CHIPTYPE_SIBA SSB interconnect.
BHND_CHIPTYPE_BCMA BCMA interconnect.
BHND_CHIPTYPE_BCMA_ALT BCMA-compatible variant found in Broadcom
Northstar ARM SoCs.
BHND_CHIPTYPE_UBUS UBUS interconnect. This BCMA-derived
interconnect is found in Broadcom BCM33xx
DOCSIS SoCs, and BCM63xx xDSL SoCs. UBUS
is not currently supported by bhnd(4).
The following chip_caps flags are supported:
BHND_CAP_BP64 The backplane supports 64-bit addressing.
BHND_CAP_PMU PMU is present.
Additional symbolic constants for known chip_id, chip_pkg, and chip_type
values are defined in <dev/bhnd/bhnd_ids.h>.
The bhnd_get_class() function returns the BHND class of device dev, if
the device's vendor and device identifiers are recognized. Otherwise,
returns BHND_DEVCLASS_OTHER.
One of the following device classes will be returned:
BHND_DEVCLASS_CC ChipCommon I/O Controller
BHND_DEVCLASS_CC_B ChipCommon Auxiliary Controller
BHND_DEVCLASS_PMU PMU Controller
BHND_DEVCLASS_PCI PCI Host/Device Bridge
BHND_DEVCLASS_PCIE PCIe Host/Device Bridge
BHND_DEVCLASS_PCCARD PCMCIA Host/Device Bridge
BHND_DEVCLASS_RAM Internal RAM/SRAM
BHND_DEVCLASS_MEMC Memory Controller
BHND_DEVCLASS_ENET IEEE 802.3 MAC/PHY
BHND_DEVCLASS_ENET_MAC IEEE 802.3 MAC
BHND_DEVCLASS_ENET_PHY IEEE 802.3 PHY
BHND_DEVCLASS_WLAN IEEE 802.11 MAC/PHY/Radio
BHND_DEVCLASS_WLAN_MAC IEEE 802.11 MAC
BHND_DEVCLASS_WLAN_PHY IEEE 802.11 PHY
BHND_DEVCLASS_CPU CPU Core
BHND_DEVCLASS_SOC_ROUTER Interconnect Router
BHND_DEVCLASS_SOC_BRIDGE Interconnect Host Bridge
BHND_DEVCLASS_EROM Device Enumeration ROM
BHND_DEVCLASS_NVRAM NVRAM/Flash Controller
BHND_DEVCLASS_SOFTMODEM Analog/PSTN SoftModem Codec
BHND_DEVCLASS_USB_HOST USB Host Controller
BHND_DEVCLASS_USB_DEV USB Device Controller
BHND_DEVCLASS_USB_DUAL USB Host/Device Controller
BHND_DEVCLASS_OTHER Other / Unknown
BHND_DEVCLASS_INVALID Invalid Class
The bhnd_get_core_info() function returns the core information for device
dev. The returned bhnd_core_info structure contains the following
fields:
Symbolic constants for common vendor and device identifiers are defined
in <dev/bhnd/bhnd_ids.h>. Common vendor identifiers include:
BHND_MFGID_ARM ARM
BHND_MFGID_BCM Broadcom
BHND_MFGID_MIPS MIPS
The bhnd_get_core_index(), bhnd_get_core_unit(), bhnd_get_device(),
bhnd_get_hwrev(), and bhnd_get_vendor() functions are convenience
wrappers for bhnd_get_core_info(), returning, respect the core_idx,
core_unit, device, hwrev, or vendor field from the bhnd_core_info
structure.
The bhnd_get_device_name() function returns a human readable name for
device dev.
The bhnd_get_vendor_name() function returns a human readable name for the
vendor of device dev.
The bhnd_read_board_info() function attempts to read the board
information for device dev. The board information will be returned in
the location pointed to by info on success.
The bhnd_board_info structure contains the following fields:
board_vendor Vendor ID of the board manufacturer (PCI-SIG
assigned).
board_type Board ID.
board_devid Device ID.
board_rev Board revision.
board_srom_rev Board SROM format revision.
board_flags Board flags (1)
board_flags2 Board flags (2)
board_flags3 Board flags (3)
The board_devid field is the Broadcom PCI device ID that most closely
matches the capabilities of the BHND device (if any).
On PCI devices, the board_vendor, board_type, and board_devid fields
default to the PCI Subsystem Vendor ID, PCI Subsystem ID, and PCI device
ID, unless overridden in device NVRAM.
On other devices, including SoCs, the board_vendor, board_type, and
board_devid fields will be populated from device NVRAM.
Symbolic constants for common board flags are defined in
<dev/bhnd/bhnd_ids.h>.
Device Matching Functions
The bhnd device matching functions are used to match against core, chip,
and board-level device attributes. Match requirements are specified
using the struct bhnd_board_match, struct bhnd_chip_match, struct
match descriptor desc. Otherwise, it returns false.
The bhnd_core_matches() function returns true if core matches the core
match descriptor desc. Otherwise, it returns false.
The bhnd_device_matches() function returns true if the device dev matches
the device match descriptor desc. Otherwise, it returns false.
The bhnd_hwrev_matches() function returns true if hwrev matches the hwrev
match descriptor desc. Otherwise, it returns false.
The bhnd_bus_match_child() function returns the first child device of bus
that matches the device match descriptor desc. If no matching child is
found, NULL is returned.
The bhnd_core_get_match_desc() function returns an equality match
descriptor for the core info in core. The returned descriptor will match
only on core attributes identical to those defined by core.
The bhnd_cores_equal() function is a convenience wrapper for
bhnd_core_matches() and bhnd_core_get_match_desc(). This function
returns true if the bhnd_core_info structures lhs and rhs are equal.
Otherwise, it returns false.
The bhnd_match_core() function returns a pointer to the first entry in
the array cores of length num_cores that matches desc. If no matching
core is found, NULL is returned.
A bhnd_board_match match descriptor may be initialized using one or more
of the following macros:
BHND_MATCH_BOARD_VENDOR(vendor) Match on boards with a vendor
equal to vendor.
BHND_MATCH_BOARD_TYPE(type) Match on boards with a type
equal to BHND_BOARD_ ## type
BHND_MATCH_SROMREV(sromrev) Match on boards with a sromrev
that matches BHND_HWREV_ ##
sromrev.
BHND_MATCH_BOARD_REV(hwrev) Match on boards with hardware
revisions that match BHND_ ##
hwrev.
BHND_MATCH_BOARD(vendor, type) A convenience wrapper for
BHND_MATCH_BOARD_VENDOR() and
BHND_MATCH_BOARD_TYPE().
For example:
struct bhnd_board_match board_desc = {
BHND_MATCH_BOARD_VENDOR(BHND_MFGID_BROADCOM),
BHND_MATCH_BOARD_TYPE(BCM94360X52C),
BHND_MATCH_BOARD_REV(HWREV_ANY),
BHND_MATCH_SROMREV(RANGE(0, 10))
};
A bhnd_chip_match match descriptor may be initialized using one or more
hwrev.
BHND_MATCH_CHIP_PKG(pkg) Match on chips with a package
ID equal to BHND_PKGID_ ## pkg
BHND_MATCH_CHIP_TYPE(type) Match on chips with a chip
type equal to BHND_CHIPTYPE_
## type
BHND_MATCH_CHIP_IP(id, pkg) A convenience wrapper for
BHND_MATCH_CHIP_ID() and
BHND_MATCH_CHIP_PKG().
BHND_MATCH_CHIP_IPR(id, pkg, hwrev) A convenience wrapper for
BHND_MATCH_CHIP_ID(),
BHND_MATCH_CHIP_PKG(), and
BHND_MATCH_CHIP_REV().
BHND_MATCH_CHIP_IR(id, hwrev) A convenience wrapper for
BHND_MATCH_CHIP_ID() and
BHND_MATCH_CHIP_REV().
For example:
struct bhnd_chip_match chip_desc = {
BHND_MATCH_CHIP_IP(BCM4329, BCM4329_289PIN),
BHND_MATCH_CHIP_TYPE(SIBA)
};
A bhnd_core_match match descriptor may be initialized using one or more
of the following macros:
BHND_MATCH_CORE_VENDOR(vendor) Match on cores with a vendor ID
equal to vendor
BHND_MATCH_CORE_ID(id) Match on cores with a device ID
equal to id
BHND_MATCH_CORE_REV(hwrev) Match on cores with hardware
revisions that match BHND_ ##
hwrev.
BHND_MATCH_CORE_CLASS(class) Match on cores with a core device
class equal to class
BHND_MATCH_CORE_IDX(idx) Match on cores with a core index
equal to idx
BHND_MATCH_CORE_UNIT(unit) Match on cores with a core unit
equal to unit
BHND_MATCH_CORE(vendor, id) A convenience wrapper for
BHND_MATCH_CORE_VENDOR() and
BHND_MATCH_CORE_ID().
For example:
struct bhnd_core_match core_desc = {
BHND_MATCH_CORE(BHND_MFGID_BROADCOM, BHND_COREID_CC),
For example:
struct bhnd_device_match device_desc = {
BHND_MATCH_CHIP_IP(BCM4329, BCM4329_289PIN),
BHND_MATCH_BOARD_VENDOR(BHND_MFGID_BROADCOM),
BHND_MATCH_BOARD_TYPE(BCM94329AGB),
BHND_MATCH_CORE(BHND_MFGID_BROADCOM, BHND_COREID_CC),
};
A bhnd_hwrev_match match descriptor may be initialized using one of the
following macros:
BHND_HWREV_ANY Matches any hardware revision.
BHND_HWREV_EQ(hwrev) Matches any hardware revision equal
to hwrev
BHND_HWREV_GTE(hwrev) Matches any hardware revision
greater than or equal to hwrev
BHND_HWREV_LTE(hwrev) Matches any hardware revision less
than or equal to hwrev
BHND_HWREV_RANGE(start, end) Matches any hardware revision within
an inclusive range. If
BHND_HWREV_INVALID is specified as
the end value, will match on any
revision equal to or greater than
start
Device Table Functions
The bhnd device table functions are used to query device and quirk
tables.
The bhnd_device_lookup() function returns a pointer to the first entry in
device table table that matches the device dev. The table entry size is
specified by entry_size.
The bhnd_device_quirks() function scan the device table table for all
quirk entries that match the device dev, returning the bitwise OR of all
matching quirk flags. The table entry size is specified by entry_size.
The bhnd_device structure contains the following fields:
core A bhnd_device_match descriptor.
desc A verbose device description suitable for use with
device_set_desc(9), or NULL.
quirks_table The quirks table for this device, or NULL.
device_flags The device flags required when matching this entry.
The following device flags are supported:
BHND_DF_ANY Match on any device.
BHND_DF_HOSTB Match only if the device is the bhndb(4) host
bridge. Implies BHND_DF_ADAPTER.
BHND_DF_SOC Match only if the device is attached to a native
SoC backplane.
BHND_DF_ADAPTER Match only if the device is attached to a bhndb(4)
bridged backplane.
A bhnd_device table entry may be initialized using one of the following
macros:
BHND_DEVICE(vendor, device, desc, quirks, flags)
Match on devices with a vendor ID equal to BHND_MFGID_ ## vendor
BHND_DEVICE_END
Terminate the bhnd_device table.
For example:
struct bhnd_device bhnd_usb11_devices[] = {
BHND_DEVICE(BCM, USB, "Broadcom USB1.1 Controller",
bhnd_usb11_quirks),
BHND_DEVICE_END
};
The bhnd_device_quirk structure contains the following fields:
desc A bhnd_device_match descriptor.
quirks Applicable quirk flags.
A bhnd_device_quirk table entry may be initialized using one of the
following convenience macros:
BHND_BOARD_QUIRK(board, flags) Set quirk flags flags on
devices with a board type
equal to BHND_BOARD_ ## board.
BHND_CHIP_QUIRK(chip, hwrev, flags) Set quirk flags flags on
devices with a chip ID equal
to BHND_CHIPID_BCM ## chip and
chip hardware revision that
matches BHND_ ## hwrev.
BHND_PKG_QUIRK(chip, pkg, flags") Set quirk flags flags on
devices with a chip ID equal
to BHND_CHIPID_BCM ## chip and
chip package equal to BHND_ ##
chip ## pkg.
BHND_CORE_QUIRK(hwrev, flags") Set quirk flags flags on
devices with a core hardware
revision that matches BHND_ ##
hwrev.
For example:
struct bhnd_device_quirk bhnd_usb11_quirks[] = {
BHND_DEVICE(BCM, USB, "Broadcom USB1.1 Controller",
bhnd_usb11_quirks),
BHND_DEVICE_END
};
DMA Address Translation Functions
The bhnd_get_dma_translation() function is used to request a DMA address
translation descriptor suitable for use with a maximum DMA address width
of width, with support for the requested translation flags.
If a suitable DMA address translation descriptor is found, it will be
stored in translation, and a bus DMA tag specifying the DMA translation's
address restrictions will be stored in dmat. The translation and dmat
arguments may be NULL if the translation descriptor or DMA tag are not
desired.
The following DMA translation flags are supported:
BHND_DMA_TRANSLATION_BYTESWAPPED
The translation 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.
The following symbolic constants are defined for common DMA address
widths:
BHND_DMA_ADDR_30BIT 30-bit DMA
BHND_DMA_ADDR_32BIT 32-bit DMA
BHND_DMA_ADDR_64BIT 64-bit DMA
The bhnd_dma_translation structure contains the following fields:
base_addr Host-to-device physical address translation. This may be
added to a host physical address to produce a device DMA
address.
addr_mask Device-addressable address mask. This defines the device
DMA address range, and excludes any bits reserved for
mapping the address within the translation window at
base_addr.
addrext_mask Device-addressable extended address mask. If a the per-
core BHND 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 device-to-host DMA
address translation -- is handled transparently by the DMA
engine.
For example, on PCI Wi-Fi devices, the Wi-Fi core's DMA
engine will (in effect) update the PCI host bridge core's
DMA sbtopcitranslation base address to map the target
address prior to performing a DMA transaction.
flags Translation flags.
Interrupt Functions
The bhnd_get_intr_count() function is used to determine the number of
backplane interrupt lines assigned to the device dev. Interrupt line
identifiers are allocated in monotonically increasing order, starting
with 0.
The bhnd_get_intr_ivec() function is used to determine the backplane
interrupt vector assigned to interrupt line intr on the device dev,
writing the result to ivec. Interrupt vector assignments are backplane-
specific: On BCMA devices, this function returns the OOB bus line
assigned to the interrupt. On SIBA devices, it returns the target OCP
slave flag number assigned to the interrupt.
The bhnd_map_intr() function is used to map interrupt line intr assigned
to device dev to an IRQ number, writing the result to irq. Until
mapped using bhnd_map_intr() by the device dev.
NVRAM Functions
The bhnd_nvram_getvar() function is used to read the value of NVRAM
variable name from the NVRAM provider(s) registered with the parent
bhnd(4) bus of device dev, coerced to the desired data representation
type, written to the buffer specified by buf.
Before the call, the maximum capacity of buf is specified by len. After
a successful call -- or if ENOMEM is returned -- the size of the
available data will be written to len. The size of the desired data
representation can be determined by calling bhnd_nvram_getvar() with a
NULL argument for buf.
The following NVRAM data types are supported:
BHND_NVRAM_TYPE_UINT8 unsigned 8-bit integer
BHND_NVRAM_TYPE_UINT16 unsigned 16-bit integer
BHND_NVRAM_TYPE_UINT32 unsigned 32-bit integer
BHND_NVRAM_TYPE_UINT64 signed 64-bit integer
BHND_NVRAM_TYPE_INT8 signed 8-bit integer
BHND_NVRAM_TYPE_INT16 signed 16-bit integer
BHND_NVRAM_TYPE_INT32 signed 32-bit integer
BHND_NVRAM_TYPE_INT64 signed 64-bit integer
BHND_NVRAM_TYPE_CHAR UTF-8 character
BHND_NVRAM_TYPE_STRING UTF-8 NUL-terminated string
BHND_NVRAM_TYPE_BOOL uint8 boolean value
BHND_NVRAM_TYPE_NULL NULL (empty) value
BHND_NVRAM_TYPE_DATA opaque octet string
BHND_NVRAM_TYPE_UINT8_ARRAY array of uint8 integers
BHND_NVRAM_TYPE_UINT16_ARRAY array of uint16 integers
BHND_NVRAM_TYPE_UINT32_ARRAY array of uint32 integers
BHND_NVRAM_TYPE_UINT64_ARRAY array of uint64 integers
BHND_NVRAM_TYPE_INT8_ARRAY array of int8 integers
BHND_NVRAM_TYPE_INT16_ARRAY array of int16 integers
BHND_NVRAM_TYPE_INT32_ARRAY array of int32 integers
BHND_NVRAM_TYPE_INT64_ARRAY array of int64 integers
BHND_NVRAM_TYPE_CHAR_ARRAY array of UTF-8 characters
BHND_NVRAM_TYPE_STRING_ARRAY array of UTF-8 NUL-terminated strings
BHND_NVRAM_TYPE_BOOL_ARRAY array of uint8 boolean values
The bhnd_nvram_getvar_array(), bhnd_nvram_getvar_int(),
bhnd_nvram_getvar_int8(), bhnd_nvram_getvar_int16(),
bhnd_nvram_getvar_int32(), bhnd_nvram_getvar_uint(),
bhnd_nvram_getvar_uint8(), bhnd_nvram_getvar_uint16(),
bhnd_nvram_getvar_uint32(), and bhnd_nvram_getvar_str() functions are
convenience wrappers for bhnd_nvram_getvar().
The bhnd_nvram_getvar_array() function returns either a value of exactly
size in buf, or returns an error code of ENXIO if the data representation
is not exactly size in length.
The bhnd_nvram_getvar_int() and bhnd_nvram_getvar_uint() functions return
the value of NVRAM variable name, coerced to a signed or unsigned integer
type of width (1, 2, or 4 bytes).
The bhnd_nvram_getvar_int8(), bhnd_nvram_getvar_int16(),
bhnd_nvram_getvar_int32(), bhnd_nvram_getvar_uint(),
bhnd_nvram_getvar_uint8(), bhnd_nvram_getvar_uint16(), and
the inp BHND_NVRAM_TYPE_STRING_ARRAY value. The size of inp, including
any terminating NUL character(s), is specified using the ilen argument.
The prev argument should be either a string pointer previously returned
by bhnd_nvram_string_array_next(), or NULL to begin iteration. If prev
is not NULL, the olen argument must be a pointer to the length previously
returned by bhnd_nvram_string_array_next(). On success, the next string
element's length will be written to this pointer.
Port/Region Functions
Per-device interconnect memory mappings are identified by a combination
of port type, port number, and region number. Port and memory region
identifiers are allocated in monotonically increasing order for each port
type, starting with 0.
The following port types are supported:
BHND_PORT_DEVICE Device memory. The device's control/status
registers are always mapped by the first device
port and region, and will be assigned a
SYS_RES_MEMORY resource ID of 0.
BHND_PORT_BRIDGE Bridge memory.
BHND_PORT_AGENT Interconnect agent/wrapper.
The bhnd_decode_port_rid() function is used to decode the resource ID rid
assigned to device dev, of resource type type, writing the port type to
port_type, port number to port, and region number to region.
The bhnd_get_port_count() function returns the number of ports of type
type assigned to device dev.
The bhnd_get_port_rid() function returns the resource ID for the
SYS_RES_MEMORY resource mapping the port of type and region on device
dev, or -1 if the port or region are invalid, or do not have an assigned
resource ID.
The bhnd_get_region_addr() function is used to determine the base address
and size of the memory region on port of type assigned to dev. The
region's base device address will be written to region_addr, and the
region size to region_size.
The bhnd_get_region_count() function returns the number of memory regions
mapped to port of type on device dev.
The bhnd_is_region_valid() function returns true if region is a valid
region mapped by port of type on device dev.
Power Management Functions
Drivers must ask the parent bhnd(4) bus to allocate device PMU state
using bhnd_alloc_pmu() before calling any another bhnd PMU functions.
The bhnd_alloc_pmu() function is used to allocate per-device PMU state
and enable PMU request handling for device dev. The memory region
containing the device's PMU register block must be allocated using
bus_alloc_resource(9) or bhnd_alloc_resource() before calling
bhnd_alloc_pmu(), and must not be released until after calling
bhnd_release_pmu().
The bhnd_enable_clocks() function is used to request that clocks be
powered up and routed to the backplane on behalf of device dev. This
will power any clock sources required (e.g., XTAL, PLL, etc) and wait
until the requested clocks are stable. If the request succeeds, any
previous clock requests issued by dev will be discarded.
The following clocks are supported, and may be combined using bitwise OR
to request multiple clocks:
BHND_CLOCK_DYN Dynamically select an appropriate clock source
based on all outstanding clock requests by any
device attached to the parent bhnd(4) bus.
BHND_CLOCK_ILP Idle Low-Power (ILP) Clock. May be used if no
register access is required, or long request
latency is acceptable.
BHND_CLOCK_ALP Active Low-Power (ALP) Clock. Supports low-latency
register access and low-rate DMA.
BHND_CLOCK_HT High Throughput (HT) Clock. Supports high bus
throughput and lowest-latency register access.
The bhnd_request_clock() function is used to request that clock (or
faster) be powered up and routed to device dev.
The bhnd_get_clock_freq() function is used to request the current clock
frequency of clock, writing the frequency in Hz to freq.
The bhnd_get_clock_latency() function is used to determine the transition
latency required for clock, writing the latency in microseconds to
latency. The BHND_CLOCK_HT latency value is suitable for use as the D11
Wi-Fi core fastpwrup_dly value.
The bhnd_request_ext_rsrc() function is used to request that the external
PMU-managed resource assigned to device dev, identified by device-
specific identifier rsrc, be powered up.
The bhnd_release_ext_rsrc() function releases any outstanding requests by
device dev for the PMU-managed resource identified by device-specific
identifier rsrc. If an external resource is shared by multiple devices,
it will not be powered down until all device requests are released.
Service Provider Functions
The bhnd_register_provider() function is used to register device dev as a
provider for platform service with the parent bhnd(4) bus.
The following service types are supported:
BHND_SERVICE_CHIPC ChipCommon service. The providing device
must implement the bhnd_chipc interface.
BHND_SERVICE_PWRCTL Legacy PWRCTL service. The providing device
must implement the bhnd_pwrctl interface.
BHND_SERVICE_PMU PMU service. The providing device must
implement the bhnd_pmu interface.
with bhnd_deregister_provider() to remove all
service provider registrations for a device.
The bhnd_deregister_provider() function attempts to remove provider
registration for the device dev and service. If a service argument of
BHND_SERVICE_ANY is specified, this function will attempt to remove all
service provider registrations for dev.
The bhnd_retain_provider() function retains and returns a reference to
the provider registered for service with the parent bhnd(4) bus of devce
dev, if available. On success, the caller is responsible for releasing
this provider reference using bhnd_release_provider(). The service
provider is guaranteed to remain available until the provider reference
is released.
The bhnd_release_provider() function releases a reference to a provider
for service, previously retained by device dev using
bhnd_retain_provider().
Utility Functions
The bhnd_driver_get_erom_class() function returns the bhnd_erom(9) class
for the device enumeration table format used by bhnd(4) bus driver
instance driver. If the driver does not support bhnd_erom(9) device
enumeration, NULL is returned.
The bhnd_find_core_class() function looks up the BHND class, if known,
for the BHND vendor ID vendor and device ID device.
The bhnd_find_core_name() function is used to fetch the human-readable
name, if known, for the BHND core with a vendor ID of vendor and device
ID of device.
The bhnd_core_class() and bhnd_core_name() functions are convenience
wrappers for bhnd_find_core_class() and bhnd_find_core_name(), that use
the vendor and device fields of the core info structure ci.
The bhnd_format_chip_id() function writes a NUL-terminated human-readable
representation of the BHND chip_id value to the specified buffer with a
capacity of size. No more than size-1 characters will be written, with
the size'th character set to '\0'. A buffer size of
BHND_CHIPID_MAX_NAMELEN is sufficient for any string representation
produced using bhnd_format_chip_id().
The bhnd_set_custom_core_desc() function uses the bhnd(4) device
identification of dev, overriding the core name with the specified
dev_name, to populate the device's verbose description using
device_set_desc(9).
The bhnd_set_default_core_desc() function uses the bhnd(4) device
identification of dev to populate the device's verbose description using
device_set_desc(9).
The bhnd_vendor_name() function returns the human-readable name for the
JEP-106, ARM 4-bit continuation encoded manufacturer ID vendor, if known.
RETURN VALUES
Bus Resource Functions
The bhnd_activate_resource(), bhnd_alloc_resources(),
bhnd_deactivate_resource(), and bhnd_release_resource() functions return
success, or one of the following values on error:
[EINVAL] The device is not a direct child of the bhnd(4) bus
[EINVAL] The requested width is not one of 1, 2, or 4 bytes.
[ENODEV] Accessing agent/config space for the device is
unsupported.
[EFAULT] The requested offset or width exceeds the bounds of
the mapped agent/config space.
The bhnd_read_ioctl(), bhnd_write_ioctl(), bhnd_read_iost(),
bhnd_reset_hw(), and bhnd_suspend_hw() functions return 0 on success,
otherwise an appropriate error code is returned.
Device Information Functions
The bhnd_read_board_info() function returns 0 on success, otherwise an
appropriate error code is returned.
DMA Address Translation Functions
The bhnd_get_dma_translation() function returns 0 on success, or one of
the following values on error:
[ENODEV] DMA is not supported.
[ENOENT] No DMA translation matching the requested address
width and translation flags is available.
If fetching the requested DMA address translation otherwise fails, an
appropriate error code will be returned.
Interrupt Functions
The bhnd_get_intr_ivec() function returns 0 on success, or ENXIO if the
requested interrupt line exceeds the number of interrupt lines assigned
to the device.
The bhnd_map_intr() function returns 0 on success, otherwise an
appropriate error code is returned.
NVRAM Functions
The bhnd_nvram_getvar(), bhnd_nvram_getvar_array(),
bhnd_nvram_getvar_int(), bhnd_nvram_getvar_int8(),
bhnd_nvram_getvar_int16(), bhnd_nvram_getvar_int32(),
bhnd_nvram_getvar_uint(), bhnd_nvram_getvar_uint8(),
bhnd_nvram_getvar_uint16(), and bhnd_nvram_getvar_uint32() functions
return 0 on success, or one of the following values on error:
[ENODEV] If an NVRAM provider has not been registered with the
bus.
[ENOENT] The requested variable was not found.
[ENOMEM] If the buffer of size is too small to hold the
requested value.
[EOPNOTSUPP] If the value's native type is incompatible with and
cannot be coerced to the requested type.
The bhnd_decode_port_rid() function returns 0 on success, or an
appropriate error code if no matching port/region is found.
The bhnd_get_port_rid() function returns the resource ID for the
requested port and region, or -1 if the port or region are invalid, or do
not have an assigned resource ID.
The bhnd_get_region_addr() function returns 0 on success, or an
appropriate error code if no matching port/region is found.
PMU Functions
The bhnd_alloc_pmu() function returns 0 on success, otherwise an
appropriate error code is returned.
The bhnd_release_pmu() function returns 0 on success, otherwise an
appropriate error code is returned, and the core state will be left
unmodified.
The bhnd_enable_clocks() and bhnd_request_clock() functions return 0 on
success, or one of the following values on error:
[ENODEV] An unsupported clock was requested.
[ENXIO] No PMU or PWRCTL provider has been registered with the
bus.
The bhnd_get_clock_freq() function returns 0 on success, or ENODEV if the
frequency for the specified clock is not available.
The bhnd_get_clock_latency() function returns 0 on success, or ENODEV if
the transition latency for the specified clock is not available.
The bhnd_request_ext_rsrc() and bhnd_release_ext_rsrc() functions return
0 on success, otherwise an appropriate error code is returned.
Service Provider Functions
The bhnd_register_provider() function returns 0 on success, EEXIST if an
entry for service already exists, or an appropriate error code if service
registration otherwise fails.
The bhnd_deregister_provider() function returns 0 on success, or EBUSY if
active references to the service provider exist.
The bhnd_retain_provider() function returns a pointer to device_t on
success, a null pointer if the requested provider is not registered.
Utility Functions
The bhnd_format_chip_id() function returns the total number of bytes
written on success, or a negative integer on failure.
SEE ALSO
bhnd(4), bhnd_erom(9)
AUTHORS
The bhnd driver programming interface and this manual page were written
by Landon Fuller <landonf@FreeBSD.org>.
FreeBSD 14.0-RELEASE-p11 March 26, 2018 FreeBSD 14.0-RELEASE-p11