#- # Copyright (c) 2015-2016 Landon Fuller # 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. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in the # documentation and/or other materials provided with the distribution. # # THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR # IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES # OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. # IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, # INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES # (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR # SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER # CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, # OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE # USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. # # $FreeBSD$ #include #include #include #include #include INTERFACE bhnd_bus; # # bhnd(4) bus interface # HEADER { /* forward declarations */ struct bhnd_board_info; struct bhnd_core_info; struct bhnd_chipid; struct bhnd_dma_translation; struct bhnd_devinfo; struct bhnd_resource; } CODE { #include #include static bhnd_erom_class_t * bhnd_bus_null_get_erom_class(driver_t *driver) { return (NULL); } static struct bhnd_chipid * bhnd_bus_null_get_chipid(device_t dev, device_t child) { panic("bhnd_bus_get_chipid unimplemented"); } static int bhnd_bus_null_read_ioctl(device_t dev, device_t child, uint16_t *ioctl) { panic("bhnd_bus_read_ioctl unimplemented"); } static int bhnd_bus_null_write_ioctl(device_t dev, device_t child, uint16_t value, uint16_t mask) { panic("bhnd_bus_write_ioctl unimplemented"); } static int bhnd_bus_null_read_iost(device_t dev, device_t child, uint16_t *iost) { panic("bhnd_bus_read_iost unimplemented"); } static bool bhnd_bus_null_is_hw_suspended(device_t dev, device_t child) { panic("bhnd_bus_is_hw_suspended unimplemented"); } static int bhnd_bus_null_reset_hw(device_t dev, device_t child, uint16_t ioctl, uint16_t reset_ioctl) { panic("bhnd_bus_reset_hw unimplemented"); } static int bhnd_bus_null_suspend_hw(device_t dev, device_t child) { panic("bhnd_bus_suspend_hw unimplemented"); } static bhnd_attach_type bhnd_bus_null_get_attach_type(device_t dev, device_t child) { panic("bhnd_bus_get_attach_type unimplemented"); } static int bhnd_bus_null_read_board_info(device_t dev, device_t child, struct bhnd_board_info *info) { panic("bhnd_bus_read_boardinfo unimplemented"); } static void bhnd_bus_null_child_added(device_t dev, device_t child) { } static int bhnd_bus_null_alloc_pmu(device_t dev, device_t child) { panic("bhnd_bus_alloc_pmu unimplemented"); } static int bhnd_bus_null_release_pmu(device_t dev, device_t child) { panic("bhnd_bus_release_pmu unimplemented"); } static int bhnd_bus_null_get_clock_latency(device_t dev, device_t child, bhnd_clock clock, u_int *latency) { panic("bhnd_pmu_get_clock_latency unimplemented"); } static int bhnd_bus_null_get_clock_freq(device_t dev, device_t child, bhnd_clock clock, u_int *freq) { panic("bhnd_pmu_get_clock_freq unimplemented"); } static int bhnd_bus_null_request_clock(device_t dev, device_t child, bhnd_clock clock) { panic("bhnd_bus_request_clock unimplemented"); } static int bhnd_bus_null_enable_clocks(device_t dev, device_t child, uint32_t clocks) { panic("bhnd_bus_enable_clocks unimplemented"); } static int bhnd_bus_null_request_ext_rsrc(device_t dev, device_t child, u_int rsrc) { panic("bhnd_bus_request_ext_rsrc unimplemented"); } static int bhnd_bus_null_release_ext_rsrc(device_t dev, device_t child, u_int rsrc) { panic("bhnd_bus_release_ext_rsrc unimplemented"); } static int bhnd_bus_null_read_config(device_t dev, device_t child, bus_size_t offset, void *value, u_int width) { panic("bhnd_bus_null_read_config unimplemented"); } static void bhnd_bus_null_write_config(device_t dev, device_t child, bus_size_t offset, void *value, u_int width) { panic("bhnd_bus_null_write_config unimplemented"); } static device_t bhnd_bus_null_find_hostb_device(device_t dev) { return (NULL); } static struct bhnd_service_registry * bhnd_bus_null_get_service_registry(device_t dev) { panic("bhnd_bus_get_service_registry unimplemented"); } static bool bhnd_bus_null_is_hw_disabled(device_t dev, device_t child) { panic("bhnd_bus_is_hw_disabled unimplemented"); } static int bhnd_bus_null_get_probe_order(device_t dev, device_t child) { panic("bhnd_bus_get_probe_order unimplemented"); } static uintptr_t bhnd_bus_null_get_intr_domain(device_t dev, device_t child, bool self) { /* Unsupported */ return (0); } static u_int bhnd_bus_null_get_intr_count(device_t dev, device_t child) { return (0); } static int bhnd_bus_null_get_intr_ivec(device_t dev, device_t child, u_int intr, u_int *ivec) { panic("bhnd_bus_get_intr_ivec unimplemented"); } static int bhnd_bus_null_map_intr(device_t dev, device_t child, u_int intr, rman_res_t *irq) { panic("bhnd_bus_map_intr unimplemented"); } static int bhnd_bus_null_unmap_intr(device_t dev, device_t child, rman_res_t irq) { panic("bhnd_bus_unmap_intr unimplemented"); } static int bhnd_bus_null_get_port_rid(device_t dev, device_t child, bhnd_port_type port_type, u_int port, u_int region) { return (-1); } static int bhnd_bus_null_decode_port_rid(device_t dev, device_t child, int type, int rid, bhnd_port_type *port_type, u_int *port, u_int *region) { return (ENOENT); } static int bhnd_bus_null_get_region_addr(device_t dev, device_t child, bhnd_port_type type, u_int port, u_int region, bhnd_addr_t *addr, bhnd_size_t *size) { return (ENOENT); } static int bhnd_bus_null_get_nvram_var(device_t dev, device_t child, const char *name, void *buf, size_t *size, bhnd_nvram_type type) { return (ENODEV); } } /** * Return the bhnd(4) bus driver's device enumeration parser class. * * @param driver The bhnd bus driver instance. */ STATICMETHOD bhnd_erom_class_t * get_erom_class { driver_t *driver; } DEFAULT bhnd_bus_null_get_erom_class; /** * Register a shared bus @p provider for a given @p service. * * @param dev The parent of @p child. * @param child The requesting child device. * @param provider The service provider to register. * @param service The service for which @p provider will be registered. * * @retval 0 success * @retval EEXIST if an entry for @p service already exists. * @retval non-zero if registering @p provider otherwise fails, a regular * unix error code will be returned. */ METHOD int register_provider { device_t dev; device_t child; device_t provider; bhnd_service_t service; } DEFAULT bhnd_bus_generic_register_provider; /** * Attempt to remove the @p service provider registration for @p provider. * * @param dev The parent of @p child. * @param child The requesting child device. * @param provider The service provider to be deregistered. * @param service The service for which @p provider will be deregistered, * or BHND_SERVICE_INVALID to remove all service * registrations for @p provider. * * @retval 0 success * @retval EBUSY if active references to @p provider exist; @see * BHND_BUS_RETAIN_PROVIDER() and * BHND_BUS_RELEASE_PROVIDER(). */ METHOD int deregister_provider { device_t dev; device_t child; device_t provider; bhnd_service_t service; } DEFAULT bhnd_bus_generic_deregister_provider; /** * Retain and return a reference to the registered @p service provider, if any. * * @param dev The parent of @p child. * @param child The requesting child 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. */ METHOD device_t retain_provider { device_t dev; device_t child; bhnd_service_t service; } DEFAULT bhnd_bus_generic_retain_provider; /** * Release a reference to a service provider previously returned by * BHND_BUS_RETAIN_PROVIDER(). * * @param dev The parent of @p child. * @param child The requesting child device. * @param provider The provider to be released. * @param service The service for which @p provider was previously * retained. */ METHOD void release_provider { device_t dev; device_t child; device_t provider; bhnd_service_t service; } DEFAULT bhnd_bus_generic_release_provider; /** * Return a struct bhnd_service_registry. * * Used by drivers which use bhnd_bus_generic_sr_register_provider() etc. * to implement service provider registration. It should return a service * registry that may be used to resolve provider requests from @p child. * * @param dev The parent of @p child. * @param child The requesting child device. */ METHOD struct bhnd_service_registry * get_service_registry { device_t dev; device_t child; } DEFAULT bhnd_bus_null_get_service_registry; /** * Return the active host bridge core for the bhnd bus, if any. * * @param dev The bhnd bus device. * * @retval device_t if a hostb device exists * @retval NULL if no hostb device is found. */ METHOD device_t find_hostb_device { device_t dev; } DEFAULT bhnd_bus_null_find_hostb_device; /** * Return true if the hardware components required by @p child are 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 child should * be disabled. * * @param dev The device whose child is being examined. * @param child The child device. */ METHOD bool is_hw_disabled { device_t dev; device_t child; } DEFAULT bhnd_bus_null_is_hw_disabled; /** * Return the probe (and attach) order for @p child. * * All devices on the bhnd(4) bus will be probed, attached, or resumed in * ascending order; they will be suspended, shutdown, and detached in * descending order. * * The following device methods will be dispatched in ascending probe order * by the bus: * * - DEVICE_PROBE() * - DEVICE_ATTACH() * - DEVICE_RESUME() * * The following device methods will be dispatched in descending probe order * by the bus: * * - DEVICE_SHUTDOWN() * - DEVICE_DETACH() * - DEVICE_SUSPEND() * * @param dev The device whose child is being examined. * @param child The child device. * * Refer to BHND_PROBE_* and BHND_PROBE_ORDER_* for the standard set of * priorities. */ METHOD int get_probe_order { device_t dev; device_t child; } DEFAULT bhnd_bus_null_get_probe_order; /** * Return the BHND chip identification for the parent bus. * * @param dev The device whose child is being examined. * @param child The child device. */ METHOD const struct bhnd_chipid * get_chipid { device_t dev; device_t child; } DEFAULT bhnd_bus_null_get_chipid; /** * Return the BHND attachment type of the parent bus. * * @param dev The device whose child is being examined. * @param child The 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. */ METHOD bhnd_attach_type get_attach_type { device_t dev; device_t child; } DEFAULT bhnd_bus_null_get_attach_type; /** * 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 The parent of @p child. * @param child The bhnd device requesting the DMA address translation. * @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. */ METHOD int 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; } DEFAULT bhnd_bus_generic_get_dma_translation; /** * Attempt to read the BHND board identification from the parent 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 parent of @p child. * @param child 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. */ METHOD int read_board_info { device_t dev; device_t child; struct bhnd_board_info *info; } DEFAULT bhnd_bus_null_read_board_info; /** * Notify a bhnd bus that a child was added. * * This method must be called by concrete bhnd(4) driver impementations * after @p child's bus state is fully initialized. * * @param dev The bhnd bus whose child is being added. * @param child The child added to @p dev. */ METHOD void child_added { device_t dev; device_t child; } DEFAULT bhnd_bus_null_child_added; /** * Read the current value of @p child's I/O control register. * * @param dev The bhnd bus parent of @p child. * @param child The bhnd device for which the I/O control register should be * read. * @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. */ METHOD int read_ioctl { device_t dev; device_t child; uint16_t *ioctl; } DEFAULT bhnd_bus_null_read_ioctl; /** * Write @p value with @p mask to @p child's I/O control register. * * @param dev The bhnd bus parent of @p child. * @param child The bhnd device for which the I/O control register should * be updated. * @param value The value to be written (see also 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. */ METHOD int write_ioctl { device_t dev; device_t child; uint16_t value; uint16_t mask; } DEFAULT bhnd_bus_null_write_ioctl; /** * Read the current value of @p child's I/O status register. * * @param dev The bhnd bus parent of @p child. * @param child The bhnd device for which the I/O status register should be * read. * @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. */ METHOD int read_iost { device_t dev; device_t child; uint16_t *iost; } DEFAULT bhnd_bus_null_read_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 bhnd bus parent of @p child. * @param child The device to query. * * @retval true If @p child is held in RESET or not clocked (BHND_IOCTL_CLK_EN), * or an error occured determining @p child's hardware state. * @retval false If @p child is clocked and is not held in RESET. */ METHOD bool is_hw_suspended { device_t dev; device_t child; } DEFAULT bhnd_bus_null_is_hw_suspended; /** * 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 bhnd bus parent of @p child. * @param child 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 */ METHOD int reset_hw { device_t dev; device_t child; uint16_t ioctl; uint16_t reset_ioctl; } DEFAULT bhnd_bus_null_reset_hw; /** * 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 bhnd bus parent of @p child. * @param dev The device to be suspended. * @param ioctl Device-specific I/O control flags to be set when placing * the core into its RESET state (see BHND_IOCTL_*). * * @retval 0 success * @retval non-zero error */ METHOD int suspend_hw { device_t dev; device_t child; uint16_t ioctl; } DEFAULT bhnd_bus_null_suspend_hw; /** * Allocate per-core PMU resources and enable 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_BUS_ALLOC_PMU(), and must not be released until after * calling BHND_BUS_RELEASE_PMU(). * * @param dev The parent of @p child. * @param child The requesting bhnd device. * * @retval 0 success * @retval non-zero if enabling per-core PMU request handling fails, a * regular unix error code will be returned. */ METHOD int alloc_pmu { device_t dev; device_t child; } DEFAULT bhnd_bus_null_alloc_pmu; /** * Release per-core PMU resources allocated for @p child. Any * outstanding PMU requests are discarded. * * @param dev The parent of @p child. * @param child The requesting bhnd device. */ METHOD int release_pmu { device_t dev; device_t child; } DEFAULT bhnd_bus_null_release_pmu; /** * 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 parent of @p child. * @param child 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. */ METHOD int get_clock_latency { device_t dev; device_t child; bhnd_clock clock; u_int *latency; } DEFAULT bhnd_bus_null_get_clock_latency; /** * Return the frequency for @p clock in Hz, if known. * * @param dev The parent of @p child. * @param child 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. */ METHOD int get_clock_freq { device_t dev; device_t child; bhnd_clock clock; u_int *freq; } DEFAULT bhnd_bus_null_get_clock_freq; /** * Request that @p clock (or faster) be routed to @p child. * * @note A driver must ask the bhnd bus to allocate PMU request state * via BHND_BUS_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 parent of @p child. * @param child The bhnd device requesting @p clock. * @param clock The requested clock source. * * @retval 0 success * @retval ENODEV If an unsupported clock was requested. * @retval ETIMEDOUT If the clock request succeeds, but the clock is not * detected as ready within the PMU's maximum transition * delay. This should not occur in normal operation. */ METHOD int request_clock { device_t dev; device_t child; bhnd_clock clock; } DEFAULT bhnd_bus_null_request_clock; /** * Request that @p clocks be powered on behalf of @p child. * * This will power on clock sources (e.g. XTAL, PLL, etc) required for * @p clocks and wait until they are ready, discarding any previous * requests by @p child. * * @note A driver must ask the bhnd bus to allocate PMU request state * via BHND_BUS_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 parent of @p child. * @param child The bhnd device requesting @p clock. * @param clock The requested clock source. * * @retval 0 success * @retval ENODEV If an unsupported clock was requested. * @retval ETIMEDOUT If the clock request succeeds, but the clock is not * detected as ready within the PMU's maximum transition * delay. This should not occur in normal operation. */ METHOD int enable_clocks { device_t dev; device_t child; uint32_t clocks; } DEFAULT bhnd_bus_null_enable_clocks; /** * Power up an external PMU-managed resource assigned to @p child. * * @note A driver must ask the bhnd bus to allocate PMU request state * via BHND_BUS_ALLOC_PMU() before it can request PMU resources. * * @note Any outstanding PMU resource requests will be released upon calling * BHND_BUS_RESET_HW() or BHND_BUS_SUSPEND_HW(). * * @param dev The parent of @p child. * @param child The bhnd device requesting @p rsrc. * @param rsrc The core-specific external resource identifier. * * @retval 0 success * @retval ENODEV If the PMU does not support @p rsrc. * @retval ETIMEDOUT If the clock request succeeds, but the clock is not * detected as ready within the PMU's maximum transition * delay. This should not occur in normal operation. */ METHOD int request_ext_rsrc { device_t dev; device_t child; u_int rsrc; } DEFAULT bhnd_bus_null_request_ext_rsrc; /** * Power down an external PMU-managed resource assigned to @p child. * * @note A driver must ask the bhnd bus to allocate PMU request state * via BHND_BUS_ALLOC_PMU() before it can request PMU resources. * * @param dev The parent of @p child. * @param child The bhnd device requesting @p rsrc. * @param rsrc The core-specific external resource number. * * @retval 0 success * @retval ENODEV If the PMU does not support @p rsrc. * @retval ETIMEDOUT If the clock request succeeds, but the clock is not * detected as ready within the PMU's maximum transition * delay. This should not occur in normal operation. */ METHOD int release_ext_rsrc { device_t dev; device_t child; u_int rsrc; } DEFAULT bhnd_bus_null_release_ext_rsrc; /** * Read @p width bytes at @p offset from the bus-specific agent/config * space of @p child. * * @param dev The parent of @p child. * @param child The bhnd device for which @p offset should be read. * @param offset The offset to be read. * @param[out] value On success, the bytes 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. On a bcma(4) bus, this * method provides access to the first agent port of @p child; on a siba(4) bus, * this method provides access to the core's CFG0 register block. * * @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. */ METHOD int read_config { device_t dev; device_t child; bus_size_t offset; void *value; u_int width; } DEFAULT bhnd_bus_null_read_config; /** * Read @p width bytes at @p offset from the bus-specific agent/config * space of @p child. * * @param dev The parent of @p child. * @param child 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. */ METHOD int write_config { device_t dev; device_t child; bus_size_t offset; const void *value; u_int width; } DEFAULT bhnd_bus_null_write_config; /** * Allocate a bhnd resource. * * This method's semantics are functionally identical to the bus API of the same * name; refer to BUS_ALLOC_RESOURCE for complete documentation. */ METHOD struct bhnd_resource * 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; } DEFAULT bhnd_bus_generic_alloc_resource; /** * Release a bhnd resource. * * This method's semantics are functionally identical to the bus API of the same * name; refer to BUS_RELEASE_RESOURCE for complete documentation. */ METHOD int release_resource { device_t dev; device_t child; int type; int rid; struct bhnd_resource *res; } DEFAULT bhnd_bus_generic_release_resource; /** * Activate a bhnd resource. * * This method's semantics are functionally identical to the bus API of the same * name; refer to BUS_ACTIVATE_RESOURCE for complete documentation. */ METHOD int activate_resource { device_t dev; device_t child; int type; int rid; struct bhnd_resource *r; } DEFAULT bhnd_bus_generic_activate_resource; /** * Deactivate a bhnd resource. * * This method's semantics are functionally identical to the bus API of the same * name; refer to BUS_DEACTIVATE_RESOURCE for complete documentation. */ METHOD int deactivate_resource { device_t dev; device_t child; int type; int rid; struct bhnd_resource *r; } DEFAULT bhnd_bus_generic_deactivate_resource; /** * Return the interrupt domain. * * This globally unique value may be used as the interrupt controller 'xref' * on targets that support INTRNG. * * @param dev The device whose child is being examined. * @param child The child device. * @param self If true, return @p child's interrupt domain, rather than the * domain in which @p child resides. * * On Non-OFW targets, this should either return: * - The pointer address of a device that can uniquely identify @p child's * interrupt domain (e.g., the bhnd bus' device_t address), or * - 0 if unsupported by the bus. * * On OFW (including FDT) targets, this should return the @p child's iparent * property's xref if @p self is false, the child's own node xref value if * @p self is true, or 0 if no interrupt parent is found. */ METHOD uintptr_t get_intr_domain { device_t dev; device_t child; bool self; } DEFAULT bhnd_bus_null_get_intr_domain; /** * Return the number of interrupt lines assigned to @p child. * * @param dev The bhnd device whose child is being examined. * @param child The child device. */ METHOD u_int get_intr_count { device_t dev; device_t child; } DEFAULT bhnd_bus_null_get_intr_count; /** * Get the backplane interrupt vector of the @p intr line attached to @p child. * * @param dev The device whose child is being examined. * @param child The 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. */ METHOD int get_intr_ivec { device_t dev; device_t child; u_int intr; u_int *ivec; } DEFAULT bhnd_bus_null_get_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_BUS_UNMAP_INTR(). * * @param dev The bhnd bus device. * @param child The requesting child 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. */ METHOD int map_intr { device_t dev; device_t child; u_int intr; rman_res_t *irq; } DEFAULT bhnd_bus_null_map_intr; /** * Unmap an bus interrupt previously mapped via BHND_BUS_MAP_INTR(). * * @param dev The bhnd bus device. * @param child The requesting child device. * @param intr The interrupt number being unmapped. This is equivalent to the * bus resource ID for the interrupt. */ METHOD void unmap_intr { device_t dev; device_t child; rman_res_t irq; } DEFAULT bhnd_bus_null_unmap_intr; /** * Return true if @p region_num is a valid region on @p port_num of * @p type attached to @p child. * * @param dev The device whose child is being examined. * @param child The child device. * @param type The port type being queried. * @param port_num The port number being queried. * @param region_num The region number being queried. */ METHOD bool is_region_valid { device_t dev; device_t child; bhnd_port_type type; u_int port_num; u_int region_num; }; /** * Return the number of ports of type @p type attached to @p child. * * @param dev The device whose child is being examined. * @param child The child device. * @param type The port type being queried. */ METHOD u_int get_port_count { device_t dev; device_t child; bhnd_port_type type; }; /** * Return the number of memory regions mapped to @p child @p port of * type @p type. * * @param dev The device whose child is being examined. * @param child The child device. * @param port The port number being queried. * @param type The port type being queried. */ METHOD u_int get_region_count { device_t dev; device_t child; bhnd_port_type type; u_int port; }; /** * Return the SYS_RES_MEMORY resource-ID for a port/region pair attached to * @p child. * * @param dev The bus device. * @param child The bhnd child. * @param port_type The port type. * @param port_num The index of the child interconnect port. * @param region_num The index of the port-mapped address region. * * @retval -1 No such port/region found. */ METHOD int get_port_rid { device_t dev; device_t child; bhnd_port_type port_type; u_int port_num; u_int region_num; } DEFAULT bhnd_bus_null_get_port_rid; /** * Decode a port / region pair on @p child defined by @p type and @p rid. * * @param dev The bus device. * @param child The bhnd child. * @param type The resource type. * @param rid The resource ID. * @param[out] port_type The port's type. * @param[out] port The port identifier. * @param[out] region The identifier of the memory region on @p port. * * @retval 0 success * @retval non-zero No matching type/rid found. */ METHOD int decode_port_rid { device_t dev; device_t child; int type; int rid; bhnd_port_type *port_type; u_int *port; u_int *region; } DEFAULT bhnd_bus_null_decode_port_rid; /** * Get the address and size of @p region on @p port. * * @param dev The bus device. * @param child The bhnd child. * @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. */ METHOD int get_region_addr { device_t dev; device_t child; bhnd_port_type port_type; u_int port; u_int region; bhnd_addr_t *region_addr; bhnd_size_t *region_size; } DEFAULT bhnd_bus_null_get_region_addr; /** * Read an NVRAM variable. * * It is the responsibility of the bus to delegate this request to * the appropriate NVRAM child device, or to a parent bus implementation. * * @param dev The bus device. * @param child The requesting device. * @param name The NVRAM variable name. * @param[out] buf 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] size The capacity of @p buf. On success, will be set * to the actual size of the requested value. * @param type The data type to be written to @p buf. * * @retval 0 success * @retval ENOENT The requested variable was not found. * @retval ENOMEM If @p buf is non-NULL and a buffer of @p size is too * small to hold the requested value. * @retval ENODEV No valid NVRAM source could be found. * @retval EFTYPE If the @p name's data type 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. */ METHOD int get_nvram_var { device_t dev; device_t child; const char *name; void *buf; size_t *size; bhnd_nvram_type type; } DEFAULT bhnd_bus_null_get_nvram_var; /** An implementation of bus_read_1() compatible with bhnd_resource */ METHOD uint8_t read_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; } /** An implementation of bus_read_2() compatible with bhnd_resource */ METHOD uint16_t read_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; } /** An implementation of bus_read_4() compatible with bhnd_resource */ METHOD uint32_t read_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; } /** An implementation of bus_write_1() compatible with bhnd_resource */ METHOD void write_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint8_t value; } /** An implementation of bus_write_2() compatible with bhnd_resource */ METHOD void write_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint16_t value; } /** An implementation of bus_write_4() compatible with bhnd_resource */ METHOD void write_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint32_t value; } /** An implementation of bus_read_stream_1() compatible with bhnd_resource */ METHOD uint8_t read_stream_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; } /** An implementation of bus_read_stream_2() compatible with bhnd_resource */ METHOD uint16_t read_stream_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; } /** An implementation of bus_read_stream_4() compatible with bhnd_resource */ METHOD uint32_t read_stream_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; } /** An implementation of bus_write_stream_1() compatible with bhnd_resource */ METHOD void write_stream_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint8_t value; } /** An implementation of bus_write_stream_2() compatible with bhnd_resource */ METHOD void write_stream_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint16_t value; } /** An implementation of bus_write_stream_4() compatible with bhnd_resource */ METHOD void write_stream_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint32_t value; } /** An implementation of bus_read_multi_1() compatible with bhnd_resource */ METHOD void read_multi_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint8_t *datap; bus_size_t count; } /** An implementation of bus_read_multi_2() compatible with bhnd_resource */ METHOD void read_multi_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint16_t *datap; bus_size_t count; } /** An implementation of bus_read_multi_4() compatible with bhnd_resource */ METHOD void read_multi_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint32_t *datap; bus_size_t count; } /** An implementation of bus_write_multi_1() compatible with bhnd_resource */ METHOD void write_multi_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint8_t *datap; bus_size_t count; } /** An implementation of bus_write_multi_2() compatible with bhnd_resource */ METHOD void write_multi_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint16_t *datap; bus_size_t count; } /** An implementation of bus_write_multi_4() compatible with bhnd_resource */ METHOD void write_multi_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint32_t *datap; bus_size_t count; } /** An implementation of bus_read_multi_stream_1() compatible * bhnd_resource */ METHOD void read_multi_stream_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint8_t *datap; bus_size_t count; } /** An implementation of bus_read_multi_stream_2() compatible * bhnd_resource */ METHOD void read_multi_stream_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint16_t *datap; bus_size_t count; } /** An implementation of bus_read_multi_stream_4() compatible * bhnd_resource */ METHOD void read_multi_stream_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint32_t *datap; bus_size_t count; } /** An implementation of bus_write_multi_stream_1() compatible * bhnd_resource */ METHOD void write_multi_stream_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint8_t *datap; bus_size_t count; } /** An implementation of bus_write_multi_stream_2() compatible with * bhnd_resource */ METHOD void write_multi_stream_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint16_t *datap; bus_size_t count; } /** An implementation of bus_write_multi_stream_4() compatible with * bhnd_resource */ METHOD void write_multi_stream_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint32_t *datap; bus_size_t count; } /** An implementation of bus_set_multi_1() compatible with bhnd_resource */ METHOD void set_multi_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint8_t value; bus_size_t count; } /** An implementation of bus_set_multi_2() compatible with bhnd_resource */ METHOD void set_multi_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint16_t value; bus_size_t count; } /** An implementation of bus_set_multi_4() compatible with bhnd_resource */ METHOD void set_multi_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint32_t value; bus_size_t count; } /** An implementation of bus_set_region_1() compatible with bhnd_resource */ METHOD void set_region_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint8_t value; bus_size_t count; } /** An implementation of bus_set_region_2() compatible with bhnd_resource */ METHOD void set_region_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint16_t value; bus_size_t count; } /** An implementation of bus_set_region_4() compatible with bhnd_resource */ METHOD void set_region_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint32_t value; bus_size_t count; } /** An implementation of bus_read_region_1() compatible with bhnd_resource */ METHOD void read_region_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint8_t *datap; bus_size_t count; } /** An implementation of bus_read_region_2() compatible with bhnd_resource */ METHOD void read_region_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint16_t *datap; bus_size_t count; } /** An implementation of bus_read_region_4() compatible with bhnd_resource */ METHOD void read_region_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint32_t *datap; bus_size_t count; } /** An implementation of bus_read_region_stream_1() compatible with * bhnd_resource */ METHOD void read_region_stream_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint8_t *datap; bus_size_t count; } /** An implementation of bus_read_region_stream_2() compatible with * bhnd_resource */ METHOD void read_region_stream_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint16_t *datap; bus_size_t count; } /** An implementation of bus_read_region_stream_4() compatible with * bhnd_resource */ METHOD void read_region_stream_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint32_t *datap; bus_size_t count; } /** An implementation of bus_write_region_1() compatible with bhnd_resource */ METHOD void write_region_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint8_t *datap; bus_size_t count; } /** An implementation of bus_write_region_2() compatible with bhnd_resource */ METHOD void write_region_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint16_t *datap; bus_size_t count; } /** An implementation of bus_write_region_4() compatible with bhnd_resource */ METHOD void write_region_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint32_t *datap; bus_size_t count; } /** An implementation of bus_write_region_stream_1() compatible with * bhnd_resource */ METHOD void write_region_stream_1 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint8_t *datap; bus_size_t count; } /** An implementation of bus_write_region_stream_2() compatible with * bhnd_resource */ METHOD void write_region_stream_2 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint16_t *datap; bus_size_t count; } /** An implementation of bus_write_region_stream_4() compatible with * bhnd_resource */ METHOD void write_region_stream_4 { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; uint32_t *datap; bus_size_t count; } /** An implementation of bus_barrier() compatible with bhnd_resource */ METHOD void barrier { device_t dev; device_t child; struct bhnd_resource *r; bus_size_t offset; bus_size_t length; int flags; }