include/dm/device-internal.h - mirrors/cros/chromiumos/third_party/u-boot - Git at Google

 /* SPDX-License-Identifier: GPL-2.0+ */
 /*
  * Copyright (C) 2013 Google, Inc
  *
  * (C) Copyright 2012
  * Pavel Herrmann <morpheus.ibis@gmail.com>
  * Marek Vasut <marex@denx.de>
  */

 #ifndef _DM_DEVICE_INTERNAL_H
 #define _DM_DEVICE_INTERNAL_H

 #include <linker_lists.h>
 #include <dm/ofnode.h>

 struct device_node;
 struct driver_info;
 struct udevice;

 /*
  * These two macros DM_DEVICE_INST and DM_DEVICE_REF are only allowed in code
  * generated by dtoc, because the ordering is important and if other instances
  * creep in then they may mess up the ordering expected by dtoc.
  *
  * It is OK to use them with 'extern' though, since that does not actually
  * add a new record to the linker_list.
  */

 /**
  * DM_DEVICE_INST() - Declare a bound device ready for run-time use
  *
  * This adds an actual struct udevice to a list which is found by driver model
  * on start-up.
  *
  * For example:
  *
  * extern U_BOOT_DRIVER(sandbox_fixed_clock);
  * extern DM_UCLASS_INST(clk);
  *
  * DM_DEVICE_INST(clk_fixed) = {
  *	.driver		= DM_DRIVER_REF(sandbox_fixed_clock),
  *	.name		= "sandbox_fixed_clock",
  *	.plat_		= &_sandbox_fixed_clock_plat_clk_fixed,
  *	.uclass		= DM_UCLASS_REF(clk),
  *	...
  *	.seq_		= 0,
  * };
  *
  * @_name: Name of the udevice. This must be a valid C identifier, used by the
  *	linker_list.
  */
 #define DM_DEVICE_INST(_name)						\
 	ll_entry_declare(struct udevice, _name, udevice)

 /**
  * DM_DEVICE_REF() - Get a reference to a device
  *
  * This is useful in data structures and code for referencing a udevice at
  * build time. Before this is used, an extern DM_DEVICE_INST() must have been
  * declared.
  *
  * For example:
  *
  * extern DM_DEVICE_INST(clk_fixed);
  *
  * struct udevice *devs[] = {
  *	DM_DEVICE_REF(clk_fixed),
  * };
  *
  * @_name: Name of the udevice. This must be a valid C identifier, used by the
  *	linker_list
  * @returns struct udevice * for the device
  */
 #define DM_DEVICE_REF(_name)						\
 	ll_entry_ref(struct udevice, _name, udevice)

 /**
  * DM_DEVICE_GET() - Get a pointer to a given device
  *
  * This is similar to DM_DEVICE_REF() except that it does not need the extern
  * declaration before it. However it cannot be used in a data structures, only
  * in code within a function.
  *
  * For example:
  *
  * void some_function() {
  *	struct udevice *dev = DM_DEVICE_GET(clk_fixed);
  * ...
  * }
  */
 #define DM_DEVICE_GET(__name)						\
 	ll_entry_get(struct udevice, __name, udevice)

 /**
  * device_bind() - Create a device and bind it to a driver
  *
  * Called to set up a new device attached to a driver. The device will either
  * have plat, or a device tree node which can be used to create the
  * plat.
  *
  * Once bound a device exists but is not yet active until device_probe() is
  * called.
  *
  * @parent: Pointer to device's parent, under which this driver will exist
  * @drv: Device's driver
  * @name: Name of device (e.g. device tree node name)
  * @plat: Pointer to data for this device - the structure is device-
  * specific but may include the device's I/O address, etc.. This is NULL for
  * devices which use device tree.
  * @ofnode: Devicetree node for this device. This is ofnode_null() for
  * devices which don't use devicetree or don't have a node.
  * @devp: if non-NULL, returns a pointer to the bound device
  * @return 0 if OK, -ve on error
  */
 int device_bind(struct udevice *parent, const struct driver *drv,
 		const char *name, void *plat, ofnode node,
 		struct udevice **devp);

 /**
  * device_bind_with_driver_data() - Create a device and bind it to a driver
  *
  * Called to set up a new device attached to a driver, in the case where the
  * driver was matched to the device by means of a match table that provides
  * driver_data.
  *
  * Once bound a device exists but is not yet active until device_probe() is
  * called.
  *
  * @parent: Pointer to device's parent, under which this driver will exist
  * @drv: Device's driver
  * @name: Name of device (e.g. device tree node name)
  * @driver_data: The driver_data field from the driver's match table.
  * @node: Device tree node for this device. This is invalid for devices which
  * don't use device tree.
  * @devp: if non-NULL, returns a pointer to the bound device
  * @return 0 if OK, -ve on error
  */
 int device_bind_with_driver_data(struct udevice *parent,
 				 const struct driver *drv, const char *name,
 				 ulong driver_data, ofnode node,
 				 struct udevice **devp);
 /**
  * device_bind_by_name: Create a device and bind it to a driver
  *
  * This is a helper function used to bind devices which do not use device
  * tree.
  *
  * @parent: Pointer to device's parent
  * @pre_reloc_only: If true, bind the driver only if its DM_FLAG_PRE_RELOC flag
  * is set. If false bind the driver always.
  * @info: Name and plat for this device
  * @devp: if non-NULL, returns a pointer to the bound device
  * @return 0 if OK, -ve on error
  */
 int device_bind_by_name(struct udevice *parent, bool pre_reloc_only,
 			const struct driver_info *info, struct udevice **devp);

 /**
  * device_reparent: reparent the device to a new parent
  *
  * @dev: pointer to device to be reparented
  * @new_parent: pointer to new parent device
  * @return 0 if OK, -ve on error
  */
 int device_reparent(struct udevice *dev, struct udevice *new_parent);

 /**
  * device_of_to_plat() - Read platform data for a device
  *
  * Read platform data for a device (typically from the device tree) so that
  * the information needed to probe the device is present.
  *
  * This may cause some others devices to be probed if this one depends on them,
  * e.g. a GPIO line will cause a GPIO device to be probed.
  *
  * All private data associated with the device is allocated.
  *
  * @dev: Pointer to device to process
  * @return 0 if OK, -ve on error
  */
 int device_of_to_plat(struct udevice *dev);

 /**
  * device_probe() - Probe a device, activating it
  *
  * Activate a device so that it is ready for use. All its parents are probed
  * first.
  *
  * @dev: Pointer to device to probe
  * @return 0 if OK, -ve on error
  */
 int device_probe(struct udevice *dev);

 /**
  * device_remove() - Remove a device, de-activating it
  *
  * De-activate a device so that it is no longer ready for use. All its
  * children are deactivated first.
  *
  * @dev: Pointer to device to remove
  * @flags: Flags for selective device removal (DM_REMOVE_...)
  * @return 0 if OK, -EKEYREJECTED if not removed due to flags, -EPROBE_DEFER if
  *	this is a vital device and flags is DM_REMOVE_NON_VITAL, other -ve on
  *	error (such an error here is normally a very bad thing)
  */
 #if CONFIG_IS_ENABLED(DM_DEVICE_REMOVE)
 int device_remove(struct udevice *dev, uint flags);
 #else
 static inline int device_remove(struct udevice *dev, uint flags) { return 0; }
 #endif

 /**
  * device_unbind() - Unbind a device, destroying it
  *
  * Unbind a device and remove all memory used by it
  *
  * @dev: Pointer to device to unbind
  * @return 0 if OK, -ve on error
  */
 #if CONFIG_IS_ENABLED(DM_DEVICE_REMOVE)
 int device_unbind(struct udevice *dev);
 #else
 static inline int device_unbind(struct udevice *dev) { return 0; }
 #endif

 #if CONFIG_IS_ENABLED(DM_DEVICE_REMOVE)
 void device_free(struct udevice *dev);
 #else
 static inline void device_free(struct udevice *dev) {}
 #endif

 /**
  * device_chld_unbind() - Unbind all device's children from the device if bound
  *			  to drv
  *
  * On error, the function continues to unbind all children, and reports the
  * first error.
  *
  * @dev:	The device that is to be stripped of its children
  * @drv:	The targeted driver
  * @return 0 on success, -ve on error
  */
 #if CONFIG_IS_ENABLED(DM_DEVICE_REMOVE)
 int device_chld_unbind(struct udevice *dev, struct driver *drv);
 #else
 static inline int device_chld_unbind(struct udevice *dev, struct driver *drv)
 {
 	return 0;
 }
 #endif

 /**
  * device_chld_remove() - Stop all device's children
  *
  * This continues through all children recursively stopping part-way through if
  * an error occurs. Return values of -EKEYREJECTED are ignored and processing
  * continues, since they just indicate that the child did not elect to be
  * removed based on the value of @flags. Return values of -EPROBE_DEFER cause
  * processing of other children to continue, but the function will return
  * -EPROBE_DEFER.
  *
  * @dev:	The device whose children are to be removed
  * @drv:	The targeted driver
  * @flags:	Flag, if this functions is called in the pre-OS stage
  * @return 0 on success, -EPROBE_DEFER if any child failed to remove, other
  *	-ve on error
  */
 #if CONFIG_IS_ENABLED(DM_DEVICE_REMOVE)
 int device_chld_remove(struct udevice *dev, struct driver *drv,
 		       uint flags);
 #else
 static inline int device_chld_remove(struct udevice *dev, struct driver *drv,
 				     uint flags)
 {
 	return 0;
 }
 #endif

 /**
  * dev_set_priv() - Set the private data for a device
  *
  * This is normally handled by driver model, which automatically allocates
  * private data when an 'auto' size if provided by the driver.
  *
  * Use this function to override normal operation for special situations, such
  * as needing to allocate a variable amount of data.
  *
  * If OF_PLATDATA_RT is enabled, this function cannot be used out of core driver
  * model code, since the pointer must be within the gd->dm_priv_base region.
  *
  * @dev		Device to check
  * @priv	New private-data pointer
  */
 void dev_set_priv(struct udevice *dev, void *priv);

 /**
  * dev_set_parent_priv() - Set the parent-private data for a device
  *
  * This is normally handled by driver model, which automatically allocates
  * parent-private data when an 'auto' size if provided by the driver.
  *
  * Use this function to override normal operation for special situations, such
  * as needing to allocate a variable amount of data.
  *
  * If OF_PLATDATA_RT is enabled, this function cannot be used out of core driver
  * model code, since the pointer must be within the gd->dm_priv_base region.
  *
  * @dev:	Device to update
  * @parent_priv: New parent-private data
  */
 void dev_set_parent_priv(struct udevice *dev, void *parent_priv);

 /**
  * dev_set_uclass_priv() - Set the uclass private data for a device
  *
  * This is normally handled by driver model, which automatically allocates
  * uclass-private data when an 'auto' size if provided by the driver.
  *
  * Use this function to override normal operation for special situations, such
  * as needing to allocate a variable amount of data.
  *
  * If OF_PLATDATA_RT is enabled, this function cannot be used out of core driver
  * model code, since the pointer must be within the gd->dm_priv_base region.
  *
  * @dev:	Device to update
  * @uclass_priv: New uclass private data
  */
 void dev_set_uclass_priv(struct udevice *dev, void *uclass_priv);

 /**
  * dev_set_plat() - Set the platform data for a device
  *
  * This is normally handled by driver model, which automatically allocates
  * platform data when an 'auto' size if provided by the driver.
  *
  * Use this function to override normal operation for special situations, such
  * as needing to allocate a variable amount of data.
  *
  * If OF_PLATDATA_RT is enabled, this function cannot be used out of core driver
  * model code, since the pointer must be within the gd->dm_priv_base region.
  *
  * @dev		Device to check
  * @plat	New platform-data pointer
  */
 void dev_set_plat(struct udevice *dev, void *priv);

 /**
  * dev_set_parent_plat() - Set the parent platform data for a device
  *
  * This is normally handled by driver model, which automatically allocates
  * parent platform data when an 'auto' size if provided by the driver.
  *
  * Use this function to override normal operation for special situations, such
  * as needing to allocate a variable amount of data.
  *
  * If OF_PLATDATA_RT is enabled, this function cannot be used out of core driver
  * model code, since the pointer must be within the gd->dm_priv_base region.
  *
  * @dev:	Device to update
  * @parent_plat: New parent platform data
  */
 void dev_set_parent_plat(struct udevice *dev, void *parent_plat);

 /**
  * dev_set_uclass_plat() - Set the uclass platform data for a device
  *
  * This is normally handled by driver model, which automatically allocates
  * uclass platform data when an 'auto' size if provided by the driver.
  *
  * Use this function to override normal operation for special situations, such
  * as needing to allocate a variable amount of data.
  *
  * If OF_PLATDATA_RT is enabled, this function cannot be used out of core driver
  * model code, since the pointer must be within the gd->dm_priv_base region.
  *
  * @dev:	Device to update
  * @uclass_plat: New uclass platform data
  */
 void dev_set_uclass_plat(struct udevice *dev, void *uclass_plat);

 /**
  * simple_bus_translate() - translate a bus address to a system address
  *
  * This handles the 'ranges' property in a simple bus. It translates the
  * device address @addr to a system address using this property.
  *
  * @dev:	Simple bus device (parent of target device)
  * @addr:	Address to translate
  * @return new address
  */
 fdt_addr_t simple_bus_translate(struct udevice *dev, fdt_addr_t addr);

 /* Cast away any volatile pointer */
 #define DM_ROOT_NON_CONST		(((gd_t *)gd)->dm_root)
 #define DM_UCLASS_ROOT_NON_CONST	(((gd_t *)gd)->uclass_root)
 #define DM_UCLASS_ROOT_S_NON_CONST	(((gd_t *)gd)->uclass_root_s)

 /* device resource management */
 #ifdef CONFIG_DEVRES

 /**
  * devres_release_probe - Release managed resources allocated after probing
  * @dev: Device to release resources for
  *
  * Release all resources allocated for @dev when it was probed or later.
  * This function is called on driver removal.
  */
 void devres_release_probe(struct udevice *dev);

 /**
  * devres_release_all - Release all managed resources
  * @dev: Device to release resources for
  *
  * Release all resources associated with @dev.  This function is
  * called on driver unbinding.
  */
 void devres_release_all(struct udevice *dev);

 #else /* ! CONFIG_DEVRES */

 static inline void devres_release_probe(struct udevice *dev)
 {
 }

 static inline void devres_release_all(struct udevice *dev)
 {
 }

 #endif /* ! CONFIG_DEVRES */
 #endif
	/* SPDX-License-Identifier: GPL-2.0+ */
	/*
	* Copyright (C) 2013 Google, Inc
	*
	* (C) Copyright 2012
	* Pavel Herrmann <morpheus.ibis@gmail.com>
	* Marek Vasut <marex@denx.de>
	*/

	#ifndef _DM_DEVICE_INTERNAL_H
	#define _DM_DEVICE_INTERNAL_H

	#include <linker_lists.h>
	#include <dm/ofnode.h>

	struct device_node;
	struct driver_info;
	struct udevice;

	/*
	* These two macros DM_DEVICE_INST and DM_DEVICE_REF are only allowed in code
	* generated by dtoc, because the ordering is important and if other instances
	* creep in then they may mess up the ordering expected by dtoc.
	*
	* It is OK to use them with 'extern' though, since that does not actually
	* add a new record to the linker_list.
	*/

	/**
	* DM_DEVICE_INST() - Declare a bound device ready for run-time use
	*
	* This adds an actual struct udevice to a list which is found by driver model
	* on start-up.
	*
	* For example:
	*
	* extern U_BOOT_DRIVER(sandbox_fixed_clock);
	* extern DM_UCLASS_INST(clk);
	*
	* DM_DEVICE_INST(clk_fixed) = {
	* .driver = DM_DRIVER_REF(sandbox_fixed_clock),
	* .name = "sandbox_fixed_clock",
	* .plat_ = &_sandbox_fixed_clock_plat_clk_fixed,
	* .uclass = DM_UCLASS_REF(clk),
	* ...
	* .seq_ = 0,
	* };
	*
	* @_name: Name of the udevice. This must be a valid C identifier, used by the
	* linker_list.
	*/
	#define DM_DEVICE_INST(_name) \
	ll_entry_declare(struct udevice, _name, udevice)

	/**
	* DM_DEVICE_REF() - Get a reference to a device
	*
	* This is useful in data structures and code for referencing a udevice at
	* build time. Before this is used, an extern DM_DEVICE_INST() must have been
	* declared.
	*
	* For example:
	*
	* extern DM_DEVICE_INST(clk_fixed);
	*
	* struct udevice *devs[] = {
	* DM_DEVICE_REF(clk_fixed),
	* };
	*
	* @_name: Name of the udevice. This must be a valid C identifier, used by the
	* linker_list
	* @returns struct udevice * for the device
	*/
	#define DM_DEVICE_REF(_name) \
	ll_entry_ref(struct udevice, _name, udevice)

	/**
	* DM_DEVICE_GET() - Get a pointer to a given device
	*
	* This is similar to DM_DEVICE_REF() except that it does not need the extern
	* declaration before it. However it cannot be used in a data structures, only
	* in code within a function.
	*
	* For example:
	*
	* void some_function() {
	* struct udevice *dev = DM_DEVICE_GET(clk_fixed);
	* ...
	* }
	*/
	#define DM_DEVICE_GET(__name) \
	ll_entry_get(struct udevice, __name, udevice)

	/**
	* device_bind() - Create a device and bind it to a driver
	*
	* Called to set up a new device attached to a driver. The device will either
	* have plat, or a device tree node which can be used to create the
	* plat.
	*
	* Once bound a device exists but is not yet active until device_probe() is
	* called.
	*
	* @parent: Pointer to device's parent, under which this driver will exist
	* @drv: Device's driver
	* @name: Name of device (e.g. device tree node name)
	* @plat: Pointer to data for this device - the structure is device-
	* specific but may include the device's I/O address, etc.. This is NULL for
	* devices which use device tree.
	* @ofnode: Devicetree node for this device. This is ofnode_null() for
	* devices which don't use devicetree or don't have a node.
	* @devp: if non-NULL, returns a pointer to the bound device
	* @return 0 if OK, -ve on error
	*/
	int device_bind(struct udevice parent, const struct driver drv,
	const char name, void plat, ofnode node,
	struct udevice **devp);

	/**
	* device_bind_with_driver_data() - Create a device and bind it to a driver
	*
	* Called to set up a new device attached to a driver, in the case where the
	* driver was matched to the device by means of a match table that provides
	* driver_data.
	*
	* Once bound a device exists but is not yet active until device_probe() is
	* called.
	*
	* @parent: Pointer to device's parent, under which this driver will exist
	* @drv: Device's driver
	* @name: Name of device (e.g. device tree node name)
	* @driver_data: The driver_data field from the driver's match table.
	* @node: Device tree node for this device. This is invalid for devices which
	* don't use device tree.
	* @devp: if non-NULL, returns a pointer to the bound device
	* @return 0 if OK, -ve on error
	*/
	int device_bind_with_driver_data(struct udevice *parent,
	const struct driver drv, const char name,
	ulong driver_data, ofnode node,
	struct udevice **devp);
	/**
	* device_bind_by_name: Create a device and bind it to a driver
	*
	* This is a helper function used to bind devices which do not use device
	* tree.
	*
	* @parent: Pointer to device's parent
	* @pre_reloc_only: If true, bind the driver only if its DM_FLAG_PRE_RELOC flag
	* is set. If false bind the driver always.
	* @info: Name and plat for this device
	* @devp: if non-NULL, returns a pointer to the bound device
	* @return 0 if OK, -ve on error
	*/
	int device_bind_by_name(struct udevice *parent, bool pre_reloc_only,
	const struct driver_info info, struct udevice *devp);

	/**
	* device_reparent: reparent the device to a new parent
	*
	* @dev: pointer to device to be reparented
	* @new_parent: pointer to new parent device
	* @return 0 if OK, -ve on error
	*/
	int device_reparent(struct udevice dev, struct udevice new_parent);

	/**
	* device_of_to_plat() - Read platform data for a device
	*
	* Read platform data for a device (typically from the device tree) so that
	* the information needed to probe the device is present.
	*
	* This may cause some others devices to be probed if this one depends on them,
	* e.g. a GPIO line will cause a GPIO device to be probed.
	*
	* All private data associated with the device is allocated.
	*
	* @dev: Pointer to device to process
	* @return 0 if OK, -ve on error
	*/
	int device_of_to_plat(struct udevice *dev);

	/**
	* device_probe() - Probe a device, activating it
	*
	* Activate a device so that it is ready for use. All its parents are probed
	* first.
	*
	* @dev: Pointer to device to probe
	* @return 0 if OK, -ve on error
	*/
	int device_probe(struct udevice *dev);

	/**
	* device_remove() - Remove a device, de-activating it
	*
	* De-activate a device so that it is no longer ready for use. All its
	* children are deactivated first.
	*
	* @dev: Pointer to device to remove
	* @flags: Flags for selective device removal (DM_REMOVE_...)
	* @return 0 if OK, -EKEYREJECTED if not removed due to flags, -EPROBE_DEFER if
	* this is a vital device and flags is DM_REMOVE_NON_VITAL, other -ve on
	* error (such an error here is normally a very bad thing)
	*/
	#if CONFIG_IS_ENABLED(DM_DEVICE_REMOVE)
	int device_remove(struct udevice *dev, uint flags);
	#else
	static inline int device_remove(struct udevice *dev, uint flags) { return 0; }
	#endif

	/**
	* device_unbind() - Unbind a device, destroying it
	*
	* Unbind a device and remove all memory used by it
	*
	* @dev: Pointer to device to unbind
	* @return 0 if OK, -ve on error
	*/
	#if CONFIG_IS_ENABLED(DM_DEVICE_REMOVE)
	int device_unbind(struct udevice *dev);
	#else
	static inline int device_unbind(struct udevice *dev) { return 0; }
	#endif

	#if CONFIG_IS_ENABLED(DM_DEVICE_REMOVE)
	void device_free(struct udevice *dev);
	#else
	static inline void device_free(struct udevice *dev) {}
	#endif

	/**
	* device_chld_unbind() - Unbind all device's children from the device if bound
	* to drv
	*
	* On error, the function continues to unbind all children, and reports the
	* first error.
	*
	* @dev: The device that is to be stripped of its children
	* @drv: The targeted driver
	* @return 0 on success, -ve on error
	*/
	#if CONFIG_IS_ENABLED(DM_DEVICE_REMOVE)
	int device_chld_unbind(struct udevice dev, struct driver drv);
	#else
	static inline int device_chld_unbind(struct udevice dev, struct driver drv)
	{
	return 0;
	}
	#endif

	/**
	* device_chld_remove() - Stop all device's children
	*
	* This continues through all children recursively stopping part-way through if
	* an error occurs. Return values of -EKEYREJECTED are ignored and processing
	* continues, since they just indicate that the child did not elect to be
	* removed based on the value of @flags. Return values of -EPROBE_DEFER cause
	* processing of other children to continue, but the function will return
	* -EPROBE_DEFER.
	*
	* @dev: The device whose children are to be removed
	* @drv: The targeted driver
	* @flags: Flag, if this functions is called in the pre-OS stage
	* @return 0 on success, -EPROBE_DEFER if any child failed to remove, other
	* -ve on error
	*/
	#if CONFIG_IS_ENABLED(DM_DEVICE_REMOVE)
	int device_chld_remove(struct udevice dev, struct driver drv,
	uint flags);
	#else
	static inline int device_chld_remove(struct udevice dev, struct driver drv,
	uint flags)
	{
	return 0;
	}
	#endif

	/**
	* dev_set_priv() - Set the private data for a device
	*
	* This is normally handled by driver model, which automatically allocates
	* private data when an 'auto' size if provided by the driver.
	*
	* Use this function to override normal operation for special situations, such
	* as needing to allocate a variable amount of data.
	*
	* If OF_PLATDATA_RT is enabled, this function cannot be used out of core driver
	* model code, since the pointer must be within the gd->dm_priv_base region.
	*
	* @dev Device to check
	* @priv New private-data pointer
	*/
	void dev_set_priv(struct udevice dev, void priv);

	/**
	* dev_set_parent_priv() - Set the parent-private data for a device
	*
	* This is normally handled by driver model, which automatically allocates
	* parent-private data when an 'auto' size if provided by the driver.
	*
	* Use this function to override normal operation for special situations, such
	* as needing to allocate a variable amount of data.
	*
	* If OF_PLATDATA_RT is enabled, this function cannot be used out of core driver
	* model code, since the pointer must be within the gd->dm_priv_base region.
	*
	* @dev: Device to update
	* @parent_priv: New parent-private data
	*/
	void dev_set_parent_priv(struct udevice dev, void parent_priv);

	/**
	* dev_set_uclass_priv() - Set the uclass private data for a device
	*
	* This is normally handled by driver model, which automatically allocates
	* uclass-private data when an 'auto' size if provided by the driver.
	*
	* Use this function to override normal operation for special situations, such
	* as needing to allocate a variable amount of data.
	*
	* If OF_PLATDATA_RT is enabled, this function cannot be used out of core driver
	* model code, since the pointer must be within the gd->dm_priv_base region.
	*
	* @dev: Device to update
	* @uclass_priv: New uclass private data
	*/
	void dev_set_uclass_priv(struct udevice dev, void uclass_priv);

	/**
	* dev_set_plat() - Set the platform data for a device
	*
	* This is normally handled by driver model, which automatically allocates
	* platform data when an 'auto' size if provided by the driver.
	*
	* Use this function to override normal operation for special situations, such
	* as needing to allocate a variable amount of data.
	*
	* If OF_PLATDATA_RT is enabled, this function cannot be used out of core driver
	* model code, since the pointer must be within the gd->dm_priv_base region.
	*
	* @dev Device to check
	* @plat New platform-data pointer
	*/
	void dev_set_plat(struct udevice dev, void priv);

	/**
	* dev_set_parent_plat() - Set the parent platform data for a device
	*
	* This is normally handled by driver model, which automatically allocates
	* parent platform data when an 'auto' size if provided by the driver.
	*
	* Use this function to override normal operation for special situations, such
	* as needing to allocate a variable amount of data.
	*
	* If OF_PLATDATA_RT is enabled, this function cannot be used out of core driver
	* model code, since the pointer must be within the gd->dm_priv_base region.
	*
	* @dev: Device to update
	* @parent_plat: New parent platform data
	*/
	void dev_set_parent_plat(struct udevice dev, void parent_plat);

	/**
	* dev_set_uclass_plat() - Set the uclass platform data for a device
	*
	* This is normally handled by driver model, which automatically allocates
	* uclass platform data when an 'auto' size if provided by the driver.
	*
	* Use this function to override normal operation for special situations, such
	* as needing to allocate a variable amount of data.
	*
	* If OF_PLATDATA_RT is enabled, this function cannot be used out of core driver
	* model code, since the pointer must be within the gd->dm_priv_base region.
	*
	* @dev: Device to update
	* @uclass_plat: New uclass platform data
	*/
	void dev_set_uclass_plat(struct udevice dev, void uclass_plat);

	/**
	* simple_bus_translate() - translate a bus address to a system address
	*
	* This handles the 'ranges' property in a simple bus. It translates the
	* device address @addr to a system address using this property.
	*
	* @dev: Simple bus device (parent of target device)
	* @addr: Address to translate
	* @return new address
	*/
	fdt_addr_t simple_bus_translate(struct udevice *dev, fdt_addr_t addr);

	/* Cast away any volatile pointer */
	#define DM_ROOT_NON_CONST (((gd_t *)gd)->dm_root)
	#define DM_UCLASS_ROOT_NON_CONST (((gd_t *)gd)->uclass_root)
	#define DM_UCLASS_ROOT_S_NON_CONST (((gd_t *)gd)->uclass_root_s)

	/* device resource management */
	#ifdef CONFIG_DEVRES

	/**
	* devres_release_probe - Release managed resources allocated after probing
	* @dev: Device to release resources for
	*
	* Release all resources allocated for @dev when it was probed or later.
	* This function is called on driver removal.
	*/
	void devres_release_probe(struct udevice *dev);

	/**
	* devres_release_all - Release all managed resources
	* @dev: Device to release resources for
	*
	* Release all resources associated with @dev. This function is
	* called on driver unbinding.
	*/
	void devres_release_all(struct udevice *dev);

	#else /* ! CONFIG_DEVRES */

	static inline void devres_release_probe(struct udevice *dev)
	{
	}

	static inline void devres_release_all(struct udevice *dev)
	{
	}

	#endif /* ! CONFIG_DEVRES */
	#endif