include/kernel/dt.h

1bb92983SJerome Forissier/* SPDX-License-Identifier: BSD-2-Clause */
a4f139d7SJerome Forissier/*
01254f1dSEtienne Carriere * Copyright (c) 2016-2021, Linaro Limited
a4f139d7SJerome Forissier */
a4f139d7SJerome Forissier
d50fee03SEtienne Carriere#ifndef __KERNEL_DT_H
d50fee03SEtienne Carriere#define __KERNEL_DT_H
a4f139d7SJerome Forissier
a4f139d7SJerome Forissier#include <compiler.h>
c0cfb36cSEtienne Carriere#include <kernel/panic.h>
61bdedeaSJerome Forissier#include <scattered_array.h>
a4f139d7SJerome Forissier#include <stdint.h>
01254f1dSEtienne Carriere#include <tee_api_types.h>
a4f139d7SJerome Forissier#include <types_ext.h>
9fe4c797SJerome Forissier#include <util.h>
9fe4c797SJerome Forissier
9fe4c797SJerome Forissier/*
23b1daf4SPeng Fan * Bitfield to reflect status and secure-status values ("okay", "disabled"
23b1daf4SPeng Fan * or not present)
9fe4c797SJerome Forissier */
b4bfc9a9SJens Wiklander#define DT_STATUS_DISABLED		U(0)
9fe4c797SJerome Forissier#define DT_STATUS_OK_NSEC		BIT(0)
9fe4c797SJerome Forissier#define DT_STATUS_OK_SEC		BIT(1)
a4f139d7SJerome Forissier
c0cfb36cSEtienne Carriere#define DT_INFO_INVALID_REG		((paddr_t)-1)
df7cecc0SLionel Debieve#define DT_INFO_INVALID_REG_SIZE	((size_t)-1)
c0cfb36cSEtienne Carriere#define DT_INFO_INVALID_CLOCK		-1
c0cfb36cSEtienne Carriere#define DT_INFO_INVALID_RESET		-1
95cdc5e0SCedric Neveux#define DT_INFO_INVALID_INTERRUPT	-1
95cdc5e0SCedric Neveux
c0cfb36cSEtienne Carriere/*
c0cfb36cSEtienne Carriere * @status: Bit mask for DT_STATUS_*
c0cfb36cSEtienne Carriere * @reg: Device register physical base address or DT_INFO_INVALID_REG
06fd21ddSLionel Debieve * @reg_size: Device register size or DT_INFO_INVALID_REG_SIZE
c0cfb36cSEtienne Carriere * @clock: Device identifier (positive value) or DT_INFO_INVALID_CLOCK
c0cfb36cSEtienne Carriere * @reset: Device reset identifier (positive value) or DT_INFO_INVALID_CLOCK
7acb3a47SLudovic Barre * @interrupt: Device interrupt identifier (positive value) or
7acb3a47SLudovic Barre * DT_INFO_INVALID_INTERRUPT
702fe5a7SClément Léger * @type: IRQ_TYPE_* value parsed from interrupts properties or IRQ_TYPE_NONE if
702fe5a7SClément Léger * not present
702fe5a7SClément Léger * @prio: interrupt priority parsed from interrupts properties or 0 if not
702fe5a7SClément Léger * present
c0cfb36cSEtienne Carriere */
c0cfb36cSEtienne Carrierestruct dt_node_info {
c0cfb36cSEtienne Carriere	unsigned int status;
c0cfb36cSEtienne Carriere	paddr_t reg;
06fd21ddSLionel Debieve	size_t reg_size;
c0cfb36cSEtienne Carriere	int clock;
c0cfb36cSEtienne Carriere	int reset;
7acb3a47SLudovic Barre	int interrupt;
702fe5a7SClément Léger	uint32_t type;
702fe5a7SClément Léger	uint32_t prio;
c0cfb36cSEtienne Carriere};
c0cfb36cSEtienne Carriere
a4f139d7SJerome Forissier/*
a4f139d7SJerome Forissier * DT-aware drivers
a4f139d7SJerome Forissier */
a4f139d7SJerome Forissier
a4f139d7SJerome Forissierstruct dt_device_match {
a4f139d7SJerome Forissier	const char *compatible;
7e6a39feSEtienne Carriere	const void *compat_data;
a4f139d7SJerome Forissier};
a4f139d7SJerome Forissier
01254f1dSEtienne Carriere/*
a5d5bbc8SVesa Jääskeläinen * DT_MAP_AUTO: Uses status properties from device tree to determine mapping.
a5d5bbc8SVesa Jääskeläinen * DT_MAP_SECURE: Force mapping for device to be secure.
a5d5bbc8SVesa Jääskeläinen * DT_MAP_NON_SECURE: Force mapping for device to be non-secure.
a5d5bbc8SVesa Jääskeläinen */
a5d5bbc8SVesa Jääskeläinenenum dt_map_dev_directive {
a5d5bbc8SVesa Jääskeläinen	DT_MAP_AUTO,
a5d5bbc8SVesa Jääskeläinen	DT_MAP_SECURE,
a5d5bbc8SVesa Jääskeläinen	DT_MAP_NON_SECURE
a5d5bbc8SVesa Jääskeläinen};
a5d5bbc8SVesa Jääskeläinen
4e45454aSJens Wiklander/*
e6027f48SAlvin Chang * struct dt_descriptor - Descriptor of the device tree
e6027f48SAlvin Chang * @blob: Pointer to the device tree binary
e6027f48SAlvin Chang * @frag_id: Used ID of fragments for device tree overlay
e6027f48SAlvin Chang */
e6027f48SAlvin Changstruct dt_descriptor {
e6027f48SAlvin Chang	void *blob;
e6027f48SAlvin Chang#ifdef _CFG_USE_DTB_OVERLAY
e6027f48SAlvin Chang	int frag_id;
e6027f48SAlvin Chang#endif
e6027f48SAlvin Chang};
e6027f48SAlvin Chang
e6027f48SAlvin Changextern uint8_t embedded_secure_dtb[];
e6027f48SAlvin Chang
5a982d0eSJens Wiklander#ifdef CFG_DT
e6027f48SAlvin Chang/*
4e45454aSJens Wiklander * dt_getprop_as_number() - get a DT property a unsigned number
4e45454aSJens Wiklander * @fdt: DT base address
4e45454aSJens Wiklander * @nodeoffset: node offset
4e45454aSJens Wiklander * @name: property string name
4e45454aSJens Wiklander * @num: output number read
4e45454aSJens Wiklander * Return 0 on success and a negative FDT error value on error
4e45454aSJens Wiklander *
4e45454aSJens Wiklander * The size of the property determines if it is read as an unsigned 32-bit
4e45454aSJens Wiklander * or 64-bit integer.
4e45454aSJens Wiklander */
4e45454aSJens Wiklanderint dt_getprop_as_number(const void *fdt, int nodeoffset, const char *name,
4e45454aSJens Wiklander			 uint64_t *num);
4e45454aSJens Wiklander
a4f139d7SJerome Forissier/*
a4f139d7SJerome Forissier * Find a driver that is suitable for the given DT node, that is, with
a4f139d7SJerome Forissier * a matching "compatible" property.
a4f139d7SJerome Forissier *
a4f139d7SJerome Forissier * @fdt: pointer to the device tree
a4f139d7SJerome Forissier * @offs: node offset
a4f139d7SJerome Forissier */
a4f139d7SJerome Forissierconst struct dt_driver *dt_find_compatible_driver(const void *fdt, int offs);
a4f139d7SJerome Forissier
9fe4c797SJerome Forissier/*
7ba16abbSJerome Forissier * Map a device into secure or non-secure memory and return the base VA and
7ba16abbSJerome Forissier * the mapping size. The mapping is done with type MEM_AREA_IO_SEC or
7ba16abbSJerome Forissier * MEM_AREA_IO_NSEC, depending on the device status.
7ba16abbSJerome Forissier * If the mapping already exists, the function simply returns the @vbase and
7ba16abbSJerome Forissier * @size information.
7ba16abbSJerome Forissier *
7ba16abbSJerome Forissier * @offs is the offset of the node that describes the device in @fdt.
7ba16abbSJerome Forissier * @base receives the base virtual address corresponding to the base physical
7ba16abbSJerome Forissier * address of the "reg" property
7ba16abbSJerome Forissier * @size receives the size of the mapping
a5d5bbc8SVesa Jääskeläinen * @mapping what kind of mapping is done for memory.
7ba16abbSJerome Forissier *
7ba16abbSJerome Forissier * Returns 0 on success or -1 in case of error.
7ba16abbSJerome Forissier */
a5d5bbc8SVesa Jääskeläinenint dt_map_dev(const void *fdt, int offs, vaddr_t *base, size_t *size,
a5d5bbc8SVesa Jääskeläinen	       enum dt_map_dev_directive mapping);
7ba16abbSJerome Forissier
7ba16abbSJerome Forissier/*
50f3b323SPeng Fan * Check whether the node at @offs contains the property with propname or not.
50f3b323SPeng Fan *
50f3b323SPeng Fan * @offs is the offset of the node that describes the device in @fdt.
50f3b323SPeng Fan * @propname is the property that need to check
50f3b323SPeng Fan *
50f3b323SPeng Fan * Returns true on success or false if no propname.
50f3b323SPeng Fan */
50f3b323SPeng Fanbool dt_have_prop(const void *fdt, int offs, const char *propname);
50f3b323SPeng Fan
50f3b323SPeng Fan/*
95cdc5e0SCedric Neveux * Modify or add "status" property to "disabled"
95cdc5e0SCedric Neveux *
95cdc5e0SCedric Neveux * @fdt reference to the Device Tree
95cdc5e0SCedric Neveux * @node is the node offset to modify
95cdc5e0SCedric Neveux *
95cdc5e0SCedric Neveux * Returns 0 on success or -1 on failure
95cdc5e0SCedric Neveux */
95cdc5e0SCedric Neveuxint dt_disable_status(void *fdt, int node);
95cdc5e0SCedric Neveux
95cdc5e0SCedric Neveux/*
95cdc5e0SCedric Neveux * Force secure-status = "okay" and status="disabled" for the target node.
95cdc5e0SCedric Neveux *
95cdc5e0SCedric Neveux * @fdt reference to the Device Tree
95cdc5e0SCedric Neveux * @node is the node offset to modify
95cdc5e0SCedric Neveux *
95cdc5e0SCedric Neveux * Returns 0 on success or -1 on failure
95cdc5e0SCedric Neveux */
95cdc5e0SCedric Neveuxint dt_enable_secure_status(void *fdt, int node);
95cdc5e0SCedric Neveux
95cdc5e0SCedric Neveux/*
9fe4c797SJerome Forissier * FDT manipulation functions, not provided by <libfdt.h>
9fe4c797SJerome Forissier */
9fe4c797SJerome Forissier
9fe4c797SJerome Forissier/*
9fe4c797SJerome Forissier * Return the base address for the "reg" property of the specified node or
9fe4c797SJerome Forissier * (paddr_t)-1 in case of error
9fe4c797SJerome Forissier */
f354a5d8SGatien Chevallierpaddr_t fdt_reg_base_address(const void *fdt, int offs);
9fe4c797SJerome Forissier
9fe4c797SJerome Forissier/*
9fe4c797SJerome Forissier * Return the reg size for the reg property of the specified node or -1 in case
9fe4c797SJerome Forissier * of error
9fe4c797SJerome Forissier */
f354a5d8SGatien Chevalliersize_t fdt_reg_size(const void *fdt, int offs);
9fe4c797SJerome Forissier
9fe4c797SJerome Forissier/*
de56c16dSEtienne Carriere * Read the base address and/or reg size for the "reg" property of the
de56c16dSEtienne Carriere * specified node.
de56c16dSEtienne Carriere * @fdt: Reference to the Device Tree
de56c16dSEtienne Carriere * @offs: Offset to the node to read "reg" property from
de56c16dSEtienne Carriere * @base: Pointer to the output base address value, or NULL
de56c16dSEtienne Carriere * @size: Pointer to the output size value, or NULL
de56c16dSEtienne Carriere * Returns 0 on success and a negative FDT error value in case of failure
de56c16dSEtienne Carriere */
de56c16dSEtienne Carriereint fdt_reg_info(const void *fdt, int offs, paddr_t *base, size_t *size);
de56c16dSEtienne Carriere
de56c16dSEtienne Carriere/*
9fe4c797SJerome Forissier * Read the status and secure-status properties into a bitfield.
c020046dSEtienne Carriere * Return -1 on failure, DT_STATUS_DISABLED if the node is disabled,
c020046dSEtienne Carriere * otherwise return a combination of DT_STATUS_OK_NSEC and DT_STATUS_OK_SEC.
9fe4c797SJerome Forissier */
f354a5d8SGatien Chevallierint fdt_get_status(const void *fdt, int offs);
9fe4c797SJerome Forissier
c0cfb36cSEtienne Carriere/*
c0cfb36cSEtienne Carriere * fdt_fill_device_info - Get generic device info from a node
c0cfb36cSEtienne Carriere *
c0cfb36cSEtienne Carriere * This function fills the generic information from a given node.
c0cfb36cSEtienne Carriere * Currently supports a single base register, a single clock,
c0cfb36cSEtienne Carriere * a single reset ID line and a single interrupt ID.
c0cfb36cSEtienne Carriere * Default DT_INFO_* macros are used when the relate property is not found.
c0cfb36cSEtienne Carriere */
f354a5d8SGatien Chevalliervoid fdt_fill_device_info(const void *fdt, struct dt_node_info *info,
df45c114SEtienne Carriere			  int node);
876826f3SGabriel Fernandez/*
876826f3SGabriel Fernandez * Read cells from a given property of the given node. Any number of 32-bit
876826f3SGabriel Fernandez * cells of the property can be read. Returns 0 on success, or a negative
876826f3SGabriel Fernandez * FDT error value otherwise.
876826f3SGabriel Fernandez */
f354a5d8SGatien Chevallierint fdt_read_uint32_array(const void *fdt, int node, const char *prop_name,
876826f3SGabriel Fernandez			  uint32_t *array, size_t count);
876826f3SGabriel Fernandez
876826f3SGabriel Fernandez/*
7c3a6b7bSGatien Chevallier * Read one cell from a given multi-value property of the given node.
7c3a6b7bSGatien Chevallier * Returns 0 on success, or a negative FDT error value otherwise.
7c3a6b7bSGatien Chevallier */
7c3a6b7bSGatien Chevallierint fdt_read_uint32_index(const void *fdt, int node, const char *prop_name,
7c3a6b7bSGatien Chevallier			  int index, uint32_t *value);
7c3a6b7bSGatien Chevallier
7c3a6b7bSGatien Chevallier/*
876826f3SGabriel Fernandez * Read one cell from a given property of the given node.
876826f3SGabriel Fernandez * Returns 0 on success, or a negative FDT error value otherwise.
876826f3SGabriel Fernandez */
f354a5d8SGatien Chevallierint fdt_read_uint32(const void *fdt, int node, const char *prop_name,
876826f3SGabriel Fernandez		    uint32_t *value);
876826f3SGabriel Fernandez
876826f3SGabriel Fernandez/*
876826f3SGabriel Fernandez * Read one cell from a property of a cell or default to a given value
876826f3SGabriel Fernandez * Returns the 32bit cell value or @dflt_value on failure.
876826f3SGabriel Fernandez */
f354a5d8SGatien Chevallieruint32_t fdt_read_uint32_default(const void *fdt, int node,
876826f3SGabriel Fernandez				 const char *prop_name, uint32_t dflt_value);
876826f3SGabriel Fernandez
876826f3SGabriel Fernandez/*
07ced948SGatien Chevallier * This function fills reg node info (base & size) with an index.
07ced948SGatien Chevallier *
07ced948SGatien Chevallier * Returns 0 on success and a negative FDT error code on failure.
07ced948SGatien Chevallier */
07ced948SGatien Chevallierint fdt_get_reg_props_by_index(const void *fdt, int node, int index,
07ced948SGatien Chevallier			       paddr_t *base, size_t *size);
07ced948SGatien Chevallier
07ced948SGatien Chevallier/*
07ced948SGatien Chevallier * This function fills reg node info (base & size) with an index found by
07ced948SGatien Chevallier * checking the reg-names node.
07ced948SGatien Chevallier *
07ced948SGatien Chevallier * Returns 0 on success and a negative FDT error code on failure.
07ced948SGatien Chevallier */
07ced948SGatien Chevallierint fdt_get_reg_props_by_name(const void *fdt, int node, const char *name,
07ced948SGatien Chevallier			      paddr_t *base, size_t *size);
07ced948SGatien Chevallier
c5e3e79fSSungbae Yoo/*
c5e3e79fSSungbae Yoo * Returns embedded DTB if present, then external DTB if found,
c5e3e79fSSungbae Yoo * then manifest DTB if found, then NULL.
c5e3e79fSSungbae Yoo */
e6027f48SAlvin Changvoid *get_dt(void);
e6027f48SAlvin Chang
e6027f48SAlvin Chang/*
e6027f48SAlvin Chang * get_secure_dt() - returns secure DTB for drivers
e6027f48SAlvin Chang *
e6027f48SAlvin Chang * Returns device tree that is considered secure for drivers to use.
e6027f48SAlvin Chang *
e6027f48SAlvin Chang * 1. Returns embedded DTB if available,
e6027f48SAlvin Chang * 2. Secure external DTB if available,
c5e3e79fSSungbae Yoo * 3. Manifest DTB if available,
c5e3e79fSSungbae Yoo * 4. If neither then NULL
e6027f48SAlvin Chang */
e6027f48SAlvin Changvoid *get_secure_dt(void);
e6027f48SAlvin Chang
e6027f48SAlvin Chang/* Returns embedded DTB location if present, otherwise NULL */
e6027f48SAlvin Changvoid *get_embedded_dt(void);
e6027f48SAlvin Chang
e6027f48SAlvin Chang/* Returns true if passed DTB is same as Embedded DTB, otherwise false */
e6027f48SAlvin Changstatic inline bool is_embedded_dt(void *fdt)
e6027f48SAlvin Chang{
e6027f48SAlvin Chang	return fdt && fdt == get_embedded_dt();
e6027f48SAlvin Chang}
e6027f48SAlvin Chang
e6027f48SAlvin Chang/* Returns DTB descriptor of the external DTB if present, otherwise NULL */
e6027f48SAlvin Changstruct dt_descriptor *get_external_dt_desc(void);
e6027f48SAlvin Chang
e6027f48SAlvin Chang/*
e6027f48SAlvin Chang * init_external_dt() - Initialize the external DTB located at given address.
e6027f48SAlvin Chang * @phys_dt:	Physical address where the external DTB located.
dcff802bSRaymond Mao * @dt_sz:	Maximum size of the external DTB.
e6027f48SAlvin Chang *
e6027f48SAlvin Chang * Initialize the external DTB.
e6027f48SAlvin Chang *
e6027f48SAlvin Chang * 1. Add MMU mapping of the external DTB,
e6027f48SAlvin Chang * 2. Initialize device tree overlay
e6027f48SAlvin Chang */
dcff802bSRaymond Maovoid init_external_dt(unsigned long phys_dt, size_t dt_sz);
e6027f48SAlvin Chang
e6027f48SAlvin Chang/* Returns external DTB if present, otherwise NULL */
e6027f48SAlvin Changvoid *get_external_dt(void);
e6027f48SAlvin Chang
e6027f48SAlvin Chang/*
e6027f48SAlvin Chang * add_dt_path_subnode() - Add new child node into a parent node.
e6027f48SAlvin Chang * @dt:		Pointer to a device tree descriptor which has DTB.
e6027f48SAlvin Chang * @path:	Path to the parent node.
e6027f48SAlvin Chang * @subnode:	Name of the child node.
e6027f48SAlvin Chang *
0c49b6d6SAlvin Chang * Returns the offset of the child node in DTB on success or a negative libfdt
0c49b6d6SAlvin Chang * error number.
e6027f48SAlvin Chang */
e6027f48SAlvin Changint add_dt_path_subnode(struct dt_descriptor *dt, const char *path,
e6027f48SAlvin Chang			const char *subnode);
e6027f48SAlvin Chang
e6027f48SAlvin Chang/*
e6027f48SAlvin Chang * add_res_mem_dt_node() - Create "reserved-memory" parent and child nodes.
e6027f48SAlvin Chang * @dt:		Pointer to a device tree descriptor which has DTB.
e6027f48SAlvin Chang * @name:	Name of the child node.
e6027f48SAlvin Chang * @pa:		Physical address of specific reserved memory region.
e6027f48SAlvin Chang * @size:	Size of specific reserved memory region.
e6027f48SAlvin Chang *
0c49b6d6SAlvin Chang * Returns 0 if succeeds, otherwise a negative libfdt error number.
e6027f48SAlvin Chang */
e6027f48SAlvin Changint add_res_mem_dt_node(struct dt_descriptor *dt, const char *name,
e6027f48SAlvin Chang			paddr_t pa, size_t size);
e6027f48SAlvin Chang
4bc2c5f0SSungbae Yoo/*
4bc2c5f0SSungbae Yoo * init_manifest_dt() - Initialize the manifest DTB to given address.
4bc2c5f0SSungbae Yoo * @fdt:	Physical address where the manifest DTB located.
*414123aeSJens Wiklander * @max_size:	Maximum size of the DTB
4bc2c5f0SSungbae Yoo *
4bc2c5f0SSungbae Yoo * Initialize the manifest DTB to physical address
4bc2c5f0SSungbae Yoo */
*414123aeSJens Wiklandervoid init_manifest_dt(void *fdt, size_t max_size);
4bc2c5f0SSungbae Yoo
4bc2c5f0SSungbae Yoo/*
4bc2c5f0SSungbae Yoo * reinit_manifest_dt() - Reinitialize the manifest DTB
4bc2c5f0SSungbae Yoo *
*414123aeSJens Wiklander * Reserve used physical memory, add MMU mapping of the manifest DTB, and
*414123aeSJens Wiklander * initialize device tree overlay
4bc2c5f0SSungbae Yoo */
4bc2c5f0SSungbae Yoovoid reinit_manifest_dt(void);
4bc2c5f0SSungbae Yoo
4bc2c5f0SSungbae Yoo/* Returns TOS_FW_CONFIG DTB or SP manifest DTB if present, otherwise NULL */
4bc2c5f0SSungbae Yoovoid *get_manifest_dt(void);
4bc2c5f0SSungbae Yoo
9fe4c797SJerome Forissier#else /* !CFG_DT */
a4f139d7SJerome Forissier
a4f139d7SJerome Forissierstatic inline const struct dt_driver *dt_find_compatible_driver(
a4f139d7SJerome Forissier					const void *fdt __unused,
a4f139d7SJerome Forissier					int offs __unused)
a4f139d7SJerome Forissier{
a4f139d7SJerome Forissier	return NULL;
a4f139d7SJerome Forissier}
a4f139d7SJerome Forissier
7ba16abbSJerome Forissierstatic inline int dt_map_dev(const void *fdt __unused, int offs __unused,
a5d5bbc8SVesa Jääskeläinen			     vaddr_t *vbase __unused, size_t *size __unused,
a5d5bbc8SVesa Jääskeläinen			     enum dt_map_dev_directive mapping __unused)
7ba16abbSJerome Forissier{
7ba16abbSJerome Forissier	return -1;
7ba16abbSJerome Forissier}
7ba16abbSJerome Forissier
f354a5d8SGatien Chevallierstatic inline paddr_t fdt_reg_base_address(const void *fdt __unused,
9fe4c797SJerome Forissier					   int offs __unused)
9fe4c797SJerome Forissier{
9fe4c797SJerome Forissier	return (paddr_t)-1;
9fe4c797SJerome Forissier}
9fe4c797SJerome Forissier
f354a5d8SGatien Chevallierstatic inline size_t fdt_reg_size(const void *fdt __unused,
9fe4c797SJerome Forissier				  int offs __unused)
9fe4c797SJerome Forissier{
df7cecc0SLionel Debieve	return (size_t)-1;
9fe4c797SJerome Forissier}
9fe4c797SJerome Forissier
de56c16dSEtienne Carrierestatic inline int fdt_reg_info(const void *fdt __unused, int offs __unused,
de56c16dSEtienne Carriere			       paddr_t *base __unused, size_t *size __unused)
de56c16dSEtienne Carriere{
de56c16dSEtienne Carriere	return -1;
de56c16dSEtienne Carriere}
de56c16dSEtienne Carriere
f354a5d8SGatien Chevallierstatic inline int fdt_get_status(const void *fdt __unused, int offs __unused)
9fe4c797SJerome Forissier{
9fe4c797SJerome Forissier	return -1;
9fe4c797SJerome Forissier}
9fe4c797SJerome Forissier
1e866588SJerome Forissier__noreturn
f354a5d8SGatien Chevallierstatic inline void fdt_fill_device_info(const void *fdt __unused,
c0cfb36cSEtienne Carriere					struct dt_node_info *info __unused,
c0cfb36cSEtienne Carriere					int node __unused)
c0cfb36cSEtienne Carriere{
c0cfb36cSEtienne Carriere	panic();
c0cfb36cSEtienne Carriere}
876826f3SGabriel Fernandez
f354a5d8SGatien Chevallierstatic inline int fdt_read_uint32_array(const void *fdt __unused,
876826f3SGabriel Fernandez					int node __unused,
876826f3SGabriel Fernandez					const char *prop_name __unused,
876826f3SGabriel Fernandez					uint32_t *array __unused,
876826f3SGabriel Fernandez					size_t count __unused)
876826f3SGabriel Fernandez{
876826f3SGabriel Fernandez	return -1;
876826f3SGabriel Fernandez}
876826f3SGabriel Fernandez
f354a5d8SGatien Chevallierstatic inline int fdt_read_uint32(const void *fdt __unused,
876826f3SGabriel Fernandez				  int node __unused,
876826f3SGabriel Fernandez				  const char *prop_name __unused,
876826f3SGabriel Fernandez				  uint32_t *value __unused)
876826f3SGabriel Fernandez{
876826f3SGabriel Fernandez	return -1;
876826f3SGabriel Fernandez}
876826f3SGabriel Fernandez
f354a5d8SGatien Chevallierstatic inline uint32_t fdt_read_uint32_default(const void *fdt __unused,
876826f3SGabriel Fernandez					       int node __unused,
876826f3SGabriel Fernandez					       const char *prop_name __unused,
876826f3SGabriel Fernandez					       uint32_t dflt_value __unused)
876826f3SGabriel Fernandez{
876826f3SGabriel Fernandez	return dflt_value;
876826f3SGabriel Fernandez}
876826f3SGabriel Fernandez
7c3a6b7bSGatien Chevallierstatic inline int fdt_read_uint32_index(const void *fdt __unused,
7c3a6b7bSGatien Chevallier					int node __unused,
7c3a6b7bSGatien Chevallier					const char *prop_name __unused,
7c3a6b7bSGatien Chevallier					int index __unused,
7c3a6b7bSGatien Chevallier					uint32_t *value __unused)
7c3a6b7bSGatien Chevallier{
7c3a6b7bSGatien Chevallier	return -1;
7c3a6b7bSGatien Chevallier}
7c3a6b7bSGatien Chevallier
07ced948SGatien Chevallierstatic inline int fdt_get_reg_props_by_index(const void *fdt __unused,
07ced948SGatien Chevallier					     int node __unused,
07ced948SGatien Chevallier					     int index __unused,
07ced948SGatien Chevallier					     paddr_t *base __unused,
07ced948SGatien Chevallier					     size_t *size __unused)
07ced948SGatien Chevallier{
07ced948SGatien Chevallier	return -1;
07ced948SGatien Chevallier}
07ced948SGatien Chevallier
07ced948SGatien Chevallierstatic inline int fdt_get_reg_props_by_name(const void *fdt __unused,
07ced948SGatien Chevallier					    int node __unused,
07ced948SGatien Chevallier					    const char *name __unused,
07ced948SGatien Chevallier					    paddr_t *base __unused,
07ced948SGatien Chevallier					    size_t *size __unused)
07ced948SGatien Chevallier{
07ced948SGatien Chevallier	return -1;
07ced948SGatien Chevallier}
07ced948SGatien Chevallier
5a982d0eSJens Wiklanderstatic inline int dt_getprop_as_number(const void *fdt __unused,
5a982d0eSJens Wiklander				       int nodeoffset __unused,
5a982d0eSJens Wiklander				       const char *name __unused,
5a982d0eSJens Wiklander				       uint64_t *num __unused)
5a982d0eSJens Wiklander{
5a982d0eSJens Wiklander	return -1;
5a982d0eSJens Wiklander}
5a982d0eSJens Wiklander
e6027f48SAlvin Changstatic inline void *get_dt(void)
e6027f48SAlvin Chang{
e6027f48SAlvin Chang	return NULL;
e6027f48SAlvin Chang}
e6027f48SAlvin Chang
e6027f48SAlvin Changstatic inline void *get_secure_dt(void)
e6027f48SAlvin Chang{
e6027f48SAlvin Chang	return NULL;
e6027f48SAlvin Chang}
e6027f48SAlvin Chang
e6027f48SAlvin Changstatic inline void *get_embedded_dt(void)
e6027f48SAlvin Chang{
e6027f48SAlvin Chang	return NULL;
e6027f48SAlvin Chang}
e6027f48SAlvin Chang
e6027f48SAlvin Changstatic inline bool is_embedded_dt(void *fdt __unused)
e6027f48SAlvin Chang{
e6027f48SAlvin Chang	return false;
e6027f48SAlvin Chang}
e6027f48SAlvin Chang
e6027f48SAlvin Changstatic inline struct dt_descriptor *get_external_dt_desc(void)
e6027f48SAlvin Chang{
e6027f48SAlvin Chang	return NULL;
e6027f48SAlvin Chang}
e6027f48SAlvin Chang
dcff802bSRaymond Maostatic inline void init_external_dt(unsigned long phys_dt __unused,
dcff802bSRaymond Mao				    size_t dt_sz __unused)
e6027f48SAlvin Chang{
e6027f48SAlvin Chang}
e6027f48SAlvin Chang
e6027f48SAlvin Changstatic inline void *get_external_dt(void)
e6027f48SAlvin Chang{
e6027f48SAlvin Chang	return NULL;
e6027f48SAlvin Chang}
e6027f48SAlvin Chang
e6027f48SAlvin Changstatic inline int add_dt_path_subnode(struct dt_descriptor *dt __unused,
e6027f48SAlvin Chang				      const char *path __unused,
e6027f48SAlvin Chang				      const char *subnode __unused)
e6027f48SAlvin Chang{
e6027f48SAlvin Chang	return -1;
e6027f48SAlvin Chang}
e6027f48SAlvin Chang
e6027f48SAlvin Changstatic inline int add_res_mem_dt_node(struct dt_descriptor *dt __unused,
e6027f48SAlvin Chang				      const char *name __unused,
e6027f48SAlvin Chang				      paddr_t pa __unused,
e6027f48SAlvin Chang				      size_t size __unused)
e6027f48SAlvin Chang{
e6027f48SAlvin Chang	return -1;
e6027f48SAlvin Chang}
e6027f48SAlvin Chang
*414123aeSJens Wiklanderstatic inline void init_manifest_dt(void *fdt __unused,
*414123aeSJens Wiklander				    size_t max_size __unused)
4bc2c5f0SSungbae Yoo{
4bc2c5f0SSungbae Yoo}
4bc2c5f0SSungbae Yoo
4bc2c5f0SSungbae Yoostatic inline void reinit_manifest_dt(void)
4bc2c5f0SSungbae Yoo{
4bc2c5f0SSungbae Yoo}
4bc2c5f0SSungbae Yoo
4bc2c5f0SSungbae Yoostatic inline void *get_manifest_dt(void)
4bc2c5f0SSungbae Yoo{
4bc2c5f0SSungbae Yoo	return NULL;
4bc2c5f0SSungbae Yoo}
4bc2c5f0SSungbae Yoo
a4f139d7SJerome Forissier#endif /* !CFG_DT */
578bc4feSEtienne Carriere
578bc4feSEtienne Carriere#ifdef CFG_DT_CACHED_NODE_INFO
578bc4feSEtienne Carriere/*
578bc4feSEtienne Carriere * Find the offset of a parent node in the parent node cache
578bc4feSEtienne Carriere * @fdt: FDT to work on
578bc4feSEtienne Carriere * @node_offset: Offset of the node we look for its parent
578bc4feSEtienne Carriere * @parent_offset: Output parent node offset upon success
578bc4feSEtienne Carriere * @return 0 on success and -1 on failure
578bc4feSEtienne Carriere */
578bc4feSEtienne Carriereint fdt_find_cached_parent_node(const void *fdt, int node_offset,
578bc4feSEtienne Carriere				int *parent_offset);
578bc4feSEtienne Carriere
578bc4feSEtienne Carriere/*
578bc4feSEtienne Carriere * Find the address/size cells value of a parent node in the parent node cache
578bc4feSEtienne Carriere * @fdt: FDT to work on
578bc4feSEtienne Carriere * @node_offset: Offset of the node we look for its parent
578bc4feSEtienne Carriere * @address_cells: Pointer to output #address-cells value upon success or NULL
578bc4feSEtienne Carriere * @size_cells: Pointer to output #size-cells value upon success or NULL
578bc4feSEtienne Carriere * @return 0 on success and -FDT_ERR_NOTFOUND on failure
578bc4feSEtienne Carriere */
578bc4feSEtienne Carriereint fdt_find_cached_parent_reg_cells(const void *fdt, int node_offset,
578bc4feSEtienne Carriere				     int *address_cells, int *size_cells);
578bc4feSEtienne Carriere/*
578bc4feSEtienne Carriere * Find the node offset from its phandle in the phandle cache
578bc4feSEtienne Carriere * @fdt: FDT to work on
578bc4feSEtienne Carriere * @phandle: Node phandle
578bc4feSEtienne Carriere * @node_offset: Pointer to output node offset upon success
578bc4feSEtienne Carriere * @return 0 on success and -FDT_ERR_NOTFOUND on failure
578bc4feSEtienne Carriere */
578bc4feSEtienne Carriereint fdt_find_cached_node_phandle(const void *fdt, uint32_t phandle,
578bc4feSEtienne Carriere				 int *node_offset);
578bc4feSEtienne Carriere#else
578bc4feSEtienne Carrierestatic inline int fdt_find_cached_parent_node(const void *fdt __unused,
578bc4feSEtienne Carriere					      int node_offset __unused,
578bc4feSEtienne Carriere					      int *parent_offset __unused)
578bc4feSEtienne Carriere{
578bc4feSEtienne Carriere	return -1;
578bc4feSEtienne Carriere}
578bc4feSEtienne Carriere
578bc4feSEtienne Carrierestatic inline int fdt_find_cached_parent_reg_cells(const void *fdt __unused,
578bc4feSEtienne Carriere						   int node_offset __unused,
578bc4feSEtienne Carriere						   int *address_cells __unused,
578bc4feSEtienne Carriere						   int *size_cells __unused)
578bc4feSEtienne Carriere{
578bc4feSEtienne Carriere	return -1;
578bc4feSEtienne Carriere}
578bc4feSEtienne Carriere
578bc4feSEtienne Carrierestatic inline int fdt_find_cached_node_phandle(const void *fdt __unused,
578bc4feSEtienne Carriere					       uint32_t phandle __unused,
578bc4feSEtienne Carriere					       int *node_offset __unused)
578bc4feSEtienne Carriere{
578bc4feSEtienne Carriere	return -1;
578bc4feSEtienne Carriere}
578bc4feSEtienne Carriere#endif /* CFG_DT_CACHED_NODE_INFO */
d50fee03SEtienne Carriere#endif /* __KERNEL_DT_H */