include/libufdt.h - platform/system/libufdt - Git at Google

 /*
  * Copyright (C) 2016 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef LIBUFDT_H
 #define LIBUFDT_H

 #include "libufdt_sysdeps.h"
 #include "ufdt_types.h"

 /*
  * BEGIN of ufdt_node methods
  */

 /*
  * Allocates spaces for new ufdt_node who represents a fdt node at fdt_tag_ptr.
  * In order to get name pointer, it's necessary to give the pointer to the
  * entire fdt it belongs to.
  *
  *
  * @return: a pointer to the newly created ufdt_node or
  *          NULL if dto_malloc failed
  */
 struct ufdt_node *ufdt_node_construct(void *fdtp, fdt32_t *fdt_tag_ptr,
                                       struct ufdt_node_pool *pool);

 /*
  * Frees all nodes in the subtree rooted at *node.
  */
 void ufdt_node_destruct(struct ufdt_node *node, struct ufdt_node_pool *pool);

 /*
  * Adds the child as a subnode of the parent.
  * It's been done by add entries in parent->prop_list or node_list depending on
  * the tag type of child.
  *
  * @return: 0 if success
  *          < 0 otherwise
  *
  * @Time: O(1) w.h.p.
  */
 int ufdt_node_add_child(struct ufdt_node *parent, struct ufdt_node *child);

 /* BEGIN of FDT_PROP related functions .*/

 /*
  * Gets pointer to FDT_PROP subnode of node with name equals to name[0..len-1]
  *
  * @return: a pointer to the subnode or
  *          NULL if no such subnode.
  *
  * @Time: O(len = length of name) w.h.p.
  */
 struct ufdt_node *ufdt_node_get_property_by_name_len(
     const struct ufdt_node *node, const char *name, int len);
 struct ufdt_node *ufdt_node_get_property_by_name(const struct ufdt_node *node,
                                                  const char *name);

 /*
  * Gets the pointer to the FDT_PROP node's data in the corresponding fdt.
  * Also writes the length of such data to *out_len if out_len is not NULL.
  *
  * @return: a pointer to some data located in fdt or
  *          NULL if *node is not a FDT_PROP
  */
 char *ufdt_node_get_fdt_prop_data(const struct ufdt_node *node, int *out_len);

 /*
  * Gets pointer to FDT_PROP node's data in fdt with name equals to
  * name[0..len-1], which is a subnode of *node.
  * It's actually a composition of ufdt_node_get_property_by_name and
  * ufdt_node_get_fdt_prop_data
  *
  * @return: a pointer to some data located in fdt or
  *          NULL if no such subnode.
  *
  * @Time: O(len = length of name) w.h.p.
  */
 char *ufdt_node_get_fdt_prop_data_by_name_len(const struct ufdt_node *node,
                                               const char *name, int len,
                                               int *out_len);
 char *ufdt_node_get_fdt_prop_data_by_name(const struct ufdt_node *node,
                                           const char *name, int *out_len);

 /* END of FDT_PROP related functions .*/

 /*
  * Gets pointer to FDT_BEGIN_NODE subnode of node with name equals to
  * name[0..len-1].
  *
  * @return: a pointer to the subnode or
  *          NULL if no such subnode.
  *
  * @Time: O(len = length of name) w.h.p.
  */

 struct ufdt_node *ufdt_node_get_subnode_by_name_len(const struct ufdt_node *node,
                                                     const char *name, int len);
 struct ufdt_node *ufdt_node_get_subnode_by_name(const struct ufdt_node *node,
                                                 const char *name);

 /*
  * Gets the pointer to FDT_NODE node whose relative path to *node is
  * path[0..len-1].
  * Note that the relative path doesn't support parent node like:
  * "../path/to/node".
  *
  * @return: a pointer to the node or
  *          NULL if no such node.
  *
  * @Time: O(len = length of path) w.h.p.
  */
 struct ufdt_node *ufdt_node_get_node_by_path_len(const struct ufdt_node *node,
                                                  const char *path, int len);
 struct ufdt_node *ufdt_node_get_node_by_path(const struct ufdt_node *node,
                                              const char *path);

 /*
  * Gets the phandle value of the node if it has.
  *
  * @return: phandle value of that node or
  *          0 if *node is not FDT_NODE or there's no "phandle"/"linux,phandle"
  *          property.
  *
  * @Time: O(1) w.h.p.
  */
 uint32_t ufdt_node_get_phandle(const struct ufdt_node *node);

 /*
  * END of ufdt_node methods
  */

 /*
  * BEGIN of ufdt methods.
  */

 /*
  * Constructs a ufdt whose base fdt is fdtp.
  * Note that this function doesn't construct the entire tree.
  * To get the whole tree please call `ufdt_from_fdt(fdtp, fdt_size)`
  *
  * @return: an empty ufdt with base fdtp = fdtp
  */
 struct ufdt *ufdt_construct(void *fdtp, struct ufdt_node_pool *pool);

 /*
  * Frees the space occupied by the ufdt, including all ufdt_nodes
  * with ufdt_static_phandle_table.
  */
 void ufdt_destruct(struct ufdt *tree, struct ufdt_node_pool *pool);

 /*
  * Add a fdt into this ufdt.
  * Note that this function just add the given fdtp into this ufdt,
  * and doesn't create any node.
  *
  * @return: 0 if success.
  */
 int ufdt_add_fdt(struct ufdt *tree, void *fdtp);

 /*
  * Calculate the offset in the string tables of the given string.
  * All string tables will be concatenated in reversed order.
  *
  * @return: The offset is a negative number, base on the end position of
  *          all concatenated string tables
  *          Return 0 if not in any string table.
  */
 int ufdt_get_string_off(const struct ufdt *tree, const char *s);

 /*
  * Gets the pointer to the ufdt_node in tree with phandle = phandle.
  * The function do a binary search in tree->phandle_table.
  *
  * @return: a pointer to the target ufdt_node
  *          NULL if no ufdt_node has phandle = phandle
  *
  * @Time: O(log(# of nodes in tree)) = O(log(size of underlying fdt))
  */
 struct ufdt_node *ufdt_get_node_by_phandle(struct ufdt *tree, uint32_t phandle);

 /*
  * Gets the pointer to the ufdt_node in tree with absolute path =
  * path[0..len-1].
  * Absolute path has form "/path/to/node" or "some_alias/to/node".
  * In later example, some_alias is a property in "/aliases" with data is a path
  * to some node X. Then the funcion will return node with relative
  * path = "to/node" w.r.t. X.
  *
  * @return: a pointer to the target ufdt_node or
  *          NULL if such dnt doesn't exist.
  *
  * @Time: O(len = length of path) w.h.p.
  */
 struct ufdt_node *ufdt_get_node_by_path_len(struct ufdt *tree, const char *path,
                                             int len);
 struct ufdt_node *ufdt_get_node_by_path(struct ufdt *tree, const char *path);

 /*
  * Determines whether node->name equals to name[0..len-1]
  *
  * @return: true if they're equal.
  *          false otherwise
  */
 bool ufdt_node_name_eq(const struct ufdt_node *node, const char *name, int len);

 /*
  * Merges tree_b into tree_a with tree_b has all nodes except root disappeared.
  * Overwrite property in tree_a if there's one with same name in tree_b.
  * Otherwise add the property to tree_a.
  * For subnodes with the same name, recursively run this function.
  *
  * Ex:
  * tree_a : ta {
  *  b = "b";
  *  c = "c";
  *  d {
  *    e = "g";
  *  };
  * };
  *
  * tree_b : tb {
  *  c = "C";
  *  g = "G";
  *  d {
  *    da = "dad";
  *  };
  *  h {
  *    hh = "HH";
  *  };
  * };
  *
  * The resulting trees will be:
  *
  * tree_a : ta {
  *  b = "b";
  *  c = "C";
  *  g = "G";
  *  d {
  *    da = "dad";
  *    e = "g";
  *  };
  *  h {
  *    hh = "HH";
  *  };
  * };
  *
  * tree_b : tb {
  * };
  *
  *
  * @return: 0 if merge success
  *          < 0 otherwise
  *
  * @Time: O(# of nodes in tree_b + total length of all names in tree_b) w.h.p.
  */
 int ufdt_node_merge_into(struct ufdt_node *node_a, struct ufdt_node *node_b,
                          struct ufdt_node_pool *pool);

 /*
  * END of ufdt methods.
  */

 /*
  * BEGIN of ufdt output functions
  */

 /*
  * Builds the ufdt for FDT pointed by fdtp.
  *
  * @return: the ufdt T representing fdtp or
  *          T with T.fdtp == NULL if fdtp is unvalid.
  *
  * @Time: O(fdt_size + nlogn) where n = # of nodes in fdt.
  */
 struct ufdt *ufdt_from_fdt(void *fdtp, size_t fdt_size,
                            struct ufdt_node_pool *pool);

 /*
  * Sequentially dumps the whole ufdt to FDT buffer fdtp with buffer size
  * buf_size.
  *
  * Basically using functions provided by libfdt/fdt_sw.c.
  *
  * @return: 0 if successfully dump or
  *          < 0 otherwise
  *
  * @Time: O(total length of all names + # of nodes in tree)
  */
 int ufdt_to_fdt(const struct ufdt *tree, void *buf, int buf_size);

 /*
  * prints the entire subtree rooted at *node in form:
  * NODE :[node name]:
  *   PROP :[prop name]:
  *   ...
  *   NODE :[subnode1 name]:
  *     ...
  *   NODE :[subnode1 name]:
  *     ...
  *   ...
  * There're (depth * TAB_SIZE) spaces in front of each line.
  */
 void ufdt_node_print(const struct ufdt_node *node, int depth);

 /*
  * It's just ufdt_node_print(tree->root, 0).
  */
 void ufdt_print(struct ufdt *tree);

 /*
  * END of ufdt output functions
  */

 #endif /* LIBUFDT_H */
	/*
	* Copyright (C) 2016 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef LIBUFDT_H
	#define LIBUFDT_H

	#include "libufdt_sysdeps.h"
	#include "ufdt_types.h"

	/*
	* BEGIN of ufdt_node methods
	*/

	/*
	* Allocates spaces for new ufdt_node who represents a fdt node at fdt_tag_ptr.
	* In order to get name pointer, it's necessary to give the pointer to the
	* entire fdt it belongs to.
	*
	*
	* @return: a pointer to the newly created ufdt_node or
	* NULL if dto_malloc failed
	*/
	struct ufdt_node ufdt_node_construct(void fdtp, fdt32_t *fdt_tag_ptr,
	struct ufdt_node_pool *pool);

	/*
	* Frees all nodes in the subtree rooted at *node.
	*/
	void ufdt_node_destruct(struct ufdt_node node, struct ufdt_node_pool pool);

	/*
	* Adds the child as a subnode of the parent.
	* It's been done by add entries in parent->prop_list or node_list depending on
	* the tag type of child.
	*
	* @return: 0 if success
	* < 0 otherwise
	*
	* @Time: O(1) w.h.p.
	*/
	int ufdt_node_add_child(struct ufdt_node parent, struct ufdt_node child);

	/* BEGIN of FDT_PROP related functions .*/

	/*
	* Gets pointer to FDT_PROP subnode of node with name equals to name[0..len-1]
	*
	* @return: a pointer to the subnode or
	* NULL if no such subnode.
	*
	* @Time: O(len = length of name) w.h.p.
	*/
	struct ufdt_node *ufdt_node_get_property_by_name_len(
	const struct ufdt_node node, const char name, int len);
	struct ufdt_node ufdt_node_get_property_by_name(const struct ufdt_node node,
	const char *name);

	/*
	* Gets the pointer to the FDT_PROP node's data in the corresponding fdt.
	* Also writes the length of such data to *out_len if out_len is not NULL.
	*
	* @return: a pointer to some data located in fdt or
	* NULL if *node is not a FDT_PROP
	*/
	char ufdt_node_get_fdt_prop_data(const struct ufdt_node node, int *out_len);

	/*
	* Gets pointer to FDT_PROP node's data in fdt with name equals to
	* name[0..len-1], which is a subnode of *node.
	* It's actually a composition of ufdt_node_get_property_by_name and
	* ufdt_node_get_fdt_prop_data
	*
	* @return: a pointer to some data located in fdt or
	* NULL if no such subnode.
	*
	* @Time: O(len = length of name) w.h.p.
	*/
	char ufdt_node_get_fdt_prop_data_by_name_len(const struct ufdt_node node,
	const char *name, int len,
	int *out_len);
	char ufdt_node_get_fdt_prop_data_by_name(const struct ufdt_node node,
	const char name, int out_len);

	/* END of FDT_PROP related functions .*/

	/*
	* Gets pointer to FDT_BEGIN_NODE subnode of node with name equals to
	* name[0..len-1].
	*
	* @return: a pointer to the subnode or
	* NULL if no such subnode.
	*
	* @Time: O(len = length of name) w.h.p.
	*/

	struct ufdt_node ufdt_node_get_subnode_by_name_len(const struct ufdt_node node,
	const char *name, int len);
	struct ufdt_node ufdt_node_get_subnode_by_name(const struct ufdt_node node,
	const char *name);

	/*
	* Gets the pointer to FDT_NODE node whose relative path to *node is
	* path[0..len-1].
	* Note that the relative path doesn't support parent node like:
	* "../path/to/node".
	*
	* @return: a pointer to the node or
	* NULL if no such node.
	*
	* @Time: O(len = length of path) w.h.p.
	*/
	struct ufdt_node ufdt_node_get_node_by_path_len(const struct ufdt_node node,
	const char *path, int len);
	struct ufdt_node ufdt_node_get_node_by_path(const struct ufdt_node node,
	const char *path);

	/*
	* Gets the phandle value of the node if it has.
	*
	* @return: phandle value of that node or
	* 0 if *node is not FDT_NODE or there's no "phandle"/"linux,phandle"
	* property.
	*
	* @Time: O(1) w.h.p.
	*/
	uint32_t ufdt_node_get_phandle(const struct ufdt_node *node);

	/*
	* END of ufdt_node methods
	*/

	/*
	* BEGIN of ufdt methods.
	*/

	/*
	* Constructs a ufdt whose base fdt is fdtp.
	* Note that this function doesn't construct the entire tree.
	* To get the whole tree please call `ufdt_from_fdt(fdtp, fdt_size)`
	*
	* @return: an empty ufdt with base fdtp = fdtp
	*/
	struct ufdt ufdt_construct(void fdtp, struct ufdt_node_pool *pool);

	/*
	* Frees the space occupied by the ufdt, including all ufdt_nodes
	* with ufdt_static_phandle_table.
	*/
	void ufdt_destruct(struct ufdt tree, struct ufdt_node_pool pool);

	/*
	* Add a fdt into this ufdt.
	* Note that this function just add the given fdtp into this ufdt,
	* and doesn't create any node.
	*
	* @return: 0 if success.
	*/
	int ufdt_add_fdt(struct ufdt tree, void fdtp);

	/*
	* Calculate the offset in the string tables of the given string.
	* All string tables will be concatenated in reversed order.
	*
	* @return: The offset is a negative number, base on the end position of
	* all concatenated string tables
	* Return 0 if not in any string table.
	*/
	int ufdt_get_string_off(const struct ufdt tree, const char s);

	/*
	* Gets the pointer to the ufdt_node in tree with phandle = phandle.
	* The function do a binary search in tree->phandle_table.
	*
	* @return: a pointer to the target ufdt_node
	* NULL if no ufdt_node has phandle = phandle
	*
	* @Time: O(log(# of nodes in tree)) = O(log(size of underlying fdt))
	*/
	struct ufdt_node ufdt_get_node_by_phandle(struct ufdt tree, uint32_t phandle);

	/*
	* Gets the pointer to the ufdt_node in tree with absolute path =
	* path[0..len-1].
	* Absolute path has form "/path/to/node" or "some_alias/to/node".
	* In later example, some_alias is a property in "/aliases" with data is a path
	* to some node X. Then the funcion will return node with relative
	* path = "to/node" w.r.t. X.
	*
	* @return: a pointer to the target ufdt_node or
	* NULL if such dnt doesn't exist.
	*
	* @Time: O(len = length of path) w.h.p.
	*/
	struct ufdt_node ufdt_get_node_by_path_len(struct ufdt tree, const char *path,
	int len);
	struct ufdt_node ufdt_get_node_by_path(struct ufdt tree, const char *path);

	/*
	* Determines whether node->name equals to name[0..len-1]
	*
	* @return: true if they're equal.
	* false otherwise
	*/
	bool ufdt_node_name_eq(const struct ufdt_node node, const char name, int len);

	/*
	* Merges tree_b into tree_a with tree_b has all nodes except root disappeared.
	* Overwrite property in tree_a if there's one with same name in tree_b.
	* Otherwise add the property to tree_a.
	* For subnodes with the same name, recursively run this function.
	*
	* Ex:
	* tree_a : ta {
	* b = "b";
	* c = "c";
	* d {
	* e = "g";
	* };
	* };
	*
	* tree_b : tb {
	* c = "C";
	* g = "G";
	* d {
	* da = "dad";
	* };
	* h {
	* hh = "HH";
	* };
	* };
	*
	* The resulting trees will be:
	*
	* tree_a : ta {
	* b = "b";
	* c = "C";
	* g = "G";
	* d {
	* da = "dad";
	* e = "g";
	* };
	* h {
	* hh = "HH";
	* };
	* };
	*
	* tree_b : tb {
	* };
	*
	*
	* @return: 0 if merge success
	* < 0 otherwise
	*
	* @Time: O(# of nodes in tree_b + total length of all names in tree_b) w.h.p.
	*/
	int ufdt_node_merge_into(struct ufdt_node node_a, struct ufdt_node node_b,
	struct ufdt_node_pool *pool);

	/*
	* END of ufdt methods.
	*/

	/*
	* BEGIN of ufdt output functions
	*/

	/*
	* Builds the ufdt for FDT pointed by fdtp.
	*
	* @return: the ufdt T representing fdtp or
	* T with T.fdtp == NULL if fdtp is unvalid.
	*
	* @Time: O(fdt_size + nlogn) where n = # of nodes in fdt.
	*/
	struct ufdt ufdt_from_fdt(void fdtp, size_t fdt_size,
	struct ufdt_node_pool *pool);

	/*
	* Sequentially dumps the whole ufdt to FDT buffer fdtp with buffer size
	* buf_size.
	*
	* Basically using functions provided by libfdt/fdt_sw.c.
	*
	* @return: 0 if successfully dump or
	* < 0 otherwise
	*
	* @Time: O(total length of all names + # of nodes in tree)
	*/
	int ufdt_to_fdt(const struct ufdt tree, void buf, int buf_size);

	/*
	* prints the entire subtree rooted at *node in form:
	* NODE :[node name]:
	* PROP :[prop name]:
	* ...
	* NODE :[subnode1 name]:
	* ...
	* NODE :[subnode1 name]:
	* ...
	* ...
	* There're (depth * TAB_SIZE) spaces in front of each line.
	*/
	void ufdt_node_print(const struct ufdt_node *node, int depth);

	/*
	* It's just ufdt_node_print(tree->root, 0).
	*/
	void ufdt_print(struct ufdt *tree);

	/*
	* END of ufdt output functions
	*/

	#endif /* LIBUFDT_H */