util/cbfstool/fmd.h - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 /* parser frontend and utility functions for flashmap descriptor language */
 /* SPDX-License-Identifier: GPL-2.0-only */

 #ifndef FMD_H_
 #define FMD_H_

 #include <limits.h>
 #include <stdbool.h>
 #include <stddef.h>
 #include <stdio.h>

 #define FMD_NOTFOUND UINT_MAX

 /**
  * Flags used by flashmap_descriptor.
  * These flags can be set by adding (NAME) after description name.
  * For example, declaring a CBFS section named as COREBOOT for 16k:
  *   COREBOOT(CBFS) 16k
  */
 union flashmap_flags {
 	struct {
 		unsigned int cbfs: 1;  /* The section contains a CBFS area. */
 		unsigned int preserve: 1;  /* Preserve the section before update. */
 	} f;
 	int v;
 };

 struct flashmap_descriptor {
 	char *name;
 	bool offset_known;
 	/**
 	 * Offset relative to that of the parent node.
 	 * Exception: for the root node in the descriptor tree, it is optional.
 	 * In this case, if absent, it indicates that the flash chip will not be
 	 * memory mapped at runtime; otherwise, its value indicates the base
 	 * address of the flash chip in the virtual address space rather than
 	 * representing an offset into the flash image itself.
 	 * It is an error to read this field unless offset_known is set.
 	 */
 	unsigned offset;
 	bool size_known;
 	/** It is an error to read this field unless size_known is set. */
 	unsigned size;
 	size_t list_len;
 	union flashmap_flags flags;
 	/** It is an error to dereference this array if list_len is 0. */
 	struct flashmap_descriptor **list;
 };

 /**
  * **Client-defined** callback for flag "CBFS".
  * This call is used to notify client code that the user has requested the given
  * section node to be flagged with "CBFS". Implementations of this function
  * should use their return type to tell the compiler whether the flag can be
  * applied and can perform whatever actions are necessary.
  * It's worth reiterating that this is only called on section nodes, and will
  * never be called with the final, complete flashmap_descriptor because
  * it is impossible to set flags for the image as a whole.
  *
  * @param flashmap_descriptor The section node with flag set
  * @return                    Whether this flag can be applied
  */
 bool fmd_process_flag_cbfs(const struct flashmap_descriptor *node);

 /**
  * Parse and validate a flashmap descriptor from the specified stream.
  * As part of this process, any fields that were omitted in the input are
  * inferred from whatever information is known, if possible. The result is a
  * tree with all its offset and size fields filled, except possibly the former
  * part of the root node in the case of non--memory mapped flash. If a syntax
  * error causes the parser to fail, or if there is not enough information given
  * in the input file to determine any single missing value, the specific error
  * is reported to standard error and this function returns NULL.
  *
  * @param stream File from which to read the (partial) flashmap descriptor
  * @return       Populated flashmap descriptor tree, or NULL on failure
  */
 struct flashmap_descriptor *fmd_create(FILE *stream);

 /** @param victim Valid descriptor tree to be cleaned up, or NULL for no-op */
 void fmd_cleanup(struct flashmap_descriptor *victim);

 /**
  * @param tree Must be non-NULL
  * @return     The number of nodes in the tree, including the root
  */
 size_t fmd_count_nodes(const struct flashmap_descriptor *tree);

 /**
  * @param root The flashmap descriptor to search
  * @param name The name of the sought-after section
  * @return     The desired section node, or NULL if none was found
  */
 const struct flashmap_descriptor *fmd_find_node(
 		const struct flashmap_descriptor *root, const char *name);

 /**
  * @param root Parent node to whose start the "absolute" offset will be relative
  * @param name The name of the node whose offset to determine
  * @return     The "absolute" offset, or FMD_NOTFOUND if the node wasn't found
  */
 unsigned fmd_calc_absolute_offset(const struct flashmap_descriptor *root,
 							const char *name);

 /** @param tree Must be non-NULL */
 void fmd_print(const struct flashmap_descriptor *tree);

 typedef struct flashmap_descriptor **flashmap_descriptor_iterator_t;

 /*
  * Run the subsequent statement once on each descendant of the specified node.
  *
  * @param iterator A flashmap_descriptor_iterator_t (automatically declared)
  * @param parent   The parent node of those over which the loop should iterate
  */
 #define fmd_foreach_child_iterator(iterator, parent) \
 	for (flashmap_descriptor_iterator_t iterator = parent->list; \
 		iterator < parent->list + parent->list_len; ++iterator)

 /*
  * Run the subsequent statement once on each descendant of the specified node.
  *
  * @param child  A struct flashmap_descriptor * (automatically declared)
  * @param parent The parent node of those over which the loop should iterate
  */
 #define fmd_foreach_child(child, parent) \
 	for (struct flashmap_descriptor **fmd_foreach_child_iterator_ = \
 						parent->list, *child = NULL; \
 						fmd_foreach_child_iterator_ < \
 					parent->list + parent->list_len && \
 				(child = *fmd_foreach_child_iterator_); \
 						++fmd_foreach_child_iterator_)

 #endif
	/* parser frontend and utility functions for flashmap descriptor language */
	/* SPDX-License-Identifier: GPL-2.0-only */

	#ifndef FMD_H_
	#define FMD_H_

	#include <limits.h>
	#include <stdbool.h>
	#include <stddef.h>
	#include <stdio.h>

	#define FMD_NOTFOUND UINT_MAX

	/**
	* Flags used by flashmap_descriptor.
	* These flags can be set by adding (NAME) after description name.
	* For example, declaring a CBFS section named as COREBOOT for 16k:
	* COREBOOT(CBFS) 16k
	*/
	union flashmap_flags {
	struct {
	unsigned int cbfs: 1; /* The section contains a CBFS area. */
	unsigned int preserve: 1; /* Preserve the section before update. */
	} f;
	int v;
	};

	struct flashmap_descriptor {
	char *name;
	bool offset_known;
	/**
	* Offset relative to that of the parent node.
	* Exception: for the root node in the descriptor tree, it is optional.
	* In this case, if absent, it indicates that the flash chip will not be
	* memory mapped at runtime; otherwise, its value indicates the base
	* address of the flash chip in the virtual address space rather than
	* representing an offset into the flash image itself.
	* It is an error to read this field unless offset_known is set.
	*/
	unsigned offset;
	bool size_known;
	/** It is an error to read this field unless size_known is set. */
	unsigned size;
	size_t list_len;
	union flashmap_flags flags;
	/** It is an error to dereference this array if list_len is 0. */
	struct flashmap_descriptor **list;
	};

	/**
	* Client-defined callback for flag "CBFS".
	* This call is used to notify client code that the user has requested the given
	* section node to be flagged with "CBFS". Implementations of this function
	* should use their return type to tell the compiler whether the flag can be
	* applied and can perform whatever actions are necessary.
	* It's worth reiterating that this is only called on section nodes, and will
	* never be called with the final, complete flashmap_descriptor because
	* it is impossible to set flags for the image as a whole.
	*
	* @param flashmap_descriptor The section node with flag set
	* @return Whether this flag can be applied
	*/
	bool fmd_process_flag_cbfs(const struct flashmap_descriptor *node);

	/**
	* Parse and validate a flashmap descriptor from the specified stream.
	* As part of this process, any fields that were omitted in the input are
	* inferred from whatever information is known, if possible. The result is a
	* tree with all its offset and size fields filled, except possibly the former
	* part of the root node in the case of non--memory mapped flash. If a syntax
	* error causes the parser to fail, or if there is not enough information given
	* in the input file to determine any single missing value, the specific error
	* is reported to standard error and this function returns NULL.
	*
	* @param stream File from which to read the (partial) flashmap descriptor
	* @return Populated flashmap descriptor tree, or NULL on failure
	*/
	struct flashmap_descriptor fmd_create(FILE stream);

	/** @param victim Valid descriptor tree to be cleaned up, or NULL for no-op */
	void fmd_cleanup(struct flashmap_descriptor *victim);

	/**
	* @param tree Must be non-NULL
	* @return The number of nodes in the tree, including the root
	*/
	size_t fmd_count_nodes(const struct flashmap_descriptor *tree);

	/**
	* @param root The flashmap descriptor to search
	* @param name The name of the sought-after section
	* @return The desired section node, or NULL if none was found
	*/
	const struct flashmap_descriptor *fmd_find_node(
	const struct flashmap_descriptor root, const char name);

	/**
	* @param root Parent node to whose start the "absolute" offset will be relative
	* @param name The name of the node whose offset to determine
	* @return The "absolute" offset, or FMD_NOTFOUND if the node wasn't found
	*/
	unsigned fmd_calc_absolute_offset(const struct flashmap_descriptor *root,
	const char *name);

	/** @param tree Must be non-NULL */
	void fmd_print(const struct flashmap_descriptor *tree);

	typedef struct flashmap_descriptor **flashmap_descriptor_iterator_t;

	/*
	* Run the subsequent statement once on each descendant of the specified node.
	*
	* @param iterator A flashmap_descriptor_iterator_t (automatically declared)
	* @param parent The parent node of those over which the loop should iterate
	*/
	#define fmd_foreach_child_iterator(iterator, parent) \
	for (flashmap_descriptor_iterator_t iterator = parent->list; \
	iterator < parent->list + parent->list_len; ++iterator)

	/*
	* Run the subsequent statement once on each descendant of the specified node.
	*
	* @param child A struct flashmap_descriptor * (automatically declared)
	* @param parent The parent node of those over which the loop should iterate
	*/
	#define fmd_foreach_child(child, parent) \
	for (struct flashmap_descriptor **fmd_foreach_child_iterator_ = \
	parent->list, *child = NULL; \
	fmd_foreach_child_iterator_ < \
	parent->list + parent->list_len && \
	(child = *fmd_foreach_child_iterator_); \
	++fmd_foreach_child_iterator_)

	#endif