kernel_samsung_a34x-permissive/security/samsung/defex_lsm/include/ptree.h
2024-04-28 15:49:01 +02:00

172 lines
5.7 KiB
C
Executable file

/*
* Copyright (c) 2021-2022 Samsung Electronics Co., Ltd. All Rights Reserved
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2
* as published by the Free Software Foundation.
*/
#ifndef __PTREE_H__
/* A "P-tree" is a n-ary search tree whose keys are strings. A p-tree
* node may be associated with data like a string, a byte array or
* an entry point for an additional search (unrelated to the node's
* children).
*
* P-trees are represented in two variants:
* - a "build" data structure with traditional structs and pointers, used for
* building, converting, merging or exporting
* - a "portable" format packed with integer indices instead of pointers,
* stored as a byte array and used (read-only) by target applications.
* In both, all strings are stored at a dictionary and represented in nodes
* by indices, therefore child data have constant size; in addition, child
* lists are sorted, allowing efficient search.
*/
/* Masks for data types. Should any be created, PTREE_DATA_MASK must
* be updated accordingly
*/
#define PTREE_DATA_BYTES 1 /* byte array */
#define PTREE_DATA_STRING 2 /* zero-terminated string */
#define PTREE_DATA_PATH 4 /* subpath */
#define PTREE_DATA_INT1 8 /* byte */
#define PTREE_DATA_INT2 16 /* 2-byte short */
#define PTREE_DATA_INT4 32 /* 4-byte int */
#define PTREE_DATA_BITA 64 /* bit */
/* Bit A is stored directly in the bit below */
#define PTREE_DATA_BITA_MASK 128
#define PTREE_DATA_MASK 255 /* ORs all PTREE_DATA masks */
/* Modifiers for search behavior */
#define PTREE_FIND_CONTINUE 256 /* pptree_find should continue from
* previous result, if any
*/
#define PTREE_FIND_PEEK 512 /* a successful search does not advance
* the context, therefore the next search
* will start from the same point
*/
#define PTREE_FIND_PEEKED 1024 /* go to where a previous search would have
* gone had it not used PTREE_FIND_PEEKED
*/
/* ***************************************************************************
* Declarations needed for _using_ exported P-trees
* ***************************************************************************/
/* Header for portable P-tree. This is not the binary format, rather after
* loading it caches the tree's details.
*/
struct PPTree {
const unsigned char *data;
struct {
int fullSize;
int size;
char indexSize;
const unsigned char *table;
} sTable;
struct {
int fullSize;
int size;
char indexSize;
const unsigned char *table;
} bTable;
struct {
char offsetSize;
char childCountSize;
const unsigned char *root;
} nodes;
char allocated;
};
/* Magic number (fixed portion, plus two version bytes) */
#define PPTREE_MAGIC "PPTree-\1\0"
#define PPTREE_MAGIC_FIXEDSIZE 7
/* Sets a byte array as a p-tree's data. Returns 0 if successful. */
extern int pptree_set_data(struct PPTree *tree, const unsigned char *data);
/* Releases pptree data, if needed */
extern void pptree_free(struct PPTree *tree);
/* Context data for portable p-tree operations, especially searching.
* Used for both input (key data) and output (result's place and data)
* Search starts from root, or,
* if .types is PPTREE_DATA_PATH and there's a subpath, from .value.childPath
* if .types is PPTREE_FIND_CONTINUE, from latest sucessful search
* If .types contains PTREE_DATA_PEEK, context does not advance even if
* search is successful. It will advance (and no search will be done) if next
* search include PTREE_DATA_PEEKED.
*/
struct PPTreeContext {
int types;
struct {
struct {
const unsigned char *bytes;
int length;
} bytearray;
const char *string;
int childPath;
int int1;
int int2;
int int4;
unsigned char bits;
} value;
const unsigned char *last, *lastPeeked;
unsigned int childCount;
};
/* Search for given path. Return 0 if not found, 1 otherwise
* (and fills in *ctx).
* See PPTreeContext for where the search starts.
*/
extern int pptree_find(const struct PPTree *tree,
const char **path, int pathLen,
struct PPTreeContext *ctx);
/* Maximum key length, mostly an arbitrary limit against DoS */
#define PTREE_FINDPATH_MAX 8000
/* Search for a given path.
* Similar to pptree_find, but splits <path> at every occurrence of <delim>
* (unless delim is 0). In kernelspace, returns 0 if <path> length exceeds
* PTREE_FINDPATH_MAX.
*/
extern int pptree_find_path(const struct PPTree *tree, const char *path,
char delim, struct PPTreeContext *ctx);
/* Returns number of children.
* See PPTreeContext for which is the parent node.
*/
extern int pptree_child_count(const struct PPTree *tree,
struct PPTreeContext *ctx);
/* Iterates on immediate children.
* See PPTreeContext for iteration root.
* Executes <f> for all children until <f> returns nonzero. Returns
* last return of <f>.
*/
extern int pptree_iterate_children(const struct PPTree *tree,
struct PPTreeContext *ctx,
int (*f)(const struct PPTree *tree,
const char *name,
const struct PPTreeContext *itemData,
void *data),
void *data);
/* Iterate on subpaths.
* See PPTreeContext for iteration root.
* Executes <f> for all subpaths ending on a leaf, stopping if <f>
* returns nonzero.
* Returns last result of <f>
*/
extern int pptree_iterate_paths(const struct PPTree *tree,
struct PPTreeContext *ctx,
int (*f)(const struct PPTree *tree,
const char **path,
int pathLen, void *data),
const char **path, int maxDepth,
void *data);
/* Dumps to stdout in human-readable format */
extern void pptree_dump(const struct PPTree *tree);
/* Maximum number of bytes for counters (practical reasonable limit) */
#define UPPER_COUNT_SIZE 4
#define __PTREE_H__
#endif