/* * radtree -- generic radix tree for binary strings. * * Copyright (c) 2010, NLnet Labs. See LICENSE for license. */ #ifndef RADTREE_H #define RADTREE_H struct radnode; struct region; /** length of the binary string */ typedef uint16_t radstrlen_type; /** * The radix tree * * The elements are stored based on binary strings(0-255) of a given length. * They are sorted, a prefix is sorted before its suffixes. * If you want to know the key string, you should store it yourself, the * tree stores it in the parts necessary for lookup. * For binary strings for domain names see the radname routines. */ struct radtree { /** root node in tree */ struct radnode* root; /** count of number of elements */ size_t count; /** region for allocation */ struct region* region; }; /** * A radix tree lookup node. * The array is malloced separately from the radnode. */ struct radnode { /** data element associated with the binary string up to this node */ void* elem; /** parent node (NULL for the root) */ struct radnode* parent; /** index in the parent lookup array */ uint8_t pidx; /** offset of the lookup array, add to [i] for lookups */ uint8_t offset; /** length of the lookup array */ uint16_t len; /** capacity of the lookup array (can be larger than length) */ uint16_t capacity; /** the lookup array by [byte-offset] */ struct radsel* array; }; /** * radix select edge in array */ struct radsel { /** additional string after the selection-byte for this edge. */ uint8_t* str; /** length of the additional string for this edge */ radstrlen_type len; /** node that deals with byte+str */ struct radnode* node; }; /** * Create new radix tree * @param region: where to allocate the tree. * @return new tree or NULL on alloc failure. */ struct radtree* radix_tree_create(struct region* region); /** * Init new radix tree. * @param rt: radix tree to be initialized. */ void radix_tree_init(struct radtree* rt); /** * Delete intermediate nodes from radix tree * @param rt: radix tree to be initialized. */ void radix_tree_clear(struct radtree* rt); /** * Delete radix tree. * @param rt: radix tree to be deleted. */ void radix_tree_delete(struct radtree* rt); /** * Insert element into radix tree. * @param rt: the radix tree. * @param key: key string. * @param len: length of key. * @param elem: pointer to element data. * @return NULL on failure - out of memory. * NULL on failure - duplicate entry. * On success the new radix node for this element. */ struct radnode* radix_insert(struct radtree* rt, uint8_t* k, radstrlen_type len, void* elem); /** * Delete element from radix tree. * @param rt: the radix tree. * @param n: radix node for that element. * if NULL, nothing is deleted. */ void radix_delete(struct radtree* rt, struct radnode* n); /** * Find radix element in tree. * @param rt: the radix tree. * @param key: key string. * @param len: length of key. * @return the radix node or NULL if not found. */ struct radnode* radix_search(struct radtree* rt, uint8_t* k, radstrlen_type len); /** * Find radix element in tree, and if not found, find the closest smaller or * equal element in the tree. * @param rt: the radix tree. * @param key: key string. * @param len: length of key. * @param result: returns the radix node or closest match (NULL if key is * smaller than the smallest key in the tree). * @return true if exact match, false if no match. */ int radix_find_less_equal(struct radtree* rt, uint8_t* k, radstrlen_type len, struct radnode** result); /** * Return the first (smallest) element in the tree. * @param rt: the radix tree. * @return: first node or NULL if none. */ struct radnode* radix_first(struct radtree* rt); /** * Return the last (largest) element in the tree. * @param rt: the radix tree. * @return: last node or NULL if none. */ struct radnode* radix_last(struct radtree* rt); /** * Return the next element. * @param n: the element to go from. * @return: next node or NULL if none. */ struct radnode* radix_next(struct radnode* n); /** * Return the previous element. * @param n: the element to go from. * @return: prev node or NULL if none. */ struct radnode* radix_prev(struct radnode* n); /* * Perform a walk through all elements of the tree. * node: variable of type struct radnode*. * tree: pointer to the tree. * for(node=radix_first(tree); node; node=radix_next(node)) */ /** * Create a binary string to represent a domain name * @param k: string buffer to store into * @param len: output length, initially, the max, output the result. * @param dname: the domain name to convert, in wireformat. * @param dlen: length of space for dname. */ void radname_d2r(uint8_t* k, radstrlen_type* len, const uint8_t* dname, size_t dlen); /** * Convert a binary string back to a domain name. * @param k: the binary string. * @param len: length of k. * @param dname: buffer to store domain name into. * @param dlen: length of dname (including root label). */ void radname_r2d(uint8_t* k, radstrlen_type len, uint8_t* dname, size_t* dlen); /** * Search the radix tree using a domain name. * The name is internally converted to a radname. * @param rt: tree * @param d: domain name, no compression pointers allowed. * @param max: max length to go from d. * @return NULL on parse error or if not found. */ struct radnode* radname_search(struct radtree* rt, const uint8_t* d, size_t max); /** * Find radix element in tree by domain name, and if not found, * find the closest smaller or equal element in the tree. * The name is internally converted to a radname (same sorting order). * @param rt: the radix tree. * @param d: domain name, no compression pointers allowed. * @param max: max length to go from d. * @param result: returns the radix node or closest match (NULL if key is * smaller than the smallest key in the tree). * could result in NULL on a parse error as well (with return false). * @return true if exact match, false if no match. */ int radname_find_less_equal(struct radtree* rt, const uint8_t* d, size_t max, struct radnode** result); /** * Insert radix element by domain name. * @param rt: the radix tree * @param d: domain name, no compression pointers. * @param max: max length from d. * @param elem: the element pointer to insert. * @return NULL on failure - out of memory. * NULL on failure - duplicate entry. * NULL on failure - parse error. * On success the radix node for this element. */ struct radnode* radname_insert(struct radtree* rt, const uint8_t* d, size_t max, void* elem); /** * Delete element by domain name from radix tree. * @param rt: the radix tree. * @param d: the domain name. If it is not in the tree nothing happens. * @param max: max length. */ void radname_delete(struct radtree* rt, const uint8_t* d, size_t max); /** number of bytes in common in strings */ radstrlen_type bstr_common_ext(uint8_t* x, radstrlen_type xlen, uint8_t* y, radstrlen_type ylen); /** true if one is prefix of the other */ int bstr_is_prefix_ext(uint8_t* p, radstrlen_type plen, uint8_t* x, radstrlen_type xlen); #endif /* RADTREE_H */