/* * include/haproxy/pattern.h * This file provides structures and types for pattern matching. * * Copyright (C) 2000-2013 Willy Tarreau - w@1wt.eu * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation, version 2.1 * exclusively. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #ifndef _HAPROXY_PATTERN_H #define _HAPROXY_PATTERN_H #include #include #include #include /* pattern management function arrays */ extern const char *const pat_match_names[PAT_MATCH_NUM]; extern int const pat_match_types[PAT_MATCH_NUM]; extern int (*const pat_parse_fcts[PAT_MATCH_NUM])(const char *, struct pattern *, int, char **); extern int (*const pat_index_fcts[PAT_MATCH_NUM])(struct pattern_expr *, struct pattern *, char **); extern void (*const pat_prune_fcts[PAT_MATCH_NUM])(struct pattern_expr *); extern struct pattern *(*const pat_match_fcts[PAT_MATCH_NUM])(struct sample *, struct pattern_expr *, int); /* This is the root of the list of all pattern_ref avalaibles. */ extern struct list pattern_reference; int pattern_finalize_config(void); /* return the PAT_MATCH_* index for match name "name", or < 0 if not found */ static inline int pat_find_match_name(const char *name) { int i; for (i = 0; i < PAT_MATCH_NUM; i++) if (strcmp(name, pat_match_names[i]) == 0) return i; return -1; } /* This function executes a pattern match on a sample. It applies pattern * to sample . The function returns NULL if the sample don't match. It returns * non-null if the sample match. If is true and the sample match, the * function returns the matched pattern. In many cases, this pattern can be a * static buffer. */ struct pattern *pattern_exec_match(struct pattern_head *head, struct sample *smp, int fill); /* * * The following function gets "pattern", duplicate it and index it in "expr" * */ int pat_idx_list_val(struct pattern_expr *expr, struct pattern *pat, char **err); int pat_idx_list_ptr(struct pattern_expr *expr, struct pattern *pat, char **err); int pat_idx_list_str(struct pattern_expr *expr, struct pattern *pat, char **err); int pat_idx_list_reg(struct pattern_expr *expr, struct pattern *pat, char **err); int pat_idx_list_regm(struct pattern_expr *expr, struct pattern *pat, char **err); int pat_idx_tree_ip(struct pattern_expr *expr, struct pattern *pat, char **err); int pat_idx_tree_str(struct pattern_expr *expr, struct pattern *pat, char **err); int pat_idx_tree_pfx(struct pattern_expr *expr, struct pattern *pat, char **err); /* * * The following function deletes all patterns related to reference pattern * element in pattern reference . * */ void pat_delete_gen(struct pat_ref *ref, struct pat_ref_elt *elt); /* * * The following functions clean all entries of a pattern expression and * reset the tree and list root. * */ void pat_prune_gen(struct pattern_expr *expr); /* * * The following functions are general purpose pattern matching functions. * */ /* ignore the current line */ int pat_parse_nothing(const char *text, struct pattern *pattern, int mflags, char **err); /* Parse an integer. It is put both in min and max. */ int pat_parse_int(const char *text, struct pattern *pattern, int mflags, char **err); /* Parse an version. It is put both in min and max. */ int pat_parse_dotted_ver(const char *text, struct pattern *pattern, int mflags, char **err); /* Parse a range of integers delimited by either ':' or '-'. If only one * integer is read, it is set as both min and max. */ int pat_parse_range(const char *text, struct pattern *pattern, int mflags, char **err); /* Parse a string. It is allocated and duplicated. */ int pat_parse_str(const char *text, struct pattern *pattern, int mflags, char **err); /* Parse a hexa binary definition. It is allocated and duplicated. */ int pat_parse_bin(const char *text, struct pattern *pattern, int mflags, char **err); /* Parse a regex. It is allocated. */ int pat_parse_reg(const char *text, struct pattern *pattern, int mflags, char **err); /* Parse an IP address and an optional mask in the form addr[/mask]. * The addr may either be an IPv4 or IPv6 address, or a hostname that resolves * to a valid IPv4 address. The mask can be provided as a number of bits, or * even as a dotted mask (but the latter only works for IPv4 addresses). * Returns 1 if OK, otherwise 0. */ int pat_parse_ip(const char *text, struct pattern *pattern, int mflags, char **err); /* NB: For two strings to be identical, it is required that their lengths match */ struct pattern *pat_match_str(struct sample *smp, struct pattern_expr *expr, int fill); /* NB: For two binary buffers to be identical, it is required that their lengths match */ struct pattern *pat_match_bin(struct sample *smp, struct pattern_expr *expr, int fill); /* Checks that the length of the pattern in is included between min and max */ struct pattern *pat_match_len(struct sample *smp, struct pattern_expr *expr, int fill); /* Checks that the integer in is included between min and max */ struct pattern *pat_match_int(struct sample *smp, struct pattern_expr *expr, int fill); /* always return false */ struct pattern *pat_match_nothing(struct sample *smp, struct pattern_expr *expr, int fill); /* Checks that the pattern matches the end of the tested string. */ struct pattern *pat_match_end(struct sample *smp, struct pattern_expr *expr, int fill); /* Checks that the pattern matches the beginning of the tested string. */ struct pattern *pat_match_beg(struct sample *smp, struct pattern_expr *expr, int fill); /* Checks that the pattern is included inside the tested string. */ struct pattern *pat_match_sub(struct sample *smp, struct pattern_expr *expr, int fill); /* Checks that the pattern is included inside the tested string, but enclosed * between slashes or at the beginning or end of the string. Slashes at the * beginning or end of the pattern are ignored. */ struct pattern *pat_match_dir(struct sample *smp, struct pattern_expr *expr, int fill); /* Checks that the pattern is included inside the tested string, but enclosed * between dots or at the beginning or end of the string. Dots at the beginning * or end of the pattern are ignored. */ struct pattern *pat_match_dom(struct sample *smp, struct pattern_expr *expr, int fill); /* Check that the input IP address (IPv4 or IPv6) in matches the IP/mask * in pattern */ struct pattern *pat_match_ip(struct sample *smp, struct pattern_expr *expr, int fill); /* Executes a regex. It temporarily changes the data to add a trailing zero, * and restores the previous character when leaving. */ struct pattern *pat_match_reg(struct sample *smp, struct pattern_expr *expr, int fill); struct pattern *pat_match_regm(struct sample *smp, struct pattern_expr *expr, int fill); /* * pattern_ref manipulation. */ struct pat_ref *pat_ref_lookup(const char *reference); struct pat_ref *pat_ref_lookupid(int unique_id); struct pat_ref *pat_ref_new(const char *reference, const char *display, unsigned int flags); struct pat_ref *pat_ref_newid(int unique_id, const char *display, unsigned int flags); struct pat_ref_elt *pat_ref_find_elt(struct pat_ref *ref, const char *key); struct pat_ref_elt *pat_ref_append(struct pat_ref *ref, const char *pattern, const char *sample, int line); struct pat_ref_elt *pat_ref_load(struct pat_ref *ref, unsigned int gen, const char *pattern, const char *sample, int line, char **err); int pat_ref_push(struct pat_ref_elt *elt, struct pattern_expr *expr, int patflags, char **err); int pat_ref_add(struct pat_ref *ref, const char *pattern, const char *sample, char **err); int pat_ref_set(struct pat_ref *ref, const char *pattern, const char *sample, char **err, struct pat_ref_elt *elt); int pat_ref_set_by_id(struct pat_ref *ref, struct pat_ref_elt *refelt, const char *value, char **err); int pat_ref_delete(struct pat_ref *ref, const char *key); void pat_ref_delete_by_ptr(struct pat_ref *ref, struct pat_ref_elt *elt); int pat_ref_delete_by_id(struct pat_ref *ref, struct pat_ref_elt *refelt); int pat_ref_prune(struct pat_ref *ref); int pat_ref_commit_elt(struct pat_ref *ref, struct pat_ref_elt *elt, char **err); int pat_ref_purge_range(struct pat_ref *ref, uint from, uint to, int budget); /* Create a new generation number for next pattern updates and returns it. This * must be used to atomically insert new patterns that will atomically replace * all current ones on commit. Generation numbers start at zero and are only * incremented and wrap at 2^32. There must not be more than 2^31-1 called * without a commit. The new reserved number is returned. Locking is not * necessary. */ static inline unsigned int pat_ref_newgen(struct pat_ref *ref) { return HA_ATOMIC_ADD_FETCH(&ref->next_gen, 1); } /* Give up a previously assigned generation number. By doing this the caller * certifies that no element was inserted using this number, and that this * number might safely be reused if none was assigned since. This is convenient * to avoid wasting numbers in case an operation couldn't be started right * after a call to pat_ref_newgen(), but it is absolutely not necessary. The * main use case is to politely abandon an update attempt upon error just after * having received a number (e.g. attempting to retrieve entries from the * network, and failed to establish a connection). This is done atomically so * no locking is necessary. */ static inline void pat_ref_giveup(struct pat_ref *ref, unsigned int gen) { HA_ATOMIC_CAS(&ref->next_gen, &gen, gen - 1); } /* Commit the whole pattern reference by updating the generation number or * failing in case someone else managed to do it meanwhile. While this could * be done using a CAS, it must instead be called with the PATREF_LOCK held in * order to guarantee the consistency of the generation number for all other * functions that rely on it. It returns zero on success, non-zero on failure * (technically speaking it returns the difference between the attempted * generation and the effective one, so that it can be used for reporting). */ static inline int pat_ref_commit(struct pat_ref *ref, unsigned int gen) { if ((int)(gen - ref->curr_gen) > 0) ref->curr_gen = gen; return gen - ref->curr_gen; } /* This function purges all elements from that are older than generation * . It will not purge more than entries at once, in order to * remain responsive. If budget is negative, no limit is applied. * The caller must already hold the PATREF_LOCK on . The function will * take the PATEXP_LOCK on all expressions of the pattern as needed. It returns * non-zero on completion, or zero if it had to stop before the end after * was depleted. */ static inline int pat_ref_purge_older(struct pat_ref *ref, uint oldest, int budget) { return pat_ref_purge_range(ref, oldest + 1, oldest - 1, budget); } /* * pattern_head manipulation. */ void pattern_init_head(struct pattern_head *head); void pattern_prune(struct pattern_head *head); int pattern_read_from_file(struct pattern_head *head, unsigned int refflags, const char *filename, int patflags, int load_smp, char **err, const char *file, int line); /* * pattern_expr manipulation. */ void pattern_init_expr(struct pattern_expr *expr); struct pattern_expr *pattern_lookup_expr(struct pattern_head *head, struct pat_ref *ref); struct pattern_expr *pattern_new_expr(struct pattern_head *head, struct pat_ref *ref, int patflags, char **err, int *reuse); struct sample_data **pattern_find_smp(struct pattern_expr *expr, struct pat_ref_elt *elt); #endif