/* * include/haproxy/pattern-t.h * This file provides structures and types for ACLs. * * Copyright (C) 2000-2012 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_T_H #define _HAPROXY_PATTERN_T_H #include #include #include #include #include /* Pattern matching function result. * * We're using a 3-state matching system to match samples against patterns in * ACLs : * - PASS : at least one pattern already matches * - MISS : some data is missing to decide if some rules may finally match. * - FAIL : no mattern may ever match * * We assign values 0, 1 and 3 to FAIL, MISS and PASS respectively, so that we * can make use of standard arithmetic for the truth tables below : * * x | !x x&y | F(0) | M(1) | P(3) x|y | F(0) | M(1) | P(3) * ------+----- -----+------+------+----- -----+------+------+----- * F(0) | P(3) F(0)| F(0) | F(0) | F(0) F(0)| F(0) | M(1) | P(3) * M(1) | M(1) M(1)| F(0) | M(1) | M(1) M(1)| M(1) | M(1) | P(3) * P(3) | F(0) P(3)| F(0) | M(1) | P(3) P(3)| P(3) | P(3) | P(3) * * neg(x) = (3 >> x) and(x,y) = (x & y) or(x,y) = (x | y) * * For efficiency, the ACL return flags are directly mapped from the pattern * match flags. A pattern can't return "MISS" since it's always presented an * existing sample. So that leaves us with only two possible values : * MATCH = 0 * NOMATCH = 3 */ enum pat_match_res { PAT_NOMATCH = 0, /* sample didn't match any pattern */ PAT_MATCH = 3, /* sample matched at least one pattern */ }; /* possible flags for patterns matching or parsing */ enum { PAT_MF_IGNORE_CASE = 1 << 0, /* ignore case */ PAT_MF_NO_DNS = 1 << 1, /* don't perform any DNS requests */ }; /* possible flags for patterns storage */ enum { PAT_SF_TREE = 1 << 0, /* some patterns are arranged in a tree */ PAT_SF_REGFREE = 1 << 1, /* run regex_free() on the pointer */ }; /* ACL match methods */ enum { PAT_MATCH_FOUND, /* just ensure that fetch found the sample */ PAT_MATCH_BOOL, /* match fetch's integer value as boolean */ PAT_MATCH_INT, /* unsigned integer (int) */ PAT_MATCH_IP, /* IPv4/IPv6 address (IP) */ PAT_MATCH_BIN, /* hex string (bin) */ PAT_MATCH_LEN, /* string length (str -> int) */ PAT_MATCH_STR, /* exact string match (str) */ PAT_MATCH_BEG, /* beginning of string (str) */ PAT_MATCH_SUB, /* substring (str) */ PAT_MATCH_DIR, /* directory-like sub-string (str) */ PAT_MATCH_DOM, /* domain-like sub-string (str) */ PAT_MATCH_END, /* end of string (str) */ PAT_MATCH_REG, /* regex (str -> reg) */ PAT_MATCH_REGM, /* regex (str -> reg) with match zones */ /* keep this one last */ PAT_MATCH_NUM }; #define PAT_REF_MAP 0x1 /* Set if the reference is used by at least one map. */ #define PAT_REF_ACL 0x2 /* Set if the reference is used by at least one acl. */ #define PAT_REF_SMP 0x4 /* Flag used if the reference contains a sample. */ /* This struct contain a list of reference strings for dunamically * updatable patterns. */ struct pat_ref { struct list list; /* Used to chain refs. */ char *reference; /* The reference name. */ char *display; /* String displayed to identify the pattern origin. */ struct list head; /* The head of the list of struct pat_ref_elt. */ struct list pat; /* The head of the list of struct pattern_expr. */ unsigned int flags; /* flags PAT_REF_*. */ unsigned int curr_gen; /* current generation number (anything below can be removed) */ unsigned int next_gen; /* next generation number (insertions use this one) */ int unique_id; /* Each pattern reference have unique id. */ unsigned long long revision; /* updated for each update */ __decl_thread(HA_SPINLOCK_T lock); /* Lock used to protect pat ref elements */ }; /* This is a part of struct pat_ref. Each entry contains one pattern and one * associated value as original string. All derivative forms (via exprs) are * accessed from list_head or tree_head. */ struct pat_ref_elt { struct list list; /* Used to chain elements. */ struct list back_refs; /* list of users tracking this pat ref */ void *list_head; /* all &pattern_list->from_ref derived from this reference, ends with NULL */ void *tree_head; /* all &pattern_tree->from_ref derived from this reference, ends with NULL */ char *pattern; char *sample; unsigned int gen_id; /* generation of pat_ref this was made for */ int line; }; /* This contain each tree indexed entry. This struct permit to associate * "sample" with a tree entry. It is used with maps. */ struct pattern_tree { void *from_ref; // pattern_tree linked from pat_ref_elt, ends with NULL struct sample_data *data; struct pat_ref_elt *ref; struct ebmb_node node; }; /* This describes one ACL pattern, which might be a single value or a tree of * values. All patterns for a single ACL expression are linked together. Some * of them might have a type (eg: IP). Right now, the types are shared with * the samples, though it is possible that in the future this will change to * accommodate for other types (eg: meth, regex). Unsigned and constant types * are preferred when there is a doubt. */ struct pattern { int type; /* type of the ACL pattern (SMP_T_*) */ union { int i; /* integer value */ struct { signed long long min, max; unsigned int min_set:1; unsigned int max_set:1; } range; /* integer range */ struct { struct in_addr addr; struct in_addr mask; } ipv4; /* IPv4 address */ struct { struct in6_addr addr; unsigned char mask; /* number of bits */ } ipv6; /* IPv6 address/mask */ } val; /* direct value */ union { void *ptr; /* any data */ char *str; /* any string */ struct my_regex *reg; /* a compiled regex */ } ptr; /* indirect values, allocated or NULL */ int len; /* data length when required */ int sflags; /* flags relative to the storage method. */ struct sample_data *data; /* used to store a pointer to sample value associated with the match. It is used with maps */ struct pat_ref_elt *ref; }; /* This struct is just used for chaining patterns */ struct pattern_list { void *from_ref; // pattern_tree linked from pat_ref_elt, ends with NULL struct list list; struct pattern pat; }; /* Description of a pattern expression. * It contains pointers to the parse and match functions, and a list or tree of * patterns to test against. The structure is organized so that the hot parts * are grouped together in order to optimize caching. */ struct pattern_expr { struct list list; /* Used for chaining pattern_expr in pat_ref. */ struct pat_ref *ref; /* The pattern reference if exists. */ struct pattern_head *pat_head; /* Point to the pattern_head that contain manipulation functions. * Note that this link point on compatible head but not on the real * head. You can use only the function, and you must not use the * "head". Don't write "(struct pattern_expr *)any->pat_head->expr". */ struct list patterns; /* list of acl_patterns */ struct eb_root pattern_tree; /* may be used for lookup in large datasets */ struct eb_root pattern_tree_2; /* may be used for different types */ int mflags; /* flags relative to the parsing or matching method. */ __decl_thread(HA_RWLOCK_T lock); /* lock used to protect patterns */ }; /* This is a list of expression. A struct pattern_expr can be used by * more than one "struct pattern_head". this intermediate struct * permit more than one list. */ struct pattern_expr_list { struct list list; /* Used for chaining pattern_expr in pattern_head. */ int do_free; struct pattern_expr *expr; /* The used expr. */ }; /* This struct contains a list of pattern expr */ struct sample; struct pattern_head { int (*parse)(const char *text, struct pattern *pattern, int flags, char **err); int (*parse_smp)(const char *text, struct sample_data *data); int (*index)(struct pattern_expr *, struct pattern *, char **); void (*prune)(struct pattern_expr *); struct pattern *(*match)(struct sample *, struct pattern_expr *, int); int expect_type; /* type of the expected sample (SMP_T_*) */ struct list head; /* This is a list of struct pattern_expr_list. */ }; #endif /* _HAPROXY_PATTERN_T_H */