include/types/acl.h - haproxy - Gitiles

 /*
  * include/types/acl.h
  * This file provides structures and types for ACLs.
  *
  * Copyright (C) 2000-2010 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 _TYPES_ACL_H
 #define _TYPES_ACL_H

 #include <common/compat.h>
 #include <common/config.h>
 #include <common/mini-clist.h>

 #include <types/auth.h>
 #include <types/proxy.h>
 #include <types/server.h>
 #include <types/session.h>

 #include <ebmbtree.h>

 /* Pattern matching function result.
  *
  * We're using a 3-state matching system :
  *   - 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 arithmetics 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)
  *
  */

 enum {
 	ACL_PAT_FAIL = 0,           /* test failed */
 	ACL_PAT_MISS = 1,           /* test may pass with more info */
 	ACL_PAT_PASS = 3,           /* test passed */
 };

 /* Condition polarity. It makes it easier for any option to choose between
  * IF/UNLESS if it can store that information within the condition itself.
  * Those should be interpreted as "IF/UNLESS result == PASS".
  */
 enum {
 	ACL_COND_NONE,		/* no polarity set yet */
 	ACL_COND_IF,		/* positive condition (after 'if') */
 	ACL_COND_UNLESS,	/* negative condition (after 'unless') */
 };

 /* possible flags for intermediate test values. The flags are maintained
  * across consecutive fetches for a same entry (eg: parse all req lines).
  */
 enum {
 	ACL_TEST_F_READ_ONLY  = 1 << 0, /* test data are read-only */
 	ACL_TEST_F_MUST_FREE  = 1 << 1, /* test data must be freed after end of evaluation */
 	ACL_TEST_F_VOL_TEST   = 1 << 2, /* result must not survive longer than the test (eg: time) */
 	ACL_TEST_F_VOL_HDR    = 1 << 3, /* result sensitive to changes in headers */
 	ACL_TEST_F_VOL_1ST    = 1 << 4, /* result sensitive to changes in first line (eg: URI) */
 	ACL_TEST_F_VOL_TXN    = 1 << 5, /* result sensitive to new transaction (eg: persist) */
 	ACL_TEST_F_VOL_SESS   = 1 << 6, /* result sensitive to new session (eg: IP) */
 	ACL_TEST_F_VOLATILE   = (1<<2)|(1<<3)|(1<<4)|(1<<5)|(1<<6),
 	ACL_TEST_F_FETCH_MORE = 1 << 7, /* if test does not match, retry with next entry (for multi-match) */
 	ACL_TEST_F_MAY_CHANGE = 1 << 8, /* if test does not match, retry later (eg: request size) */
 	ACL_TEST_F_RES_SET    = 1 << 9, /* for fetch() function to assign the result without calling match() */
 	ACL_TEST_F_RES_PASS   = 1 << 10,/* with SET_RESULT, sets result to PASS (defaults to FAIL) */
 	ACL_TEST_F_SET_RES_PASS = (ACL_TEST_F_RES_SET|ACL_TEST_F_RES_PASS),  /* sets result to PASS */
 	ACL_TEST_F_SET_RES_FAIL = (ACL_TEST_F_RES_SET),                      /* sets result to FAIL */
 	ACL_TEST_F_NULL_MATCH = 1 << 11,/* call expr->kw->match with NULL pattern if expr->patterns is empty */
 };

 /* ACLs can be evaluated on requests and on responses, and on partial or complete data */
 enum {
 	ACL_DIR_REQ = 0,        /* ACL evaluated on request */
 	ACL_DIR_RTR = (1 << 0), /* ACL evaluated on response */
 	ACL_DIR_MASK = (ACL_DIR_REQ | ACL_DIR_RTR),
 	ACL_PARTIAL = (1 << 1), /* partial data, return MISS if data are missing */
 };

 /* possible flags for expressions or patterns */
 enum {
 	ACL_PAT_F_IGNORE_CASE = 1 << 0,       /* ignore case */
 	ACL_PAT_F_FROM_FILE   = 1 << 1,       /* pattern comes from a file */
 	ACL_PAT_F_TREE_OK     = 1 << 2,       /* the pattern parser is allowed to build a tree */
 	ACL_PAT_F_TREE        = 1 << 3,       /* some patterns are arranged in a tree */
 };

 /* what capabilities an ACL uses. These flags are set during parsing, which
  * allows for flexible ACLs typed by their contents.
  */
 enum {
 	ACL_USE_NOTHING         = 0,            /* no need for anything beyond internal information */
 	ACL_USE_TCP4_PERMANENT  = 1 <<  0,      /* unchanged TCPv4 data (eg: source IP) */
 	ACL_USE_TCP4_CACHEABLE  = 1 <<  1,      /* cacheable TCPv4 data (eg: src conns) */
 	ACL_USE_TCP4_VOLATILE   = 1 <<  2,      /* volatile  TCPv4 data (eg: RTT) */
 	ACL_USE_TCP4_ANY        = (ACL_USE_TCP4_PERMANENT | ACL_USE_TCP4_CACHEABLE | ACL_USE_TCP4_VOLATILE),

 	ACL_USE_TCP6_PERMANENT  = 1 <<  3,      /* unchanged TCPv6 data (eg: source IP) */
 	ACL_USE_TCP6_CACHEABLE  = 1 <<  4,      /* cacheable TCPv6 data (eg: src conns) */
 	ACL_USE_TCP6_VOLATILE   = 1 <<  5,      /* volatile  TCPv6 data (eg: RTT) */
 	ACL_USE_TCP6_ANY        = (ACL_USE_TCP6_PERMANENT | ACL_USE_TCP6_CACHEABLE | ACL_USE_TCP6_VOLATILE),

 	ACL_USE_TCP_PERMANENT   = 1 <<  6,      /* unchanged TCPv4/v6 data (eg: source IP) */
 	ACL_USE_TCP_CACHEABLE   = 1 <<  7,      /* cacheable TCPv4/v6 data (eg: src conns) */
 	ACL_USE_TCP_VOLATILE    = 1 <<  8,      /* volatile  TCPv4/v6 data (eg: RTT) */
 	ACL_USE_TCP_ANY         = (ACL_USE_TCP_PERMANENT | ACL_USE_TCP_CACHEABLE | ACL_USE_TCP_VOLATILE),

 	ACL_USE_L6REQ_PERMANENT = 1 <<  9,      /* unchanged layer6 request data */
 	ACL_USE_L6REQ_CACHEABLE = 1 << 10,      /* cacheable layer6 request data (eg: length) */
 	ACL_USE_L6REQ_VOLATILE  = 1 << 11,      /* volatile  layer6 request data (eg: contents) */
 	ACL_USE_L6REQ_ANY       = (ACL_USE_L6REQ_PERMANENT | ACL_USE_L6REQ_CACHEABLE | ACL_USE_L6REQ_VOLATILE),

 	ACL_USE_L6RTR_PERMANENT = 1 << 12,      /* unchanged layer6 response data */
 	ACL_USE_L6RTR_CACHEABLE = 1 << 13,      /* cacheable layer6 response data (eg: length) */
 	ACL_USE_L6RTR_VOLATILE  = 1 << 14,      /* volatile  layer6 response data (eg: contents) */
 	ACL_USE_L6RTR_ANY       = (ACL_USE_L6RTR_PERMANENT | ACL_USE_L6RTR_CACHEABLE | ACL_USE_L6RTR_VOLATILE),

 	ACL_USE_L7REQ_PERMANENT = 1 << 15,      /* unchanged layer7 request data (eg: method) */
 	ACL_USE_L7REQ_CACHEABLE = 1 << 16,      /* cacheable layer7 request data (eg: content-length) */
 	ACL_USE_L7REQ_VOLATILE  = 1 << 17,      /* volatile  layer7 request data (eg: cookie) */
 	ACL_USE_L7REQ_ANY       = (ACL_USE_L7REQ_PERMANENT | ACL_USE_L7REQ_CACHEABLE | ACL_USE_L7REQ_VOLATILE),

 	ACL_USE_L7RTR_PERMANENT = 1 << 18,      /* unchanged layer7 response data (eg: status) */
 	ACL_USE_L7RTR_CACHEABLE = 1 << 19,      /* cacheable layer7 response data (eg: content-length) */
 	ACL_USE_L7RTR_VOLATILE  = 1 << 20,      /* volatile  layer7 response data (eg: cookie) */
 	ACL_USE_L7RTR_ANY       = (ACL_USE_L7RTR_PERMANENT | ACL_USE_L7RTR_CACHEABLE | ACL_USE_L7RTR_VOLATILE),

 	/* those ones are used for ambiguous "hdr_xxx" verbs */
 	ACL_USE_HDR_CACHEABLE   = 1 << 21,      /* cacheable request or response header (eg: content-length) */
 	ACL_USE_HDR_VOLATILE    = 1 << 22,      /* volatile  request or response header (eg: cookie) */
 	ACL_USE_HDR_ANY = (ACL_USE_HDR_CACHEABLE | ACL_USE_HDR_VOLATILE),

 	/* This one indicates that we need an internal parameter known in the response only */
 	ACL_USE_RTR_INTERNAL    = 1 << 23,      /* volatile response information */

 	/* information which remains during response */
 	ACL_USE_REQ_PERMANENT   = (ACL_USE_TCP4_PERMANENT | ACL_USE_TCP6_PERMANENT | ACL_USE_TCP_PERMANENT |
 				   ACL_USE_L6REQ_PERMANENT | ACL_USE_L7REQ_PERMANENT),
 	ACL_USE_REQ_CACHEABLE   = (ACL_USE_TCP4_CACHEABLE | ACL_USE_TCP6_CACHEABLE | ACL_USE_TCP_CACHEABLE |
 				   ACL_USE_L6REQ_CACHEABLE | ACL_USE_L7REQ_CACHEABLE | ACL_USE_HDR_CACHEABLE),

 	/* information which does not remain during response */
 	ACL_USE_REQ_VOLATILE    = (ACL_USE_TCP4_VOLATILE | ACL_USE_TCP6_VOLATILE | ACL_USE_TCP_VOLATILE |
 				   ACL_USE_L6REQ_VOLATILE | ACL_USE_L7REQ_VOLATILE),

 	/* any type of layer 6 contents information (random data available in a buffer) */
 	ACL_USE_L6_ANY          = (ACL_USE_L6REQ_ANY | ACL_USE_L6RTR_ANY),

 	/* any type of layer 7 information */
 	ACL_USE_L7_ANY          = (ACL_USE_L7REQ_ANY | ACL_USE_L7RTR_ANY | ACL_USE_HDR_ANY),

 	/* any type of response information */
 	ACL_USE_RTR_ANY         = (ACL_USE_L6RTR_ANY | ACL_USE_L7RTR_ANY | ACL_USE_RTR_INTERNAL),

 	/* some flags indicating if a keyword supports exact pattern matching,
 	 * so that patterns may be arranged in lookup trees. Let's put those
 	 * flags at the end to leave some space for the other ones above.
 	 */
 	ACL_MAY_LOOKUP          =  1 << 31,  /* exact pattern lookup */
 };

 /* filtering hooks */
 enum {
 	/* hooks on the request path */
 	ACL_HOOK_REQ_FE_TCP = 0,
 	ACL_HOOK_REQ_FE_TCP_CONTENT,
 	ACL_HOOK_REQ_FE_HTTP_IN,
 	ACL_HOOK_REQ_FE_SWITCH,
 	ACL_HOOK_REQ_BE_TCP_CONTENT,
 	ACL_HOOK_REQ_BE_HTTP_IN,
 	ACL_HOOK_REQ_BE_SWITCH,
 	ACL_HOOK_REQ_FE_HTTP_OUT,
 	ACL_HOOK_REQ_BE_HTTP_OUT,
 	/* hooks on the response path */
 	ACL_HOOK_RTR_BE_TCP_CONTENT,
 	ACL_HOOK_RTR_BE_HTTP_IN,
 	ACL_HOOK_RTR_FE_TCP_CONTENT,
 	ACL_HOOK_RTR_FE_HTTP_IN,
 	ACL_HOOK_RTR_BE_HTTP_OUT,
 	ACL_HOOK_RTR_FE_HTTP_OUT,
 };

 /* How to store a time range and the valid days in 29 bits */
 struct acl_time {
 	int dow:7;              /* 1 bit per day of week: 0-6 */
 	int h1:5, m1:6;         /* 0..24:0..60. Use 0:0 for all day. */
 	int h2:5, m2:6;         /* 0..24:0..60. Use 24:0 for all day. */
 };

 /* The acl will be linked to from the proxy where it is declared */
 struct acl_pattern {
 	struct list list;                       /* chaining */
 	union {
 		int i;                          /* integer value */
 		struct {
 			signed long long min, max;
 			int min_set :1;
 			int max_set :1;
 		} range; /* integer range */
 		struct {
 			struct in_addr addr;
 			struct in_addr mask;
 		} ipv4;                         /* IPv4 address */
 		struct acl_time time;           /* valid hours and days */
 		unsigned int group_mask;
 		struct eb_root *tree;           /* tree storing all values if any */
 	} val;                                  /* direct value */
 	union {
 		void *ptr;              /* any data */
 		char *str;              /* any string  */
 		regex_t *reg;           /* a compiled regex */
 	} ptr;                          /* indirect values, allocated */
 	void(*freeptrbuf)(void *ptr);	/* a destructor able to free objects from the ptr */
 	int len;                        /* data length when required  */
 	int flags;                      /* expr or pattern flags. */
 };

 /* The structure exchanged between an acl_fetch_* function responsible for
  * retrieving a value, and an acl_match_* function responsible for testing it.
  */
 struct acl_test {
 	int i;                  /* integer value */
 	char *ptr;              /* pointer to beginning of value */
 	int len;                /* length of value at ptr, otherwise ignored */
 	int flags;              /* ACL_TEST_F_* set to 0 on first call */
 	union {                 /* fetch_* functions context for any purpose */
 		void *p;        /* any pointer */
 		int i;          /* any integer */
 		long long ll;   /* any long long or smaller */
 		double d;       /* any float or double */
 		void *a[8];     /* any array of up to 8 pointers */
 	} ctx;
 };


 /*
  * ACL keyword: Associates keywords with parsers, methods to retrieve the value and testers.
  */

 /* some dummy declarations to silent the compiler */
 struct proxy;
 struct session;

 /*
  * NOTE:
  * The 'parse' function is called to parse words in the configuration. It must
  * return the number of valid words read. 0 = error. The 'opaque' argument may
  * be used by functions which need to maintain a context between consecutive
  * values. It is initialized to zero before the first call, and passed along
  * successive calls.
  */

 struct acl_expr;
 struct acl_keyword {
 	const char *kw;
 	int (*parse)(const char **text, struct acl_pattern *pattern, int *opaque);
 	int (*fetch)(struct proxy *px, struct session *l4, void *l7, int dir,
 	             struct acl_expr *expr, struct acl_test *test);
 	int (*match)(struct acl_test *test, struct acl_pattern *pattern);
 	unsigned int requires;   /* bit mask of all ACL_USE_* required to evaluate this keyword */
 	int use_cnt;
 };

 /*
  * A keyword list. It is a NULL-terminated array of keywords. It embeds a
  * struct list in order to be linked to other lists, allowing it to easily
  * be declared where it is needed, and linked without duplicating data nor
  * allocating memory.
  */
 struct acl_kw_list {
 	struct list list;
 	struct acl_keyword kw[VAR_ARRAY];
 };

 /*
  * Description of an ACL expression.
  * It contains a subject and a set of patterns to test against it.
  *  - the function get() is called to retrieve the subject from the
  *    current session or transaction and build a test.
  *  - the function test() is called to evaluate the test based on the
  *    available patterns and return ACL_PAT_*
  * Both of those functions are available through the keyword.
  */
 struct acl_expr {
 	struct list list;           /* chaining */
 	struct acl_keyword *kw;     /* back-reference to the keyword */
 	union {                     /* optional argument of the subject (eg: header or cookie name) */
 		char *str;
 		struct userlist *ul;
 		struct server *srv; /* must be initialised by acl_find_targets */
 	} arg;
 	int arg_len;                /* optional argument length */
 	struct list patterns;       /* list of acl_patterns */
 	struct eb_root pattern_tree;  /* may be used for lookup in large datasets */
 };

 struct acl {
 	struct list list;           /* chaining */
 	char *name;		    /* acl name */
 	struct list expr;	    /* list of acl_exprs */
 	int cache_idx;              /* ACL index in cache */
 	unsigned int requires;      /* or'ed bit mask of all acl_expr's ACL_USE_* */
 };

 /* the condition will be linked to from an action in a proxy */
 struct acl_term {
 	struct list list;           /* chaining */
 	struct acl *acl;            /* acl pointed to by this term */
 	int neg;                    /* 1 if the ACL result must be negated */
 };

 struct acl_term_suite {
 	struct list list;           /* chaining of term suites */
 	struct list terms;          /* list of acl_terms */
 };

 struct acl_cond {
 	struct list list;           /* Some specific tests may use multiple conditions */
 	struct list suites;         /* list of acl_term_suites */
 	int pol;                    /* polarity: ACL_COND_IF / ACL_COND_UNLESS */
 	unsigned int requires;      /* or'ed bit mask of all acl's ACL_USE_* */
 	const char *file;           /* config file where the condition is declared */
 	int line;                   /* line in the config file where the condition is declared */
 };


 #endif /* _TYPES_ACL_H */

 /*
  * Local variables:
  *  c-indent-level: 8
  *  c-basic-offset: 8
  * End:
  */
	/*
	* include/types/acl.h
	* This file provides structures and types for ACLs.
	*
	* Copyright (C) 2000-2010 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 _TYPES_ACL_H
	#define _TYPES_ACL_H

	#include <common/compat.h>
	#include <common/config.h>
	#include <common/mini-clist.h>

	#include <types/auth.h>
	#include <types/proxy.h>
	#include <types/server.h>
	#include <types/session.h>

	#include <ebmbtree.h>

	/* Pattern matching function result.
	*
	* We're using a 3-state matching system :
	* - 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 arithmetics 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)
	*
	*/

	enum {
	ACL_PAT_FAIL = 0, /* test failed */
	ACL_PAT_MISS = 1, /* test may pass with more info */
	ACL_PAT_PASS = 3, /* test passed */
	};

	/* Condition polarity. It makes it easier for any option to choose between
	* IF/UNLESS if it can store that information within the condition itself.
	* Those should be interpreted as "IF/UNLESS result == PASS".
	*/
	enum {
	ACL_COND_NONE, /* no polarity set yet */
	ACL_COND_IF, /* positive condition (after 'if') */
	ACL_COND_UNLESS, /* negative condition (after 'unless') */
	};

	/* possible flags for intermediate test values. The flags are maintained
	* across consecutive fetches for a same entry (eg: parse all req lines).
	*/
	enum {
	ACL_TEST_F_READ_ONLY = 1 << 0, /* test data are read-only */
	ACL_TEST_F_MUST_FREE = 1 << 1, /* test data must be freed after end of evaluation */
	ACL_TEST_F_VOL_TEST = 1 << 2, /* result must not survive longer than the test (eg: time) */
	ACL_TEST_F_VOL_HDR = 1 << 3, /* result sensitive to changes in headers */
	ACL_TEST_F_VOL_1ST = 1 << 4, /* result sensitive to changes in first line (eg: URI) */
	ACL_TEST_F_VOL_TXN = 1 << 5, /* result sensitive to new transaction (eg: persist) */
	ACL_TEST_F_VOL_SESS = 1 << 6, /* result sensitive to new session (eg: IP) */
	ACL_TEST_F_VOLATILE = (1<<2)\|(1<<3)\|(1<<4)\|(1<<5)\|(1<<6),
	ACL_TEST_F_FETCH_MORE = 1 << 7, /* if test does not match, retry with next entry (for multi-match) */
	ACL_TEST_F_MAY_CHANGE = 1 << 8, /* if test does not match, retry later (eg: request size) */
	ACL_TEST_F_RES_SET = 1 << 9, /* for fetch() function to assign the result without calling match() */
	ACL_TEST_F_RES_PASS = 1 << 10,/* with SET_RESULT, sets result to PASS (defaults to FAIL) */
	ACL_TEST_F_SET_RES_PASS = (ACL_TEST_F_RES_SET\|ACL_TEST_F_RES_PASS), /* sets result to PASS */
	ACL_TEST_F_SET_RES_FAIL = (ACL_TEST_F_RES_SET), /* sets result to FAIL */
	ACL_TEST_F_NULL_MATCH = 1 << 11,/* call expr->kw->match with NULL pattern if expr->patterns is empty */
	};

	/* ACLs can be evaluated on requests and on responses, and on partial or complete data */
	enum {
	ACL_DIR_REQ = 0, /* ACL evaluated on request */
	ACL_DIR_RTR = (1 << 0), /* ACL evaluated on response */
	ACL_DIR_MASK = (ACL_DIR_REQ \| ACL_DIR_RTR),
	ACL_PARTIAL = (1 << 1), /* partial data, return MISS if data are missing */
	};

	/* possible flags for expressions or patterns */
	enum {
	ACL_PAT_F_IGNORE_CASE = 1 << 0, /* ignore case */
	ACL_PAT_F_FROM_FILE = 1 << 1, /* pattern comes from a file */
	ACL_PAT_F_TREE_OK = 1 << 2, /* the pattern parser is allowed to build a tree */
	ACL_PAT_F_TREE = 1 << 3, /* some patterns are arranged in a tree */
	};

	/* what capabilities an ACL uses. These flags are set during parsing, which
	* allows for flexible ACLs typed by their contents.
	*/
	enum {
	ACL_USE_NOTHING = 0, /* no need for anything beyond internal information */
	ACL_USE_TCP4_PERMANENT = 1 << 0, /* unchanged TCPv4 data (eg: source IP) */
	ACL_USE_TCP4_CACHEABLE = 1 << 1, /* cacheable TCPv4 data (eg: src conns) */
	ACL_USE_TCP4_VOLATILE = 1 << 2, /* volatile TCPv4 data (eg: RTT) */
	ACL_USE_TCP4_ANY = (ACL_USE_TCP4_PERMANENT \| ACL_USE_TCP4_CACHEABLE \| ACL_USE_TCP4_VOLATILE),

	ACL_USE_TCP6_PERMANENT = 1 << 3, /* unchanged TCPv6 data (eg: source IP) */
	ACL_USE_TCP6_CACHEABLE = 1 << 4, /* cacheable TCPv6 data (eg: src conns) */
	ACL_USE_TCP6_VOLATILE = 1 << 5, /* volatile TCPv6 data (eg: RTT) */
	ACL_USE_TCP6_ANY = (ACL_USE_TCP6_PERMANENT \| ACL_USE_TCP6_CACHEABLE \| ACL_USE_TCP6_VOLATILE),

	ACL_USE_TCP_PERMANENT = 1 << 6, /* unchanged TCPv4/v6 data (eg: source IP) */
	ACL_USE_TCP_CACHEABLE = 1 << 7, /* cacheable TCPv4/v6 data (eg: src conns) */
	ACL_USE_TCP_VOLATILE = 1 << 8, /* volatile TCPv4/v6 data (eg: RTT) */
	ACL_USE_TCP_ANY = (ACL_USE_TCP_PERMANENT \| ACL_USE_TCP_CACHEABLE \| ACL_USE_TCP_VOLATILE),

	ACL_USE_L6REQ_PERMANENT = 1 << 9, /* unchanged layer6 request data */
	ACL_USE_L6REQ_CACHEABLE = 1 << 10, /* cacheable layer6 request data (eg: length) */
	ACL_USE_L6REQ_VOLATILE = 1 << 11, /* volatile layer6 request data (eg: contents) */
	ACL_USE_L6REQ_ANY = (ACL_USE_L6REQ_PERMANENT \| ACL_USE_L6REQ_CACHEABLE \| ACL_USE_L6REQ_VOLATILE),

	ACL_USE_L6RTR_PERMANENT = 1 << 12, /* unchanged layer6 response data */
	ACL_USE_L6RTR_CACHEABLE = 1 << 13, /* cacheable layer6 response data (eg: length) */
	ACL_USE_L6RTR_VOLATILE = 1 << 14, /* volatile layer6 response data (eg: contents) */
	ACL_USE_L6RTR_ANY = (ACL_USE_L6RTR_PERMANENT \| ACL_USE_L6RTR_CACHEABLE \| ACL_USE_L6RTR_VOLATILE),

	ACL_USE_L7REQ_PERMANENT = 1 << 15, /* unchanged layer7 request data (eg: method) */
	ACL_USE_L7REQ_CACHEABLE = 1 << 16, /* cacheable layer7 request data (eg: content-length) */
	ACL_USE_L7REQ_VOLATILE = 1 << 17, /* volatile layer7 request data (eg: cookie) */
	ACL_USE_L7REQ_ANY = (ACL_USE_L7REQ_PERMANENT \| ACL_USE_L7REQ_CACHEABLE \| ACL_USE_L7REQ_VOLATILE),

	ACL_USE_L7RTR_PERMANENT = 1 << 18, /* unchanged layer7 response data (eg: status) */
	ACL_USE_L7RTR_CACHEABLE = 1 << 19, /* cacheable layer7 response data (eg: content-length) */
	ACL_USE_L7RTR_VOLATILE = 1 << 20, /* volatile layer7 response data (eg: cookie) */
	ACL_USE_L7RTR_ANY = (ACL_USE_L7RTR_PERMANENT \| ACL_USE_L7RTR_CACHEABLE \| ACL_USE_L7RTR_VOLATILE),

	/* those ones are used for ambiguous "hdr_xxx" verbs */
	ACL_USE_HDR_CACHEABLE = 1 << 21, /* cacheable request or response header (eg: content-length) */
	ACL_USE_HDR_VOLATILE = 1 << 22, /* volatile request or response header (eg: cookie) */
	ACL_USE_HDR_ANY = (ACL_USE_HDR_CACHEABLE \| ACL_USE_HDR_VOLATILE),

	/* This one indicates that we need an internal parameter known in the response only */
	ACL_USE_RTR_INTERNAL = 1 << 23, /* volatile response information */

	/* information which remains during response */
	ACL_USE_REQ_PERMANENT = (ACL_USE_TCP4_PERMANENT \| ACL_USE_TCP6_PERMANENT \| ACL_USE_TCP_PERMANENT \|
	ACL_USE_L6REQ_PERMANENT \| ACL_USE_L7REQ_PERMANENT),
	ACL_USE_REQ_CACHEABLE = (ACL_USE_TCP4_CACHEABLE \| ACL_USE_TCP6_CACHEABLE \| ACL_USE_TCP_CACHEABLE \|
	ACL_USE_L6REQ_CACHEABLE \| ACL_USE_L7REQ_CACHEABLE \| ACL_USE_HDR_CACHEABLE),

	/* information which does not remain during response */
	ACL_USE_REQ_VOLATILE = (ACL_USE_TCP4_VOLATILE \| ACL_USE_TCP6_VOLATILE \| ACL_USE_TCP_VOLATILE \|
	ACL_USE_L6REQ_VOLATILE \| ACL_USE_L7REQ_VOLATILE),

	/* any type of layer 6 contents information (random data available in a buffer) */
	ACL_USE_L6_ANY = (ACL_USE_L6REQ_ANY \| ACL_USE_L6RTR_ANY),

	/* any type of layer 7 information */
	ACL_USE_L7_ANY = (ACL_USE_L7REQ_ANY \| ACL_USE_L7RTR_ANY \| ACL_USE_HDR_ANY),

	/* any type of response information */
	ACL_USE_RTR_ANY = (ACL_USE_L6RTR_ANY \| ACL_USE_L7RTR_ANY \| ACL_USE_RTR_INTERNAL),

	/* some flags indicating if a keyword supports exact pattern matching,
	* so that patterns may be arranged in lookup trees. Let's put those
	* flags at the end to leave some space for the other ones above.
	*/
	ACL_MAY_LOOKUP = 1 << 31, /* exact pattern lookup */
	};

	/* filtering hooks */
	enum {
	/* hooks on the request path */
	ACL_HOOK_REQ_FE_TCP = 0,
	ACL_HOOK_REQ_FE_TCP_CONTENT,
	ACL_HOOK_REQ_FE_HTTP_IN,
	ACL_HOOK_REQ_FE_SWITCH,
	ACL_HOOK_REQ_BE_TCP_CONTENT,
	ACL_HOOK_REQ_BE_HTTP_IN,
	ACL_HOOK_REQ_BE_SWITCH,
	ACL_HOOK_REQ_FE_HTTP_OUT,
	ACL_HOOK_REQ_BE_HTTP_OUT,
	/* hooks on the response path */
	ACL_HOOK_RTR_BE_TCP_CONTENT,
	ACL_HOOK_RTR_BE_HTTP_IN,
	ACL_HOOK_RTR_FE_TCP_CONTENT,
	ACL_HOOK_RTR_FE_HTTP_IN,
	ACL_HOOK_RTR_BE_HTTP_OUT,
	ACL_HOOK_RTR_FE_HTTP_OUT,
	};

	/* How to store a time range and the valid days in 29 bits */
	struct acl_time {
	int dow:7; /* 1 bit per day of week: 0-6 */
	int h1:5, m1:6; /* 0..24:0..60. Use 0:0 for all day. */
	int h2:5, m2:6; /* 0..24:0..60. Use 24:0 for all day. */
	};

	/* The acl will be linked to from the proxy where it is declared */
	struct acl_pattern {
	struct list list; /* chaining */
	union {
	int i; /* integer value */
	struct {
	signed long long min, max;
	int min_set :1;
	int max_set :1;
	} range; /* integer range */
	struct {
	struct in_addr addr;
	struct in_addr mask;
	} ipv4; /* IPv4 address */
	struct acl_time time; /* valid hours and days */
	unsigned int group_mask;
	struct eb_root tree; / tree storing all values if any */
	} val; /* direct value */
	union {
	void ptr; / any data */
	char str; / any string */
	regex_t reg; / a compiled regex */
	} ptr; /* indirect values, allocated */
	void(freeptrbuf)(void ptr); /* a destructor able to free objects from the ptr */
	int len; /* data length when required */
	int flags; /* expr or pattern flags. */
	};

	/* The structure exchanged between an acl_fetch_* function responsible for
	* retrieving a value, and an acl_match_* function responsible for testing it.
	*/
	struct acl_test {
	int i; /* integer value */
	char ptr; / pointer to beginning of value */
	int len; /* length of value at ptr, otherwise ignored */
	int flags; /* ACL_TEST_F_* set to 0 on first call */
	union { /* fetch_* functions context for any purpose */
	void p; / any pointer */
	int i; /* any integer */
	long long ll; /* any long long or smaller */
	double d; /* any float or double */
	void a[8]; / any array of up to 8 pointers */
	} ctx;
	};


	/*
	* ACL keyword: Associates keywords with parsers, methods to retrieve the value and testers.
	*/

	/* some dummy declarations to silent the compiler */
	struct proxy;
	struct session;

	/*
	* NOTE:
	* The 'parse' function is called to parse words in the configuration. It must
	* return the number of valid words read. 0 = error. The 'opaque' argument may
	* be used by functions which need to maintain a context between consecutive
	* values. It is initialized to zero before the first call, and passed along
	* successive calls.
	*/

	struct acl_expr;
	struct acl_keyword {
	const char *kw;
	int (parse)(const char text, struct acl_pattern pattern, int *opaque);
	int (fetch)(struct proxy px, struct session l4, void l7, int dir,
	struct acl_expr expr, struct acl_test test);
	int (match)(struct acl_test test, struct acl_pattern *pattern);
	unsigned int requires; /* bit mask of all ACL_USE_* required to evaluate this keyword */
	int use_cnt;
	};

	/*
	* A keyword list. It is a NULL-terminated array of keywords. It embeds a
	* struct list in order to be linked to other lists, allowing it to easily
	* be declared where it is needed, and linked without duplicating data nor
	* allocating memory.
	*/
	struct acl_kw_list {
	struct list list;
	struct acl_keyword kw[VAR_ARRAY];
	};

	/*
	* Description of an ACL expression.
	* It contains a subject and a set of patterns to test against it.
	* - the function get() is called to retrieve the subject from the
	* current session or transaction and build a test.
	* - the function test() is called to evaluate the test based on the
	* available patterns and return ACL_PAT_*
	* Both of those functions are available through the keyword.
	*/
	struct acl_expr {
	struct list list; /* chaining */
	struct acl_keyword kw; / back-reference to the keyword */
	union { /* optional argument of the subject (eg: header or cookie name) */
	char *str;
	struct userlist *ul;
	struct server srv; / must be initialised by acl_find_targets */
	} arg;
	int arg_len; /* optional argument length */
	struct list patterns; /* list of acl_patterns */
	struct eb_root pattern_tree; /* may be used for lookup in large datasets */
	};

	struct acl {
	struct list list; /* chaining */
	char name; / acl name */
	struct list expr; /* list of acl_exprs */
	int cache_idx; /* ACL index in cache */
	unsigned int requires; /* or'ed bit mask of all acl_expr's ACL_USE_* */
	};

	/* the condition will be linked to from an action in a proxy */
	struct acl_term {
	struct list list; /* chaining */
	struct acl acl; / acl pointed to by this term */
	int neg; /* 1 if the ACL result must be negated */
	};

	struct acl_term_suite {
	struct list list; /* chaining of term suites */
	struct list terms; /* list of acl_terms */
	};

	struct acl_cond {
	struct list list; /* Some specific tests may use multiple conditions */
	struct list suites; /* list of acl_term_suites */
	int pol; /* polarity: ACL_COND_IF / ACL_COND_UNLESS */
	unsigned int requires; /* or'ed bit mask of all acl's ACL_USE_* */
	const char file; / config file where the condition is declared */
	int line; /* line in the config file where the condition is declared */
	};


	#endif /* _TYPES_ACL_H */

	/*
	* Local variables:
	* c-indent-level: 8
	* c-basic-offset: 8
	* End:
	*/