/* * include/types/pattern.h * Macros, variables and structures for patterns management. * * Copyright (C) 2009-2010 EXCELIANCE, Emeric Brun * * 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_PATTERN_H #define _TYPES_PATTERN_H #include #include #include #include /* input and output sample types */ enum { SMP_T_BOOL = 0, /* boolean */ SMP_T_UINT, /* unsigned 32bits integer type */ SMP_T_SINT, /* signed 32bits integer type */ SMP_T_IPV4, /* ipv4 type */ SMP_T_IPV6, /* ipv6 type */ SMP_T_STR, /* char string type */ SMP_T_BIN, /* buffer type */ SMP_T_CSTR, /* constant char string type, data need dup before conversion */ SMP_T_CBIN, /* constant buffer type, data need dup before conversion */ SMP_TYPES /* number of types, must always be last */ }; /* Flags used to describe fetched samples. MAY_CHANGE indicates that the result * of the fetch might still evolve, for instance because of more data expected, * even if the fetch has failed. VOL_* indicates how long a result may be cached. */ enum { SMP_F_NOT_LAST = 1 << 0, /* other occurrences might exist for this sample */ SMP_F_MAY_CHANGE = 1 << 1, /* sample is unstable and might change (eg: request length) */ SMP_F_VOL_TEST = 1 << 2, /* result must not survive longer than the test (eg: time) */ SMP_F_VOL_1ST = 1 << 3, /* result sensitive to changes in first line (eg: URI) */ SMP_F_VOL_HDR = 1 << 4, /* result sensitive to changes in headers */ SMP_F_VOL_TXN = 1 << 5, /* result sensitive to new transaction (eg: HTTP version) */ SMP_F_VOL_SESS = 1 << 6, /* result sensitive to new session (eg: src IP) */ SMP_F_VOLATILE = (1<<2)|(1<<3)|(1<<4)|(1<<5)|(1<<6), /* any volatility condition */ SMP_F_READ_ONLY = 1 << 7, /* returned data must not be altered */ SMP_F_RES_SET = 1 << 8, /* migration: ACL match must reflect the RES_PASS flag */ SMP_F_RES_PASS = 1 << 9, /* migration: returned data is a TRUE boolean */ SMP_F_SET_RES_PASS = (SMP_F_RES_SET|SMP_F_RES_PASS), /* migration: force ACLs to PASS */ SMP_F_SET_RES_FAIL = (SMP_F_RES_SET), /* migration: force ACLs to FAIL */ SMP_F_MUST_FREE = 1 << 10, /* migration: this sample must be freed ASAP */ }; /* pattern fetch direction */ #define PATTERN_FETCH_REQ 1 #define PATTERN_FETCH_RTR 2 /* pattern result data */ union pattern_data { unsigned int uint; /* used for unsigned 32bits integers and booleans */ int sint; /* used for signed 32bits integers */ struct in_addr ipv4; /* used for ipv4 addresses */ struct in6_addr ipv6; /* used for ipv6 addresses */ struct chunk str; /* used for char strings or buffers */ }; /* pattern result */ struct pattern { int type; /* current type of data */ union pattern_data data; /* data */ }; /* a sample context might be used by any sample fetch function in order to * store information needed across multiple calls (eg: restart point for a * next occurrence). By definition it may store up to 8 pointers, or any * scalar (double, int, long long). */ union smp_ctx { 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 */ }; /* a sample is a typed data extracted from a stream. It has a type, contents, * validity constraints, a context for use in iterative calls. */ struct sample { unsigned int flags; /* SMP_F_* */ int type; /* SMP_T_* */ union pattern_data data; union smp_ctx ctx; }; /* pattern conversion */ struct pattern_conv { const char *kw; /* configuration keyword */ int (*process)(const struct arg *arg_p, union pattern_data *data); /* process function */ unsigned int arg_mask; /* arguments (ARG*()) */ int (*val_args)(struct arg *arg_p, char **err_msg); /* argument validation function */ unsigned int in_type; /* input needed pattern type */ unsigned int out_type; /* output pattern type */ }; /* pattern conversion expression */ struct pattern_conv_expr { struct list list; /* member of a pattern expression */ struct pattern_conv *conv; /* pattern conversion */ struct arg *arg_p; /* pointer on args */ }; /* pattern fetch */ struct pattern_fetch { const char *kw; /* configuration keyword */ int (*process)(struct proxy *px, struct session *l4, void *l7, int dir, const struct arg *arg_p, union pattern_data *data); /* fetch processing function */ unsigned int arg_mask; /* arguments (ARG*()) */ int (*val_args)(struct arg *arg_p, char **err_msg); /* argument validation function */ unsigned long out_type; /* output pattern type */ int dir; /* usable directions */ }; /* pattern expression */ struct pattern_expr { struct list list; /* member of list of pattern, currently not used */ struct pattern_fetch *fetch; /* pattern fetch */ struct arg *arg_p; /* pointer on args */ struct list conv_exprs; /* list of conversion expression to apply */ }; /* pattern fetch keywords list */ struct pattern_fetch_kw_list { struct list list; /* head of pattern fetch keyword list */ struct pattern_fetch kw[VAR_ARRAY]; /* array of pattern fetches */ }; /* pattern conversion keywords list */ struct pattern_conv_kw_list { struct list list; /* head of pattern conversion keyword list */ struct pattern_conv kw[VAR_ARRAY]; /* array of pattern ions */ }; #endif /* _TYPES_PATTERN_H */