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/*
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* BIRD Internet Routing Daemon - - Filters
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*
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* ( c ) 1999 Pavel Machek < pavel @ ucw . cz >
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* ( c ) 2018 - - 2019 Maria Matejka < mq @ jmq . cz >
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*
* Can be freely distributed and used under the terms of the GNU GPL .
*/
# ifndef _BIRD_FILT_H_
# define _BIRD_FILT_H_
# include "lib/resource.h"
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# include "lib/ip.h"
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# include "lib/macro.h"
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# include "nest/route.h"
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# include "nest/attrs.h"
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/* IP prefix range structure */
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struct f_prefix {
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net_addr net ; /* The matching prefix must match this net */
u8 lo , hi ; /* And its length must fit between lo and hi */
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} ;
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/* Type numbers must be in 0..0xff range */
# define T_MASK 0xff
/* Internal types */
enum f_type {
/* Do not use type of zero, that way we'll see errors easier. */
T_VOID = 1 ,
/* User visible types, which fit in int */
T_INT = 0x10 ,
T_BOOL = 0x11 ,
T_PAIR = 0x12 , /* Notice that pair is stored as integer: first << 16 | second */
T_QUAD = 0x13 ,
/* Put enumerational types in 0x30..0x3f range */
T_ENUM_LO = 0x30 ,
T_ENUM_HI = 0x3f ,
T_ENUM_RTS = 0x30 ,
T_ENUM_BGP_ORIGIN = 0x31 ,
T_ENUM_SCOPE = 0x32 ,
T_ENUM_RTC = 0x33 ,
T_ENUM_RTD = 0x34 ,
T_ENUM_ROA = 0x35 ,
T_ENUM_NETTYPE = 0x36 ,
T_ENUM_RA_PREFERENCE = 0x37 ,
/* new enums go here */
T_ENUM_EMPTY = 0x3f , /* Special hack for atomic_aggr */
# define T_ENUM T_ENUM_LO ... T_ENUM_HI
/* Bigger ones */
T_IP = 0x20 ,
T_NET = 0x21 ,
T_STRING = 0x22 ,
T_PATH_MASK = 0x23 , /* mask for BGP path */
T_PATH = 0x24 , /* BGP path */
T_CLIST = 0x25 , /* Community list */
T_EC = 0x26 , /* Extended community value, u64 */
T_ECLIST = 0x27 , /* Extended community list */
T_LC = 0x28 , /* Large community value, lcomm */
T_LCLIST = 0x29 , /* Large community list */
T_RD = 0x2a , /* Route distinguisher for VPN addresses */
T_PATH_MASK_ITEM = 0x2b , /* Path mask item for path mask constructors */
T_SET = 0x80 ,
T_PREFIX_SET = 0x81 ,
} PACKED ;
/* Filter value; size of this affects filter memory consumption */
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struct f_val {
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enum f_type type ; /* T_* */
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union {
uint i ;
u64 ec ;
lcomm lc ;
ip_addr ip ;
const net_addr * net ;
char * s ;
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const struct f_tree * t ;
const struct f_trie * ti ;
const struct adata * ad ;
const struct f_path_mask * path_mask ;
struct f_path_mask_item pmi ;
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} val ;
} ;
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/* Dynamic attribute definition (eattrs) */
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struct f_dynamic_attr {
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u8 type ; /* EA type (EAF_*) */
u8 bit ; /* For bitfield accessors */
enum f_type f_type ; /* Filter type */
uint ea_code ; /* EA code */
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} ;
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enum f_sa_code {
SA_FROM = 1 ,
SA_GW ,
SA_NET ,
SA_PROTO ,
SA_SOURCE ,
SA_SCOPE ,
SA_DEST ,
SA_IFNAME ,
SA_IFINDEX ,
} PACKED ;
/* Static attribute definition (members of struct rta) */
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struct f_static_attr {
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enum f_type f_type ; /* Filter type */
enum f_sa_code sa_code ; /* Static attribute id */
int readonly : 1 ; /* Don't allow writing */
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} ;
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/* Possible return values of filter execution */
enum filter_return {
F_NOP = 0 ,
F_NONL ,
F_RETURN ,
F_ACCEPT , /* Need to preserve ordering: accepts < rejects! */
F_REJECT ,
F_ERROR ,
F_QUITBIRD ,
} ;
/* Filter instruction declarations */
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# define FI__LIST \
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F ( FI_NOP ) \
F ( FI_ADD , ARG , ARG ) \
F ( FI_SUBTRACT , ARG , ARG ) \
F ( FI_MULTIPLY , ARG , ARG ) \
F ( FI_DIVIDE , ARG , ARG ) \
F ( FI_AND , ARG , LINE ) \
F ( FI_OR , ARG , LINE ) \
F ( FI_PAIR_CONSTRUCT , ARG , ARG ) \
F ( FI_EC_CONSTRUCT , ARG , ARG , ECS ) \
F ( FI_LC_CONSTRUCT , ARG , ARG , ARG ) \
F ( FI_PATHMASK_CONSTRUCT , ARG , COUNT ) \
F ( FI_NEQ , ARG , ARG ) \
F ( FI_EQ , ARG , ARG ) \
F ( FI_LT , ARG , ARG ) \
F ( FI_LTE , ARG , ARG ) \
F ( FI_NOT , ARG ) \
F ( FI_MATCH , ARG , ARG ) \
F ( FI_NOT_MATCH , ARG , ARG ) \
F ( FI_DEFINED , ARG ) \
F ( FI_TYPE , ARG ) \
F ( FI_IS_V4 , ARG ) \
F ( FI_SET , ARG , SYMBOL ) \
F ( FI_CONSTANT , VALI ) \
F ( FI_VARIABLE , SYMBOL ) \
F ( FI_CONSTANT_INDIRECT , VALP ) \
F ( FI_PRINT , ARG ) \
F ( FI_CONDITION , ARG , LINE , LINE ) \
F ( FI_PRINT_AND_DIE , ARG , FRET ) \
F ( FI_RTA_GET , SA ) \
F ( FI_RTA_SET , SA , ARG ) \
F ( FI_EA_GET , EA ) \
F ( FI_EA_SET , EA , ARG ) \
F ( FI_EA_UNSET , EA ) \
F ( FI_PREF_GET ) \
F ( FI_PREF_SET , ARG ) \
F ( FI_LENGTH , ARG ) \
F ( FI_ROA_MAXLEN , ARG ) \
F ( FI_ROA_ASN , ARG ) \
F ( FI_SADR_SRC , ARG ) \
F ( FI_IP , ARG ) \
F ( FI_ROUTE_DISTINGUISHER , ARG ) \
F ( FI_AS_PATH_FIRST , ARG ) \
F ( FI_AS_PATH_LAST , ARG ) \
F ( FI_AS_PATH_LAST_NAG , ARG ) \
F ( FI_RETURN , ARG ) \
F ( FI_CALL , SYMBOL , LINE ) \
F ( FI_DROP_RESULT , ARG ) \
F ( FI_SWITCH , ARG , TREE ) \
F ( FI_IP_MASK , ARG , ARG ) \
F ( FI_PATH_PREPEND , ARG , ARG ) \
F ( FI_CLIST_ADD , ARG , ARG ) \
F ( FI_CLIST_DEL , ARG , ARG ) \
F ( FI_CLIST_FILTER , ARG , ARG ) \
F ( FI_ROA_CHECK_IMPLICIT , RTC ) \
F ( FI_ROA_CHECK_EXPLICIT , ARG , ARG , RTC ) \
F ( FI_FORMAT , ARG ) \
F ( FI_ASSERT , ARG , STRING )
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/* The enum itself */
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enum f_instruction_code {
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# define F(c, ...) c,
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FI__LIST
# undef F
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FI__MAX ,
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} PACKED ;
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/* Convert the instruction back to the enum name */
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const char * f_instruction_name ( enum f_instruction_code fi ) ;
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struct f_inst ;
void f_inst_next ( struct f_inst * first , const struct f_inst * append ) ;
struct f_inst * f_clear_local_vars ( struct f_inst * decls ) ;
# define FIA(x) , FIA_##x
# define FIA_ARG const struct f_inst *
# define FIA_LINE const struct f_inst *
# define FIA_COUNT uint
# define FIA_SYMBOL const struct symbol *
# define FIA_VALI struct f_val
# define FIA_VALP const struct f_val *
# define FIA_FRET enum filter_return
# define FIA_ECS enum ec_subtype
# define FIA_SA struct f_static_attr
# define FIA_EA struct f_dynamic_attr
# define FIA_RTC const struct rtable_config *
# define FIA_TREE const struct f_tree *
# define FIA_STRING const char *
# define F(c, ...) \
struct f_inst * f_new_inst_ # # c ( enum f_instruction_code MACRO_IFELSE ( MACRO_ISLAST ( __VA_ARGS__ ) ) ( ) ( MACRO_FOREACH ( FIA , __VA_ARGS__ ) ) ) ;
FI__LIST
# undef F
# undef FIA_ARG
# undef FIA_LINE
# undef FIA_LINEP
# undef FIA_COUNT
# undef FIA_SYMBOL
# undef FIA_VALI
# undef FIA_VALP
# undef FIA_FRET
# undef FIA_ECS
# undef FIA_SA
# undef FIA_EA
# undef FIA_RTC
# undef FIA_STRING
# undef FIA
# define f_new_inst(...) MACRO_CONCAT_AFTER(f_new_inst_, MACRO_FIRST(__VA_ARGS__))(__VA_ARGS__)
/* Flags for instructions */
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enum f_instruction_flags {
FIF_PRINTED = 1 , /* FI_PRINT_AND_DIE: message put in buffer */
} ;
/* Filter structures for execution */
struct f_line ;
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/* The single instruction item */
struct f_line_item {
enum f_instruction_code fi_code ; /* What to do */
enum f_instruction_flags flags ; /* Flags, instruction-specific */
uint lineno ; /* Where */
union {
struct {
const struct f_val * vp ;
const struct symbol * sym ;
} ;
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struct f_val val ;
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const struct f_line * lines [ 2 ] ;
enum filter_return fret ;
struct f_static_attr sa ;
struct f_dynamic_attr da ;
enum ec_subtype ecs ;
const char * s ;
const struct f_tree * tree ;
const struct rtable_config * rtc ;
uint count ;
} ; /* Additional instruction data */
} ;
/* Line of instructions to be unconditionally executed one after another */
struct f_line {
uint len ; /* Line length */
struct f_line_item items [ 0 ] ; /* The items themselves */
} ;
/* The filter encapsulating structure to be pointed-to from outside */
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struct filter {
char * name ;
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struct f_line * root ;
} ;
/* Convert the f_inst infix tree to the f_line structures */
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struct f_line * f_postfixify_concat ( const struct f_inst * const inst [ ] , uint count ) ;
static inline struct f_line * f_postfixify ( const struct f_inst * root )
{ return f_postfixify_concat ( & root , 1 ) ; }
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# define F_VAL_STACK_MAX 4096
/* Value stack for execution */
struct f_val_stack {
uint cnt ; /* Current stack size; 0 for empty */
struct f_val val [ F_VAL_STACK_MAX ] ; /* The stack itself */
} ;
# define F_EXEC_STACK_MAX 4096
/* Exception bits */
enum f_exception {
FE_RETURN = 0x1 ,
} ;
/* Instruction stack for execution */
struct f_exec_stack {
struct {
const struct f_line * line ; /* The line that is being executed */
uint pos ; /* Instruction index in the line */
uint ventry ; /* Value stack depth on entry */
enum f_exception emask ; /* Exception mask */
} item [ F_EXEC_STACK_MAX ] ;
uint cnt ; /* Current stack size; 0 for empty */
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} ;
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struct filter * f_new_where ( const struct f_inst * ) ;
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static inline struct f_dynamic_attr f_new_dynamic_attr ( u8 type , u8 bit , enum f_type f_type , uint code ) /* Type as core knows it, type as filters know it, and code of dynamic attribute */
{ return ( struct f_dynamic_attr ) { . type = type , . bit = bit , . f_type = f_type , . ea_code = code } ; } /* f_type currently unused; will be handy for static type checking */
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static inline struct f_static_attr f_new_static_attr ( int f_type , int code , int readonly )
{ return ( struct f_static_attr ) { . f_type = f_type , . sa_code = code , . readonly = readonly } ; }
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struct f_tree * f_new_tree ( void ) ;
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struct f_inst * f_generate_complex ( enum f_instruction_code fi_code , struct f_dynamic_attr da , struct f_inst * argument ) ;
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struct f_inst * f_generate_roa_check ( struct rtable_config * table , struct f_inst * prefix , struct f_inst * asn ) ;
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struct f_tree * build_tree ( struct f_tree * ) ;
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const struct f_tree * find_tree ( const struct f_tree * t , const struct f_val * val ) ;
int same_tree ( const struct f_tree * t1 , const struct f_tree * t2 ) ;
void tree_format ( const struct f_tree * t , buffer * buf ) ;
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struct f_trie * f_new_trie ( linpool * lp , uint node_size ) ;
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void * trie_add_prefix ( struct f_trie * t , const net_addr * n , uint l , uint h ) ;
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int trie_match_net ( const struct f_trie * t , const net_addr * n ) ;
int trie_same ( const struct f_trie * t1 , const struct f_trie * t2 ) ;
void trie_format ( const struct f_trie * t , buffer * buf ) ;
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struct ea_list ;
struct rte ;
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enum filter_return f_run ( const struct filter * filter , struct rte * * rte , struct linpool * tmp_pool , int flags ) ;
enum filter_return f_eval_rte ( const struct f_line * expr , struct rte * * rte , struct linpool * tmp_pool ) ;
enum filter_return f_eval ( const struct f_line * expr , struct linpool * tmp_pool , struct f_val * pres ) ;
uint f_eval_int ( const struct f_line * expr ) ;
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char * filter_name ( struct filter * filter ) ;
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int filter_same ( struct filter * new , struct filter * old ) ;
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int f_same ( const struct f_line * f1 , const struct f_line * f2 ) ;
int val_compare ( const struct f_val * v1 , const struct f_val * v2 ) ;
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void val_format ( const struct f_val * v , buffer * buf ) ;
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extern const struct f_val f_const_empty_path , f_const_empty_clist , f_const_empty_eclist , f_const_empty_lclist ;
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# define FILTER_ACCEPT NULL
# define FILTER_REJECT ((void *) 1)
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# define FILTER_UNDEF ((void *) 2) /* Used in BGP */
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struct f_tree {
struct f_tree * left , * right ;
struct f_val from , to ;
void * data ;
} ;
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struct f_trie_node
{
ip_addr addr , mask , accept ;
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uint plen ;
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struct f_trie_node * c [ 2 ] ;
} ;
struct f_trie
{
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linpool * lp ;
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int zero ;
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uint node_size ;
struct f_trie_node root [ 0 ] ; /* Root trie node follows */
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} ;
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# define NEW_F_VAL struct f_val * val; val = cfg_alloc(sizeof(struct f_val));
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# define FF_SILENT 2 /* Silent filter execution */
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/* Custom route attributes */
struct custom_attribute {
resource r ;
struct f_dynamic_attr * fda ;
const char * name ;
} ;
struct custom_attribute * ca_lookup ( pool * p , const char * name , int ea_type ) ;
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/* Bird Tests */
struct f_bt_test_suite {
node n ; /* Node in config->tests */
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struct f_line * fn ; /* Root of function */
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const char * fn_name ; /* Name of test */
const char * dsc ; /* Description */
} ;
/* Hook for call bt_assert() function in configuration */
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extern void ( * bt_assert_hook ) ( int result , const struct f_line_item * assert ) ;
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# endif