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// SPDX-License-Identifier: GPL-2.0-or-later
/*
* Routing Table
* Copyright (C) 1998 Kunihiro Ishiguro
*/
#ifndef _ZEBRA_TABLE_H
#define _ZEBRA_TABLE_H
#include "memory.h"
#include "hash.h"
#include "prefix.h"
#include "typesafe.h"
#ifdef __cplusplus
extern "C" {
#endif
DECLARE_MTYPE(ROUTE_NODE);
/*
* Forward declarations.
*/
struct route_node;
struct route_table;
/*
* route_table_delegate_t
*
* Function vector that can be used by a client to customize the
* behavior of one or more route tables.
*/
typedef const struct route_table_delegate_t_ route_table_delegate_t;
typedef struct route_node *(*route_table_create_node_func_t)(
route_table_delegate_t *, struct route_table *);
typedef void (*route_table_destroy_node_func_t)(route_table_delegate_t *,
struct route_table *,
struct route_node *);
struct route_table_delegate_t_ {
route_table_create_node_func_t create_node;
route_table_destroy_node_func_t destroy_node;
};
PREDECL_HASH(rn_hash_node);
/* Routing table top structure. */
struct route_table {
struct route_node *top;
struct rn_hash_node_head hash;
/*
* Delegate that performs certain functions for this table.
*/
route_table_delegate_t *delegate;
void (*cleanup)(struct route_table *, struct route_node *);
unsigned long count;
/*
* User data.
*/
void *info;
};
/*
* node->link is really internal to the table code and should not be
* accessed by outside code. We don't have any writers (yay), though some
* readers are left to be fixed.
*
* rationale: we need to add a hash table in parallel, to speed up
* exact-match lookups.
*
* same really applies for node->parent, though that's less of an issue.
* table->link should be - and is - NEVER written by outside code
*/
#ifdef FRR_COMPILING_TABLE_C
#define table_rdonly(x) x
#define table_internal(x) x
#else
#define table_rdonly(x) const x
#define table_internal(x) \
const x __attribute__( \
(deprecated("this should only be accessed by lib/table.c")))
/* table_internal is for node->link and node->lock, once we have done
* something about remaining accesses */
#endif
/* so... the problem with this is that "const" doesn't mean "readonly".
* It in fact may allow the compiler to optimize based on the assumption
* that the value doesn't change. Hence, since the only purpose of this
* is to aid in development, don't put the "const" in release builds.
*
* (I haven't seen this actually break, but GCC and LLVM are getting ever
* more aggressive in optimizing...)
*/
#ifndef DEV_BUILD
#undef table_rdonly
#define table_rdonly(x) x
#endif
/*
* Macro that defines all fields in a route node.
*/
#define ROUTE_NODE_FIELDS \
/* Actual prefix of this radix. */ \
struct prefix p; \
\
/* Tree link. */ \
struct route_table *table_rdonly(table); \
struct route_node *table_rdonly(parent); \
struct route_node *table_rdonly(link[2]); \
\
/* Lock of this radix */ \
unsigned int table_rdonly(lock); \
\
struct rn_hash_node_item nodehash; \
/* Each node of route. */ \
void *info; \
/* Each routing entry. */
struct route_node {
ROUTE_NODE_FIELDS
#define l_left link[0]
#define l_right link[1]
};
typedef struct route_table_iter_t_ route_table_iter_t;
typedef enum {
RT_ITER_STATE_INIT,
RT_ITER_STATE_ITERATING,
RT_ITER_STATE_PAUSED,
RT_ITER_STATE_DONE
} route_table_iter_state_t;
/*
* route_table_iter_t
*
* Structure that holds state for iterating over a route table.
*/
struct route_table_iter_t_ {
route_table_iter_state_t state;
/*
* Routing table that we are iterating over. The caller must ensure
* that that table outlives the iterator.
*/
struct route_table *table;
/*
* The node that the iterator is currently on.
*/
struct route_node *current;
/*
* The last prefix that the iterator processed before it was paused.
*/
struct prefix pause_prefix;
};
/* Prototypes. */
extern struct route_table *route_table_init(void);
extern struct route_table *
route_table_init_with_delegate(route_table_delegate_t *delegate);
extern route_table_delegate_t *route_table_get_default_delegate(void);
static inline void *route_table_get_info(struct route_table *table)
{
return table->info;
}
static inline void route_table_set_info(struct route_table *table, void *d)
{
table->info = d;
}
extern void route_table_finish(struct route_table *table);
extern struct route_node *route_top(struct route_table *table);
extern struct route_node *route_next(struct route_node *node);
extern struct route_node *route_next_until(struct route_node *node,
const struct route_node *limit);
extern struct route_node *route_node_get(struct route_table *table,
union prefixconstptr pu);
extern struct route_node *route_node_lookup(struct route_table *table,
union prefixconstptr pu);
extern struct route_node *route_node_lookup_maynull(struct route_table *table,
union prefixconstptr pu);
extern struct route_node *route_node_match(struct route_table *table,
union prefixconstptr pu);
extern struct route_node *route_node_match_ipv4(struct route_table *table,
const struct in_addr *addr);
extern struct route_node *route_node_match_ipv6(struct route_table *table,
const struct in6_addr *addr);
extern unsigned long route_table_count(struct route_table *table);
extern struct route_node *route_node_create(route_table_delegate_t *delegate,
struct route_table *table);
extern void route_node_delete(struct route_node *node);
extern void route_node_destroy(route_table_delegate_t *delegate,
struct route_table *table,
struct route_node *node);
extern struct route_node *route_table_get_next(struct route_table *table,
union prefixconstptr pu);
extern int route_table_prefix_iter_cmp(const struct prefix *p1,
const struct prefix *p2);
/*
* Iterator functions.
*/
extern void route_table_iter_init(route_table_iter_t *iter,
struct route_table *table);
extern void route_table_iter_pause(route_table_iter_t *iter);
extern void route_table_iter_cleanup(route_table_iter_t *iter);
/*
* Inline functions.
*/
/* Lock node. */
static inline struct route_node *route_lock_node(struct route_node *node)
{
(*(unsigned *)&node->lock)++;
return node;
}
/* Unlock node. */
static inline void route_unlock_node(struct route_node *node)
{
assert(node->lock > 0);
(*(unsigned *)&node->lock)--;
if (node->lock == 0)
route_node_delete(node);
}
static inline unsigned int route_node_get_lock_count(struct route_node *node)
{
return node->lock;
}
/*
* route_table_iter_next
*
* Get the next node in the tree.
*/
static inline struct route_node *route_table_iter_next(route_table_iter_t *iter)
{
struct route_node *node;
switch (iter->state) {
case RT_ITER_STATE_INIT:
/*
* We're just starting the iteration.
*/
node = route_top(iter->table);
break;
case RT_ITER_STATE_ITERATING:
node = route_next(iter->current);
break;
case RT_ITER_STATE_PAUSED:
/*
* Start with the node following pause_prefix.
*/
node = route_table_get_next(iter->table, &iter->pause_prefix);
break;
case RT_ITER_STATE_DONE:
return NULL;
default:
/* Suppress uninitialized variable warning */
node = NULL;
assert(0);
}
iter->current = node;
if (node)
iter->state = RT_ITER_STATE_ITERATING;
else
iter->state = RT_ITER_STATE_DONE;
return node;
}
/*
* route_table_iter_is_done
*
* Returns true if the iteration is complete.
*/
static inline int route_table_iter_is_done(route_table_iter_t *iter)
{
return iter->state == RT_ITER_STATE_DONE;
}
/*
* route_table_iter_started
*
* Returns true if this iterator has started iterating over the tree.
*/
static inline int route_table_iter_started(route_table_iter_t *iter)
{
return iter->state != RT_ITER_STATE_INIT;
}
#ifdef _FRR_ATTRIBUTE_PRINTFRR
#pragma FRR printfrr_ext "%pRN" (struct route_node *)
#endif
#ifdef __cplusplus
}
#endif
#endif /* _ZEBRA_TABLE_H */
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