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500 lines
14 KiB
C
500 lines
14 KiB
C
/* This file is part of Netsukuku
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* (c) Copyright 2005 Andrea Lo Pumo aka AlpT <alpt@freaknet.org>
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*
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* This source code is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License as published
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* by the Free Software Foundation; either version 2 of the License,
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* or (at your option) any later version.
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*
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* This source code is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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* Please refer to the GNU Public License for more details.
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*
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* You should have received a copy of the GNU Public License along with
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* this source code; if not, write to:
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* Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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*/
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#ifndef ANDNA_CACHE_H
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#define ANDNA_CACHE_H
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#include "inet.h"
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#include "crypto.h"
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#include "endianness.h"
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#include "llist.c"
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#include "snsd_cache.h"
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/*
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* ANDNA definitions
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*/
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#define ANDNA_MAX_BACKUP_GNODES 2
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#define ANDNA_MAX_QUEUE 5
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#define ANDNA_MAX_HNAME_LEN 512 /* (null terminator included) */
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#define ANDNA_MAX_HOSTNAMES 256 /* Max number of hnames per node */
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#define ANDNA_MAX_RHC_HNAMES 512 /* Max number of hnames kept in
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the resolved_hnames cache* */
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#define ANDNA_EXPIRATION_TIME 259200 /* 3 days (in seconds)*/
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#define ANDNA_MIN_UPDATE_TIME 3600 /* The minum amount of time to
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be waited before sending an
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update of the hname. */
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#define ANDNA_PRIVKEY_BITS 1024
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#define ANDNA_SKEY_MAX_LEN 900
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#define ANDNA_PKEY_LEN 140
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#define ANDNA_HASH_SZ (MAX_IP_SZ)
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#define ANDNA_SIGNATURE_LEN 128
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/* Returns the number of nodes to be used in a backup_gnode */
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#define ANDNA_BACKUP_NODES(seeds) ({(seeds) > 8 ? \
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((seeds)*32)/MAXGROUPNODE : (seeds);})
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#ifdef DEBUG
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#undef ANDNA_EXPIRATION_TIME
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#define ANDNA_EXPIRATION_TIME 100
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#undef ANDNA_MIN_UPDATE_TIME
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#define ANDNA_MIN_UPDATE_TIME 2
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#endif
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/*
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* * * Cache stuff * * *
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*/
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/* * andna_cache flags * */
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#define ANDNA_BACKUP 1 /* We are a backup_node */
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#define ANDNA_COUNTER (1<<1) /* We are a counter_node */
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#define ANDNA_ROUNDED (1<<2) /* We are a rounded_hash_node */
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#define ANDNA_FULL (1<<3) /* Queue full */
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#define ANDNA_UPDATING (1<<4) /* The hname is being updated
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right now */
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/*
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* andna_cache_queue
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*
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* The queue of the andna_cache. (see below).
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*/
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struct andna_cache_queue
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{
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LLIST_HDR (struct andna_cache_queue);
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time_t timestamp;
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u_short hname_updates; /* numbers of hname's updates */
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char pubkey[ANDNA_PKEY_LEN];
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u_short snsd_counter; /* # of `snsd' nodes */
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snsd_service *service;
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};
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typedef struct andna_cache_queue andna_cache_queue;
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/*
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* andna_cache
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*
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* It keeps the entries of the hostnames registered by other nodes.
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*/
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struct andna_cache
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{
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LLIST_HDR (struct andna_cache);
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u_int hash[MAX_IP_INT]; /* hostname's hash */
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char flags;
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u_short queue_counter;
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andna_cache_queue *acq; /* The queue of the registration.
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The first is the active one */
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};
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typedef struct andna_cache andna_cache;
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/* part of the counter cache, see below */
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struct counter_c_hashes
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{
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LLIST_HDR (struct counter_c_hashes);
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time_t timestamp;
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u_short hname_updates;
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int hash[MAX_IP_INT];
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};
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typedef struct counter_c_hashes counter_c_hashes;
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INT_INFO counter_c_hashes_body_iinfo = { 2,
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{ INT_TYPE_32BIT, INT_TYPE_16BIT },
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{ 0, sizeof(time_t) },
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{ 1, 1 }
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};
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/*
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* counter_c
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* Counter node's cache.
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*
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* All the infos regarding a particular register_node are stored here. For
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* example, we need to know how many hostnames he already registered.
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*/
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struct counter_c
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{
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LLIST_HDR (struct counter_c);
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char pubkey[ANDNA_PKEY_LEN];
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char flags;
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u_short hashes; /* The number of hashes in cch */
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counter_c_hashes *cch; /* The hashes of the hnames */
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};
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typedef struct counter_c counter_c;
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INT_INFO counter_c_body_iinfo = { 1,
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{ INT_TYPE_16BIT },
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{ ANDNA_PKEY_LEN+sizeof(char) },
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{ 1 }
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};
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/*
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* lcl_cache_keyring
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*
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* The lcl keyring is used to store the RSA keys used to complete some of the
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* ANDNA requests, (f.e. registering or updating a hname).
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*/
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typedef struct
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{
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u_int skey_len;
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u_int pkey_len;
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u_char *privkey; /* secret key packed */
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u_char *pubkey; /* pubkey packed */
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RSA *priv_rsa; /* key pair unpacked */
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} lcl_cache_keyring;
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/*
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* lcl_cache
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*
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* The Local Andna Cache keeps all the hostnames which have been register by
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* localhost (ourself).
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*/
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struct lcl_cache
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{
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LLIST_HDR (struct lcl_cache);
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char *hostname; /* The registered hostname */
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u_int hash; /* 32bit hash of the md5 hash
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of the hname */
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u_short hname_updates; /* How many updates we've done
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for this hostname */
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time_t timestamp; /* the last time when the hname
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was updated. If it is 0, the
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hname has still to be
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registered */
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u_short snsd_counter; /* # of `snsds' */
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snsd_service *service;
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char flags;
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};
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typedef struct lcl_cache lcl_cache;
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/*
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* resolved_hnames_cache
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*
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* This cache keeps info on the already resolved hostnames, so we won't have
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* to resolve them soon again.
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* In order to optimize the search we order the linked list by the time
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* of hname resolution. The last hname which has been searched/resolved is
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* always moved at the head of the llist, in this way, at the end of the llist
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* there is the hname which has been searched for the first time but has been
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* ignored until now.
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* When the cache is full, the hname which is at the end of the llist is
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* removed to empty new space.
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* The hname which have the `timestamp' expired are removed too.
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*/
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struct resolved_hnames_cache
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{
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LLIST_HDR (struct resolved_hnames_cache);
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u_int hash; /* 32bit hash of the md5 hash of the
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hname */
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char flags;
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time_t timestamp; /* the last time when the hname
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was updated. With this we know that
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at timestamp+ANDNA_EXPIRATION_TIME
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this cache will expire. */
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u_short snsd_counter;
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snsd_service *service;
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};
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typedef struct resolved_hnames_cache rh_cache;
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/*
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* * * * Global vars * * *
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*/
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andna_cache *andna_c;
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int andna_c_counter;
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counter_c *andna_counter_c;
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int cc_counter;
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lcl_cache_keyring lcl_keyring;
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lcl_cache *andna_lcl;
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int lcl_counter;
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rh_cache *andna_rhc;
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int rhc_counter;
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/*
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*
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* * * * Package stuff * * *
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*
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*/
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/*
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* * * * lcl cache package * * *
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*/
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struct lcl_keyring_pkt_hdr
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{
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u_int skey_len;
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u_int pkey_len;
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}_PACKED_;
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/*
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* the rest of the pkt is:
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*
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* char privkey[hdr.skey_len];
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* char pubkey[hdr.pkey_len];
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*/
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INT_INFO lcl_keyring_pkt_hdr_iinfo = { 2,
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{ INT_TYPE_32BIT, INT_TYPE_32BIT },
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{ 0, sizeof(u_int) },
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{ 1, 1 }
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};
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#define LCL_KEYRING_HDR_PACK_SZ(khdr) (sizeof(struct lcl_keyring_pkt_hdr) + \
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(khdr)->skey_len + (khdr)->pkey_len)
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/*
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* The local cache pkt is used to pack the entire local cache to save it in a
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* file or to send it to a node.
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*/
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struct lcl_cache_pkt_hdr
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{
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u_short tot_caches; /* How many lcl structs there
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are in the pkt's body */
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}_PACKED_;
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INT_INFO lcl_cache_pkt_hdr_iinfo = { 1, { INT_TYPE_16BIT }, { 0 }, { 1 } };
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#define LCL_CACHE_HDR_PACK_SZ (sizeof(struct lcl_cache_pkt_hdr))
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/*
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* The body is:
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*
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* struct lcl_cache_pkt_body {
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* u_short hname_updates;
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* time_t timestamp;
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* char hostname[strlen(hostname)+1]; * null terminated *
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* } body[ hdr.tot_caches ];
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*
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*/
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#define LCL_CACHE_BODY_PACK_SZ(hname_len) ((hname_len) + sizeof(u_short) \
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+ sizeof(time_t))
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INT_INFO lcl_cache_pkt_body_iinfo = { 2, { INT_TYPE_16BIT, INT_TYPE_32BIT },
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{ 0, sizeof(u_short) },
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{ 1, 1 }
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};
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/*
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* * * * andna cache package * * *
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*/
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/*
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* the body of the acq_pkt is:
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* struct acq_pkt_body {
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* time_t timestamp;
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* u_short hname_updates;
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* char pubkey[ANDNA_PKEY_LEN];
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*
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* u_short snsd_counter;
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* char snsd_service_pack[SNSD_SERVICE_PACK_SZ];
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* };
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*/
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INT_INFO acq_body_iinfo = { 3,
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{ INT_TYPE_32BIT, INT_TYPE_16BIT, INT_TYPE_16BIT },
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{ 0, sizeof(time_t),
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sizeof(time_t) + sizeof(u_short) + ANDNA_PKEY_LEN },
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{ 1, 1, 1 }
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};
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#define ACQ_BODY_PACK_SZ (sizeof(time_t) + sizeof(u_short)*2 + \
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ANDNA_PKEY_LEN)
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#define ACQ_PACK_SZ(snsd_pack_sz) (ACQ_BODY_PACK_SZ + (snsd_pack_sz))
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struct andna_cache_pkt_hdr
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{
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u_short tot_caches;
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}_PACKED_;
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INT_INFO andna_cache_pkt_hdr_iinfo = { 1, { INT_TYPE_16BIT }, { 0 }, { 1 } };
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/*
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* The body is:
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* struct andna_cache_pack {
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* u_int hash[MAX_IP_INT];
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* char flags;
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* u_short queue_counter;
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* char acq_pack[ACQ_PACK_SZ*queue_counter];
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* } acache_pack[hdr.tot_caches];
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*/
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INT_INFO andna_cache_body_iinfo = { 1,
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{ INT_TYPE_16BIT },
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{ MAX_IP_SZ+sizeof(char) },
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{ 1 }
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};
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#define ACACHE_BODY_PACK_SZ (ANDNA_HASH_SZ + sizeof(char) + \
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sizeof(u_short))
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#define ACACHE_PACK_SZ(acq_pack_sz) ((acq_pack_sz) + ACACHE_BODY_PACK_SZ)
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/*
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* If the acache pack will be sent on a network packet, the `acq->timestamp'
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* will be the difference of the current time with the same `acq->timestamp',
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* in this way the node which receives the packet will add its current time to
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* `acq->timestamp'. This is necessary because the sending and receiving node
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* don't have the clock synced. Note that the rtt isn't considered because it
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* is generally very small and the ANDNA times don't need an accurate
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* precision, f.e. the expiration time is three days long.
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* If the pack is saved on a file, then `acq->timestamp' remains the same.
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* Problem: if the clock is changed, acq->timestamp will refer to the old
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* clock.
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*/
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#define ACACHE_PACK_FILE 1
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#define ACACHE_PACK_PKT 2
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/*
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* The counter cache pkt is similar to the andna_cache_pkt, it is completely
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* arranged in the same way.
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*/
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struct counter_c_pkt_hdr
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{
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u_short tot_caches;
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}_PACKED_;
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INT_INFO counter_c_pkt_hdr_iinfo = { 1, { INT_TYPE_16BIT }, { 0 }, { 1 } };
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#define COUNTER_CACHE_HASHES_PACK_SZ (sizeof(time_t) + sizeof(u_short) + \
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ANDNA_HASH_SZ)
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#define COUNTER_CACHE_BODY_PACK_SZ (ANDNA_PKEY_LEN + sizeof(char) + \
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sizeof(u_short))
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#define COUNTER_CACHE_PACK_SZ(hashes) ((COUNTER_CACHE_HASHES_PACK_SZ*(hashes))\
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+ COUNTER_CACHE_BODY_PACK_SZ)
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/*
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* * * * Resolved hostnames cache pkt. * * *
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*/
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struct rh_cache_pkt_hdr
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{
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u_short tot_caches; /* How many lcl structs there
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are in the pkt's hdr */
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}_PACKED_;
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INT_INFO rh_cache_pkt_hdr_iinfo = { 1, { INT_TYPE_16BIT }, { 0 }, { 1 } };
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/*
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* The body is:
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* struct rh_cache_pkt_body {
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* u_int hash;
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* char flags;
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* time_t timestamp;
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*
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* u_short snsd_counter;
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* char snsd_service_pack[SNSD_SERVICE_PACK_SZ];
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* } body[ hdr.tot_caches ];
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*/
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#define RH_CACHE_BODY_PACK_SZ(snsd_pack_sz) (sizeof(u_int)+sizeof(char)+ \
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sizeof(time_t)+sizeof(u_short)+\
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(snsd_pack_sz))
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INT_INFO rh_cache_pkt_body_iinfo = { 3,
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{ INT_TYPE_32BIT, INT_TYPE_32BIT, INT_TYPE_16BIT },
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{ 0, sizeof(u_int)+sizeof(char),
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sizeof(u_int)+sizeof(char)+sizeof(time_t) },
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{ 1, 1, 1 }
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};
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/*
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* * * Functions' declaration * * *
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*/
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void andna_caches_init(int family);
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void lcl_new_keyring(lcl_cache_keyring *keyring);
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void lcl_destroy_keyring(lcl_cache_keyring *keyring);
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lcl_cache *lcl_cache_new(char *hname);
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void lcl_cache_free(lcl_cache *alcl);
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void lcl_cache_destroy(lcl_cache *head, int *counter);
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lcl_cache *lcl_cache_find_hname(lcl_cache *head, char *hname);
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lcl_cache *lcl_cache_find_hash(lcl_cache *alcl, u_int hash);
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lcl_cache *lcl_get_registered_hnames(lcl_cache *alcl);
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andna_cache_queue *ac_queue_findpubk(andna_cache *ac, char *pubk);
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andna_cache_queue *ac_queue_add(andna_cache *ac, char *pubkey);
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void ac_queue_del(andna_cache *ac, andna_cache_queue *acq);
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void ac_queue_del_expired(andna_cache *ac);
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void ac_queue_destroy(andna_cache *ac);
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andna_cache *andna_cache_findhash(int hash[MAX_IP_INT]);
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andna_cache *andna_cache_gethash(int hash[MAX_IP_INT]);
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andna_cache *andna_cache_addhash(int hash[MAX_IP_INT]);
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int andna_cache_del_ifexpired(andna_cache *ac);
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void andna_cache_del_expired(void);
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void andna_cache_destroy(void);
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counter_c_hashes *cc_hashes_add(counter_c *cc, int hash[MAX_IP_INT]);
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void cc_hashes_del(counter_c *cc, counter_c_hashes *cch);
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int counter_c_del_ifexpired(counter_c *cc);
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void cc_hashes_del_expired(counter_c *cc);
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void cc_hashes_destroy(counter_c *cc);
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counter_c_hashes *cc_findhash(counter_c *cc, int hash[MAX_IP_INT]);
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counter_c *counter_c_findpubk(char *pubk);
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counter_c *counter_c_add(inet_prefix *rip, char *pubkey);
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void counter_c_del_expired(void);
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void counter_c_destroy(void);
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rh_cache *rh_cache_new(char *hname, time_t timestamp);
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rh_cache *rh_cache_add_hash(u_int hash, time_t timestamp);
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rh_cache *rh_cache_add(char *hname, time_t timestamp);
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rh_cache *rh_cache_find_hash(u_int hash);
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rh_cache *rh_cache_find_hname(char *hname);
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void rh_cache_del(rh_cache *rhc);
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void rh_cache_del_expired(void);
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void rh_cache_flush(void);
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char *pack_lcl_keyring(lcl_cache_keyring *keyring, size_t *pack_sz);
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int unpack_lcl_keyring(lcl_cache_keyring *keyring, char *pack, size_t pack_sz);
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char *pack_lcl_cache(lcl_cache *local_cache, size_t *pack_sz);
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lcl_cache *unpack_lcl_cache(char *pack, size_t pack_sz, int *counter);
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char *pack_andna_cache(andna_cache *acache, size_t *pack_sz, int pack_type);
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andna_cache *unpack_andna_cache(char *pack, size_t pack_sz, int *counter,
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int pack_type);
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char *pack_counter_cache(counter_c *countercache, size_t *pack_sz);
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counter_c *unpack_counter_cache(char *pack, size_t pack_sz, int *counter);
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char *pack_rh_cache(rh_cache *rhcache, size_t *pack_sz);
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rh_cache *unpack_rh_cache(char *pack, size_t pack_sz, int *counter);
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int save_lcl_keyring(lcl_cache_keyring *keyring, char *file);
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int load_lcl_keyring(lcl_cache_keyring *keyring, char *file);
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int save_lcl_cache(lcl_cache *lcl, char *file);
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lcl_cache *load_lcl_cache(char *file, int *counter);
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int save_andna_cache(andna_cache *acache, char *file);
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andna_cache *load_andna_cache(char *file, int *counter);
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int save_counter_c(counter_c *countercache, char *file);
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counter_c *load_counter_c(char *file, int *counter);
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int save_rh_cache(rh_cache *rh, char *file);
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rh_cache *load_rh_cache(char *file, int *counter);
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int load_hostnames(char *file, lcl_cache **old_alcl_head, int *old_alcl_counter);
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int load_snsd(char *file, lcl_cache *alcl_head);
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int add_resolv_conf(char *hname, char *file);
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int del_resolv_conf(char *hname, char *file);
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#endif /*ANDNA_CACHE_H*/
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