mirror of
https://github.com/ChronosX88/netsukuku.git
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413 lines
10 KiB
C
413 lines
10 KiB
C
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/* 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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* --
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* rehook.c:
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* This code manages the rehook of gnodes, the challenges that must be solved
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* and generated in order to prove the number of nodes present in a gnode.
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*/
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#include "includes.h"
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#include "common.h"
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#include "hash.h"
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#include "llist.c"
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#include "libnetlink.h"
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#include "ll_map.h"
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#include "inet.h"
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#include "if.h"
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#include "krnl_route.h"
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#include "endianness.h"
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#include "bmap.h"
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#include "route.h"
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#include "iptunnel.h"
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#include "request.h"
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#include "pkts.h"
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#include "tracer.h"
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#include "qspn.h"
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#include "andna.h"
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#include "hook.h"
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#include "rehook.h"
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#include "radar.h"
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#include "netsukuku.h"
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#include "common.h"
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/*
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* rehook_argv: argv for the new_rehook_thread thread
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*/
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struct rehook_argv {
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int gid;
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map_gnode *gnode;
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int level;
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int gnode_count;
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};
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pthread_attr_t new_rehook_thread_attr;
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void rehook_init(void)
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{
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total_rehooks=0;
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last_instance_rehook=0;
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rehook_mutex=0;
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pthread_attr_init(&new_rehook_thread_attr);
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pthread_attr_setdetachstate(&new_rehook_thread_attr, PTHREAD_CREATE_DETACHED);
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}
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/*
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* rehook_compute_new_gnode: computes the IP which shall be used to create a
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* new gnode if the we cannot rehook to any gnode.
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* The computed ip is stored in `new_ip'.
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* `old_ip' is the IP we used before the rehook was launched.
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*/
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void rehook_compute_new_gnode(inet_prefix *old_ip, inet_prefix *new_ip,
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int hook_level)
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{
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quadro_group qg;
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int hash_gid;
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iptoquadg(*old_ip, me.ext_map, &qg, QUADG_GID);
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/*
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* Hash our gids starting from the `hook_level' level,
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* then xor the bytes of the hash merging them in a single byte.
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*/
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hash_gid=fnv_32_buf(&qg.gid[hook_level],
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(FAMILY_LVLS-hook_level),
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FNV1_32_INIT);
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qg.gid[hook_level]=xor_int(hash_gid);
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/* Be sure to choose VOID gnodes */
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void_gids(&qg, hook_level, me.ext_map, me.int_map);
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/* Save the new ip in `new_ip' */
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gidtoipstart(qg.gid, FAMILY_LVLS, FAMILY_LVLS, my_family, new_ip);
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}
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int send_challenge(int gnode, int level, int gnode_count)
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{
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/* TODO ^_^ */
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return 0;
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}
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/*
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* update_rehook_time: updates the rehook_time counter. If the limits are
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* reached -1 is returned and nothing is changed, otherwise 0 is the returned
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* value. (See rehook.h for more info on the limits).
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*/
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int update_rehook_time(int level)
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{
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time_t cur_t, sec_elapsed;
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cur_t=time(0);
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sec_elapsed=(cur_t - last_instance_rehook);
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if(total_rehooks && sec_elapsed > REHOOK_INSTANCE_TIME(level)) {
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/*
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* REHOOK_INSTANCE_TIME expired: we cannot take anymore rehooks
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* in this instance.
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*/
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if(sec_elapsed > REHOOK_WAIT_TIME(level))
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/* REHOOK_WAIT_TIME expired: a new instance begins */
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total_rehooks=0;
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else
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return -1;
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}
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if(total_rehooks > REHOOK_PER_INSTANCE)
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/* Too many rehooks in this instance */
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return -1;
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if(!total_rehooks)
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last_instance_rehook=cur_t;
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total_rehooks++;
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return 0;
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}
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/*
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* wait_new_rnode: it waits until we have a rnode, which belongs to
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* `rargv->gnode' or to `rk_gnode_ip'.
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*/
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void wait_new_rnode(struct rehook_argv *rargv)
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{
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ext_rnode_cache *erc;
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int gid_a[MAX_LEVELS], gid_b[MAX_LEVELS];
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int e=0, i, retries;
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debug(DBG_NOISE, "wait_new_rnode: waiting the %d rnode %d lvl appearance",
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rargv->gid, rargv->level);
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memcpy(&gid_a, me.cur_quadg.gid, sizeof(me.cur_quadg.gid));
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gid_a[rargv->level]=rargv->gid;
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iptogids(&rk_gnode_ip, gid_b, me.cur_quadg.levels);
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retries = QSPN_WAIT_ROUND_LVL(rargv->level)/MAX_RADAR_WAIT + 1;
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for(i=0; i<retries; i++) {
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e=0;
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erc=me.cur_erc;
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list_for(erc) {
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if(!gids_cmp(erc->e->quadg.gid, gid_a, rargv->level,
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me.cur_quadg.levels)) {
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e=1;
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break;
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}
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if(!gids_cmp(erc->e->quadg.gid, gid_b, rargv->level,
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me.cur_quadg.levels)) {
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e=1;
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break;
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}
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}
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if(e) {
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debug(DBG_NOISE, "wait_new_rnode: %d rnode %d "
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"lvl found", rargv->gid, rargv->level);
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return;
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}
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radar_wait_new_scan();
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}
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debug(DBG_NORMAL, "wait_new_rnode: not found! Anyway, trying to rehook");
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}
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/*
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* new_rehook_thread: a thread for each rehook() is necessary because the
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* rehook has to run without stopping the calling thread.
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*/
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void *new_rehook_thread(void *r)
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{
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struct rehook_argv *rargv=(struct rehook_argv *)r;
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ext_rnode_cache *erc;
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map_node *root_node;
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map_gnode *gnode;
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int i;
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/*
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* Send a new challenge if `CHALLENGE_THRESHOLD' was exceeded
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*/
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if(rargv->level && rargv->gnode_count >= CHALLENGE_THRESHOLD)
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if(send_challenge(rargv->gid, rargv->level,
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rargv->gnode_count))
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/* Challenge failed, do not rehook */
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goto finish;
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/* Store in `rk_gnode_ip' our new gnode ip to be used when the rehook
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* fails, just in case */
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rehook_compute_new_gnode(&me.cur_ip, &rk_gnode_ip, rargv->level);
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#if 0
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/* Before rehooking, at least one qspn_round has to be completed */
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while(!me.cur_qspn_id[rargv->level])
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usleep(505050);
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#endif
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/* Wait the radar_daemon, we need it up & running */
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while(!radar_daemon_ctl)
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usleep(505050);
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if(rargv->gid != me.cur_quadg.gid[rargv->level])
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wait_new_rnode(rargv);
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/*
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* Rehook now
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*/
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rehook(rargv->gnode, rargv->level);
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if(rargv->level) {
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/* Mark all the gnodes we border on as HOOKED, in this way
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* we won't try to rehook each time */
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erc=me.cur_erc;
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list_for(erc) {
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if(!erc->e)
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continue;
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if(erc->e->quadg.gnode[_EL(rargv->level)])
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erc->e->quadg.gnode[_EL(rargv->level)]->flags|=GMAP_HGNODE;
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}
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/* Mark also rargv->gnode */
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rargv->gnode->flags|=GMAP_HGNODE;
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/* Mark all the gnodes which are rnodes of our gnode of the
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* `rargv->level' level. */
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root_node=&me.cur_quadg.gnode[_EL(rargv->level)]->g;
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for(i=0; i<root_node->links; i++) {
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gnode=(map_gnode *)root_node->r_node[i].r_node;
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gnode->g.flags|=GMAP_HGNODE;
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}
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}
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finish:
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xfree(rargv);
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rehook_mutex=0;
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return 0;
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}
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/*
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* new_rehook: takes in exam the `gnode' composed by `gnode_count'# nodes, which
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* is at level `level' and which has a gnode id equal to `gid'.
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* When `level' is 0, `gnode' is a node and gnode_count isn't considered.
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*/
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void new_rehook(map_gnode *gnode, int gid, int level, int gnode_count)
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{
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struct rehook_argv *rargv;
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pthread_t thread;
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if(restricted_mode && level == me.cur_quadg.levels-1 &&
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gid != me.cur_quadg.gid[level])
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/* We are in restricted mode. The `gnode' is too restricted.
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* Our restricted class isn't the same of `gnode', therefore
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* do nothing. The restricted class are immutable. */
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return;
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if(!level && gid != me.cur_quadg.gid[level])
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/* We rehook at level 0 only if we have the same gid of
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* another node, so in this case we don't have to rehook */
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return;
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else if(level) {
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if(gnode_count < qspn_gnode_count[_EL(level)])
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/* We have more nodes, we don't have to rehook! */
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return;
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else if(gnode_count == qspn_gnode_count[_EL(level)] &&
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gid < me.cur_quadg.gid[level])
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/* We have the same number of nodes, but `gid' is
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* smaller than our gnode id, so it must rehook,
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* not us */
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return;
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else if(gnode_count == qspn_gnode_count[_EL(level)] &&
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gid == me.cur_quadg.gid[level] &&
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gnode->g.flags & MAP_RNODE)
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/* If `gnode' has our same gid and it is our rnode,
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* it's alright. */
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return;
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}
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if(gid == me.cur_quadg.gid[level]) {
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/*
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* There is a (g)node which has our same gid, hence we rehook
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* to our gnode of the higher level (hopefully we get a new
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* gid).
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*/
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if(level+1 < me.cur_quadg.levels)
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level++;
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gid = me.cur_quadg.gid[level];
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gnode = me.cur_quadg.gnode[_EL(level)];
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} else if(level && gnode->flags & GMAP_HGNODE)
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/* `gnode' is marked as HOOKED, return. */
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return;
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debug(DBG_NORMAL, "new_rehook: me.gid %d, gnode %d, level %d, gnode_count %d, "
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"qspn_gcount %d, our rnode: %d",
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me.cur_quadg.gid[level], gid, level,
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gnode_count, qspn_gnode_count[_EL(level)],
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gnode->g.flags & MAP_RNODE);
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/*
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* Update the rehook time and let's see if we can take this new rehook
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*/
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if(update_rehook_time(level)) {
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debug(DBG_SOFT, "new_rehook: we have to wait before accepting "
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"another rehook");
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return;
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}
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if(rehook_mutex)
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return;
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rehook_mutex=1;
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rargv = xmalloc(sizeof(struct rehook_argv));
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rargv->gid = gid;
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rargv->gnode = gnode;
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rargv->level = level;
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rargv->gnode_count = gnode_count;
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pthread_create(&thread, &new_rehook_thread_attr, new_rehook_thread,
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(void *)rargv);
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}
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/*
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* rehook: resets all the global variables set during the last hook/rehook,
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* and launches the netsukuku_hook() again. All the previous map will be lost
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* if not saved, the IP will also change.
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* During the rehook, the radar_daemon and andna_maintain_hnames_active() are
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* stopped.
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* After the rehook, the andna_hook will be launched and the stopped daemon
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* reactivated.
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*/
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int rehook(map_gnode *hook_gnode, int hook_level)
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{
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int ret=0;
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/* Stop the radar_daemon */
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radar_daemon_ctl=0;
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/* Wait the end of the current radar */
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radar_wait_new_scan();
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/* Mark ourself as hooking, this will stop
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* andna_maintain_hnames_active() daemon too. */
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me.cur_node->flags|=MAP_HNODE;
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/*
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* Reset the rnode list and external rnode list
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*/
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rnl_reset(&rlist, &rlist_counter);
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e_rnode_free(&me.cur_erc, &me.cur_erc_counter);
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if(restricted_mode) {
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/*
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* Delete all the tunnels, and reset all the structs used by
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* igs.c
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*/
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del_all_tunnel_ifs(0, 0, 0, NTK_TUNL_PREFIX);
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reset_igw_nexthop(multigw_nh);
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reset_igws(me.igws, me.igws_counter, me.cur_quadg.levels);
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reset_igw_rules();
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free_my_igws(&me.my_igws);
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}
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/* Andna reset */
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if(!server_opt.disable_andna) {
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andna_cache_destroy();
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counter_c_destroy();
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rh_cache_flush();
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}
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/* Clear the uptime */
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me.uptime=time(0);
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/*
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* * * REHOOK! * * *
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*/
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netsukuku_hook(hook_gnode, hook_level);
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/* Restart the radar daemon */
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radar_daemon_ctl=1;
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if(!server_opt.disable_andna) {
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/* Rehook in ANDNA and update our hostnames */
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andna_hook(0);
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andna_update_hnames(0);
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}
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return ret;
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}
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