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529 lines
17 KiB
C
529 lines
17 KiB
C
/*
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Serval DNA MDP addressing
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Copyright (C) 2012-2013 Serval Project Inc.
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Copyright (C) 2012 Paul Gardner-Stephen
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program 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. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*/
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/*
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Smart-flooding of broadcast information is also a requirement. The long addresses help here, as we can make any address that begins
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with the first 192 bits all ones be broadcast, and use the remaining 64 bits as a "broadcast packet identifier" (BPI).
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Nodes can remember recently seen BPIs and not forward broadcast frames that have been seen recently. This should get us smart flooding
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of the majority of a mesh (with some node mobility issues being a factor). We could refine this later, but it will do for now, especially
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since for things like number resolution we are happy to send repeat requests.
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*/
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#include <assert.h>
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#include <arpa/inet.h>
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#include "serval.h"
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#include "conf.h"
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#include "str.h"
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#include "overlay_address.h"
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#include "overlay_buffer.h"
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#include "overlay_interface.h"
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#include "overlay_packet.h"
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#include "server.h"
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#include "route_link.h"
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#define MAX_BPIS 1024
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#define BPI_MASK 0x3ff
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static struct broadcast bpilist[MAX_BPIS];
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#define OA_CODE_SELF 0xff
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#define OA_CODE_PREVIOUS 0xfe
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#define OA_CODE_P2P_YOU 0xfd
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#define OA_CODE_P2P_ME 0xfc
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// each node has 16 slots based on the next 4 bits of a subscriber id
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// each slot either points to another tree node or a struct subscriber.
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struct tree_node{
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// bit flags for the type of object each element points to
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uint16_t is_tree;
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union{
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struct tree_node *tree_nodes[16];
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struct subscriber *subscribers[16];
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};
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};
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static __thread struct tree_node root;
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__thread struct subscriber *my_subscriber=NULL;
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static unsigned char get_nibble(const unsigned char *sidp, int pos)
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{
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unsigned char byte = sidp[pos>>1];
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if (!(pos&1))
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byte=byte>>4;
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return byte&0xF;
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}
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static void free_subscriber(struct subscriber *subscriber)
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{
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if (subscriber->link_state || subscriber->destination)
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FATAL("Can't free a subscriber that is being used in routing");
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if (subscriber->sync_state)
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FATAL("Can't free a subscriber that is being used by rhizome");
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if (subscriber->identity)
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FATAL("Can't free a subscriber that is unlocked in the keyring");
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free(subscriber);
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}
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static void free_children(struct tree_node *parent)
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{
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int i;
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for (i=0;i<16;i++){
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if (parent->is_tree & (1<<i)){
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free_children(parent->tree_nodes[i]);
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free(parent->tree_nodes[i]);
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parent->tree_nodes[i]=NULL;
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}else if(parent->subscribers[i]){
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free_subscriber(parent->subscribers[i]);
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parent->subscribers[i]=NULL;
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}
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}
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parent->is_tree=0;
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}
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void free_subscribers()
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{
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// don't attempt to free anything if we're running as a server
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// who knows where subscriber ptr's may have leaked to.
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if (serverMode)
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FATAL("Freeing subscribers from a running daemon is not supported");
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free_children(&root);
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}
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// find a subscriber struct from a whole or abbreviated subscriber id
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struct subscriber *_find_subscriber(struct __sourceloc __whence, const unsigned char *sidp, int len, int create)
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{
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IN();
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DEBUGF(subscriber, "find_subscriber(sid=%s, create=%d)", alloca_tohex(sidp, len), create);
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struct tree_node *ptr = &root;
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int pos=0;
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if (len!=SID_SIZE)
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create =0;
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struct subscriber *ret = NULL;
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do {
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unsigned char nibble = get_nibble(sidp, pos++);
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if (ptr->is_tree & (1<<nibble)){
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ptr = ptr->tree_nodes[nibble];
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}else if(!ptr->subscribers[nibble]){
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// subscriber is not yet known
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if (create && (ret = (struct subscriber *) emalloc_zero(sizeof(struct subscriber)))) {
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ptr->subscribers[nibble] = ret;
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ret->sid = *(const sid_t *)sidp;
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ret->abbreviate_len = pos;
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DEBUGF(subscriber, "set node[%.*s].subscribers[%c]=%p (sid=%s, abbrev_len=%d)",
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pos - 1, alloca_tohex(sidp, len), hexdigit_upper[nibble],
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ret, alloca_tohex_sid_t(ret->sid), ret->abbreviate_len
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);
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}
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goto done;
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}else{
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// there's a subscriber in this slot, does it match the rest of the sid we've been given?
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ret = ptr->subscribers[nibble];
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if (memcmp(ret->sid.binary, sidp, len) == 0)
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goto done;
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// if we need to insert this subscriber, we have to make a new tree node first
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if (!create) {
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ret = NULL;
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goto done;
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}
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// create a new tree node and move the existing subscriber into it
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struct tree_node *new = (struct tree_node *) emalloc_zero(sizeof(struct tree_node));
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if (new == NULL) {
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ret = NULL;
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goto done;
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}
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DEBUGF(subscriber, "create node[%.*s]", pos, alloca_tohex(sidp, len));
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ptr->tree_nodes[nibble] = new;
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ptr->is_tree |= (1<<nibble);
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ptr = new;
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nibble = get_nibble(ret->sid.binary, pos);
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ptr->subscribers[nibble] = ret;
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ret->abbreviate_len = pos + 1;
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DEBUGF(subscriber, "set node[%.*s].subscribers[%c]=%p(sid=%s, abbrev_len=%d)",
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pos, alloca_tohex(sidp, len), hexdigit_upper[nibble],
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ret, alloca_tohex_sid_t(ret->sid), ret->abbreviate_len
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);
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// then go around the loop again to compare the next nibble against the sid until we find an empty slot.
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}
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} while(pos < len*2);
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done:
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DEBUGF(subscriber, "find_subscriber() return %p", ret);
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RETURN(ret);
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}
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/*
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Walk the subscriber tree, calling the callback function for each subscriber.
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if start is a valid pointer, the first entry returned will be after this subscriber
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if the callback returns non-zero, the process will stop.
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*/
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static int walk_tree(struct tree_node *node, int pos,
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unsigned char *start, int start_len,
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unsigned char *end, int end_len,
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int(*callback)(struct subscriber *, void *), void *context){
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int i=0, e=16;
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if (start && pos < start_len*2){
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i=get_nibble(start,pos);
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}
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if (end && pos < end_len*2){
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e=get_nibble(end,pos) +1;
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}
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for (;i<e;i++){
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if (node->is_tree & (1<<i)){
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if (walk_tree(node->tree_nodes[i], pos+1, start, start_len, end, end_len, callback, context))
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return 1;
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}else if(node->subscribers[i]){
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if (callback(node->subscribers[i], context))
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return 1;
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}
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// stop comparing the start sid after looking at the first branch of the tree
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start=NULL;
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}
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return 0;
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}
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/*
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walk the tree, starting at start inclusive, calling the supplied callback function
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*/
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void enum_subscribers(struct subscriber *start, int(*callback)(struct subscriber *, void *), void *context)
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{
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walk_tree(&root, 0, start->sid.binary, SID_SIZE, NULL, 0, callback, context);
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}
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// generate a new random broadcast address
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int overlay_broadcast_generate_address(struct broadcast *addr)
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{
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int i;
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for(i=0;i<BROADCAST_LEN;i++) addr->id[i]=random()&0xff;
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return 0;
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}
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// test if the broadcast address has been seen
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int overlay_broadcast_drop_check(struct broadcast *addr)
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{
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/* Hash the BPI and see if we have seen it recently.
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If so, drop the frame.
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The occassional failure to supress a broadcast frame is not
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something we are going to worry about just yet. For byzantine
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robustness it is however required. */
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int bpi_index=0;
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int i;
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for(i=0;i<BROADCAST_LEN;i++)
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{
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bpi_index=((bpi_index<<3)&0xfff8)+((bpi_index>>13)&0x7);
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bpi_index^=addr->id[i];
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}
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bpi_index&=BPI_MASK;
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if (memcmp(bpilist[bpi_index].id, addr->id, BROADCAST_LEN)){
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DEBUGF(broadcasts, "BPI %s is new", alloca_tohex(addr->id, BROADCAST_LEN));
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bcopy(addr->id, bpilist[bpi_index].id, BROADCAST_LEN);
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return 0; /* don't drop */
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}else{
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DEBUGF(broadcasts, "BPI %s is a duplicate", alloca_tohex(addr->id, BROADCAST_LEN));
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return 1; /* drop frame because we have seen this BPI recently */
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}
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}
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void overlay_broadcast_append(struct overlay_buffer *b, struct broadcast *broadcast)
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{
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ob_append_bytes(b, broadcast->id, BROADCAST_LEN);
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}
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// append an appropriate abbreviation into the address
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void overlay_address_append(struct decode_context *context, struct overlay_buffer *b, struct subscriber *subscriber)
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{
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assert(subscriber != NULL);
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if (context && subscriber == context->point_to_point_device)
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ob_append_byte(b, OA_CODE_P2P_YOU);
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else if(context
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&& !subscriber->send_full
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&& subscriber == my_subscriber
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&& context->point_to_point_device
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&& (context->encoding_header==0 || !context->interface->local_echo))
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ob_append_byte(b, OA_CODE_P2P_ME);
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else if (context && subscriber==context->sender)
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ob_append_byte(b, OA_CODE_SELF);
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else if (context && subscriber==context->previous)
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ob_append_byte(b, OA_CODE_PREVIOUS);
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else {
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int len=SID_SIZE;
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if (subscriber->send_full){
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subscriber->send_full=0;
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}else{
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len=(subscriber->abbreviate_len+2)/2;
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if (context && context->encoding_header)
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len++;
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if (len>SID_SIZE)
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len=SID_SIZE;
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}
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ob_append_byte(b, len);
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ob_append_bytes(b, subscriber->sid.binary, len);
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}
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if (context)
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context->previous = subscriber;
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}
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static int add_explain_response(struct subscriber *subscriber, void *context)
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{
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struct decode_context *response = context;
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// only explain a SID once every half second.
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time_ms_t now = gettime_ms();
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if (now - subscriber->last_explained < 500)
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return 0;
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subscriber->last_explained = now;
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if (!response->please_explain){
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if ((response->please_explain = emalloc_zero(sizeof(struct overlay_frame))) == NULL)
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return 1; // stop walking
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if ((response->please_explain->payload = ob_new()) == NULL) {
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free(response->please_explain);
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response->please_explain = NULL;
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return 1; // stop walking
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}
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ob_limitsize(response->please_explain->payload, 1024);
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}
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// if one of our identities is unknown,
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// the header of this packet must include our full sid.
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if (subscriber->reachable==REACHABLE_SELF){
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if (subscriber==my_subscriber){
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DEBUGF(subscriber, "Explaining SELF sid=%s", alloca_tohex_sid_t(subscriber->sid));
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response->please_explain->source_full=1;
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return 0;
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}
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subscriber->send_full=1;
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}
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// add the whole subscriber id to the payload, stop if we run out of space
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DEBUGF(subscriber, "Explaining sid=%s", alloca_tohex_sid_t(subscriber->sid));
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ob_checkpoint(response->please_explain->payload);
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ob_append_byte(response->please_explain->payload, SID_SIZE);
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ob_append_bytes(response->please_explain->payload, subscriber->sid.binary, SID_SIZE);
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if (ob_overrun(response->please_explain->payload)) {
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ob_rewind(response->please_explain->payload);
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return 1;
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}
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// let the routing engine know that we had to explain this sid, we probably need to re-send routing info
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link_explained(subscriber);
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return 0;
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}
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static int find_subscr_buffer(struct decode_context *context, struct overlay_buffer *b, int len, struct subscriber **subscriber)
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{
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if (len<=0 || len>SID_SIZE){
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return WHYF("Invalid abbreviation length %d", len);
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}
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unsigned char *id = ob_get_bytes_ptr(b, len);
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if (!id){
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return WHY("Not enough space in buffer to parse address");
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}
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if (!subscriber){
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WARN("Could not resolve address, no buffer supplied");
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context->invalid_addresses=1;
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return 0;
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}
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*subscriber=find_subscriber(id, len, 1);
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if (!*subscriber){
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context->invalid_addresses=1;
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// generate a please explain in the passed in context
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// add the abbreviation you told me about
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if (!context->please_explain){
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context->please_explain = calloc(sizeof(struct overlay_frame),1);
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if ((context->please_explain->payload = ob_new()) == NULL)
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return -1;
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ob_limitsize(context->please_explain->payload, MDP_MTU);
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}
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// And I'll tell you about any subscribers I know that match this abbreviation,
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// so you don't try to use an abbreviation that's too short in future.
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walk_tree(&root, 0, id, len, id, len, add_explain_response, context);
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INFOF("Asking for explanation of %s", alloca_tohex(id, len));
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ob_append_byte(context->please_explain->payload, len);
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ob_append_bytes(context->please_explain->payload, id, len);
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}else{
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if (context)
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context->previous=*subscriber;
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}
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return 0;
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}
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int overlay_broadcast_parse(struct overlay_buffer *b, struct broadcast *broadcast)
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{
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return ob_get_bytes(b, broadcast->id, BROADCAST_LEN);
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}
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// returns 0 = success, -1 = fatal parsing error, 1 = unable to identify address
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int overlay_address_parse(struct decode_context *context, struct overlay_buffer *b, struct subscriber **subscriber)
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{
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int len = ob_get(b);
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if (len<0)
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return WHY("Buffer too small");
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switch(len){
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case OA_CODE_P2P_YOU:
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// if we don't know who they are, we can't assume they mean us.
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if (context->point_to_point_device){
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*subscriber=my_subscriber;
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context->previous=my_subscriber;
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}else{
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WHYF("Could not resolve address on %s, this isn't a configured point to point link", context->interface->name);
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context->invalid_addresses=1;
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}
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return 0;
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case OA_CODE_P2P_ME:
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if (context->point_to_point_device){
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*subscriber=context->point_to_point_device;
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context->previous=*subscriber;
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}else{
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// add the abbreviation you told me about
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if (!context->please_explain){
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context->please_explain = calloc(sizeof(struct overlay_frame),1);
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if ((context->please_explain->payload = ob_new()) == NULL)
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return -1;
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ob_limitsize(context->please_explain->payload, MDP_MTU);
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}
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INFOF("Asking for explanation of YOU");
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ob_append_byte(context->please_explain->payload, OA_CODE_P2P_YOU);
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context->invalid_addresses=1;
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}
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return 0;
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case OA_CODE_SELF:
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if (!context->sender){
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INFO("Could not resolve address, sender has not been set");
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context->invalid_addresses=1;
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}else{
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*subscriber=context->sender;
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context->previous=context->sender;
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}
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return 0;
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case OA_CODE_PREVIOUS:
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if (!context->previous){
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INFO("Unable to decode previous address");
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context->invalid_addresses=1;
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}else{
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*subscriber=context->previous;
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}
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return 0;
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}
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return find_subscr_buffer(context, b, len, subscriber);
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}
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// once we've finished parsing a packet, complete and send a please explain if required.
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int send_please_explain(struct decode_context *context, struct subscriber *source, struct subscriber *destination)
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{
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IN();
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struct overlay_frame *frame=context->please_explain;
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if (frame == NULL)
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RETURN(0);
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assert(frame->payload != NULL);
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frame->type = OF_TYPE_PLEASEEXPLAIN;
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if (source)
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frame->source = source;
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else
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frame->source = my_subscriber;
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if (!context->sender)
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frame->source_full=1;
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frame->destination = destination;
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if (destination){
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frame->ttl = PAYLOAD_TTL_DEFAULT; // MAX?
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frame->source_full=1;
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}else{
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// send both a broadcast & unicast response out the same interface this packet arrived on.
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frame->ttl=1;// how will this work with olsr??
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if (context->interface){
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frame_add_destination(frame, NULL, context->interface->destination);
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struct network_destination *dest = create_unicast_destination(&context->addr, context->interface);
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if (dest)
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frame_add_destination(frame, NULL, dest);
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}else{
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FATAL("This context doesn't have an interface?");
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}
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}
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frame->queue=OQ_MESH_MANAGEMENT;
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if (overlay_payload_enqueue(frame) != -1)
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RETURN(0);
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op_free(frame);
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RETURN(-1);
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OUT();
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|
}
|
|
|
|
// process an incoming request for explanation of subscriber abbreviations
|
|
int process_explain(struct overlay_frame *frame)
|
|
{
|
|
struct overlay_buffer *b=frame->payload;
|
|
|
|
struct decode_context context;
|
|
bzero(&context, sizeof context);
|
|
context.sender = frame->source;
|
|
context.interface = frame->interface;
|
|
|
|
while(ob_remaining(b)>0){
|
|
int len = ob_get(b);
|
|
|
|
if (len==OA_CODE_P2P_YOU){
|
|
add_explain_response(my_subscriber, &context);
|
|
continue;
|
|
}
|
|
|
|
if (len<=0 || len>SID_SIZE)
|
|
return WHY("Badly formatted explain message");
|
|
unsigned char *sid = ob_get_bytes_ptr(b, len);
|
|
if (!sid)
|
|
return WHY("Ran past end of buffer");
|
|
|
|
if (len==SID_SIZE){
|
|
// This message is also used to inform people of previously unknown subscribers
|
|
// make sure we know this one
|
|
INFOF("Storing explain response for %s", alloca_tohex(sid, len));
|
|
find_subscriber(sid,len,1);
|
|
}else{
|
|
// reply to the sender with all subscribers that match this abbreviation
|
|
INFOF("Sending explain responses for %s", alloca_tohex(sid, len));
|
|
walk_tree(&root, 0, sid, len, sid, len, add_explain_response, &context);
|
|
}
|
|
}
|
|
if (context.please_explain)
|
|
send_please_explain(&context, frame->destination, frame->source);
|
|
DEBUG(subscriber, "No explain responses");
|
|
return 0;
|
|
}
|