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340 lines
10 KiB
C
340 lines
10 KiB
C
/* This software was written by Dirk Engling <erdgeist@erdgeist.org>
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It is considered beerware. Prost. Skol. Cheers or whatever.
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$id$ */
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/* System */
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#include <pthread.h>
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#include <stdlib.h>
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#include <string.h>
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#include <stdio.h>
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#include <signal.h>
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#include <unistd.h>
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/* Libowfat */
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#include "byte.h"
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#include "scan.h"
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#include "ip6.h"
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#include "mmap.h"
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/* Opentracker */
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#include "trackerlogic.h"
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#include "ot_accesslist.h"
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#include "ot_vector.h"
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/* GLOBAL VARIABLES */
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#ifdef WANT_ACCESSLIST
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char *g_accesslist_filename;
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static pthread_mutex_t g_accesslist_mutex;
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typedef struct {
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ot_hash *list;
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size_t size;
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} ot_accesslist;
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ot_accesslist * g_accesslist = NULL;
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ot_accesslist * g_accesslist_old = NULL;
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static int vector_compare_hash(const void *hash1, const void *hash2 ) {
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return memcmp( hash1, hash2, OT_HASH_COMPARE_SIZE );
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}
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/* Read initial access list */
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static void accesslist_readfile( void ) {
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ot_accesslist * accesslist_new = malloc(sizeof(ot_accesslist));
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ot_hash *info_hash;
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const char *map, *map_end, *read_offs;
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size_t maplen;
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if( ( map = mmap_read( g_accesslist_filename, &maplen ) ) == NULL ) {
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char *wd = getcwd( NULL, 0 );
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fprintf( stderr, "Warning: Can't open accesslist file: %s (but will try to create it later, if necessary and possible).\nPWD: %s\n", g_accesslist_filename, wd );
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free( wd );
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return;
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}
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/* You need at least 41 bytes to pass an info_hash, make enough room
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for the maximum amount of them */
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accesslist_new->size = 0;
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info_hash = accesslist_new->list = malloc( ( maplen / 41 ) * 20 );
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if( !accesslist_new->list ) {
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fprintf( stderr, "Warning: Not enough memory to allocate %zd bytes for accesslist buffer. May succeed later.\n", ( maplen / 41 ) * 20 );
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mmap_unmap( map, maplen);
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free(accesslist_new);
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return;
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}
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/* No use to scan if there's not enough room for another full info_hash */
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map_end = map + maplen - 40;
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read_offs = map;
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/* We do ignore anything that is not of the form "^[:xdigit:]{40}[^:xdigit:].*" */
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while( read_offs <= map_end ) {
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int i;
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for( i=0; i<(int)sizeof(ot_hash); ++i ) {
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int eger1 = scan_fromhex( read_offs[ 2*i ] );
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int eger2 = scan_fromhex( read_offs[ 1 + 2*i ] );
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if( eger1 < 0 || eger2 < 0 )
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break;
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(*info_hash)[i] = eger1 * 16 + eger2;
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}
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if( i == sizeof(ot_hash) ) {
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read_offs += 40;
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/* Append accesslist to accesslist vector */
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if( read_offs == map_end || scan_fromhex( *read_offs ) < 0 )
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++info_hash;
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}
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/* Find start of next line */
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while( read_offs <= map_end && *(read_offs++) != '\n' );
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}
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#ifdef _DEBUG
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fprintf( stderr, "Added %zd info_hashes to accesslist\n", (size_t)(info_hash - accesslist_new->list) );
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#endif
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mmap_unmap( map, maplen);
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qsort( accesslist_new->list, info_hash - accesslist_new->list, sizeof( *info_hash ), vector_compare_hash );
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accesslist_new->size = info_hash - accesslist_new->list;
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/* Now exchange the accesslist vector in the least race condition prone way */
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pthread_mutex_lock(&g_accesslist_mutex);
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if (g_accesslist_old) {
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free(g_accesslist_old->list);
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free(g_accesslist_old);
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}
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g_accesslist_old = g_accesslist; /* Keep a copy for later free */
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g_accesslist = accesslist_new; /* Only now set a new list */
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pthread_mutex_unlock(&g_accesslist_mutex);
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}
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int accesslist_hashisvalid( ot_hash hash ) {
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/* Get working copy of current access list */
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ot_accesslist * accesslist = g_accesslist;
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void * exactmatch = NULL;
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if (accesslist)
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exactmatch = bsearch( hash, accesslist->list, accesslist->size, OT_HASH_COMPARE_SIZE, vector_compare_hash );
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#ifdef WANT_ACCESSLIST_BLACK
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return exactmatch == NULL;
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#else
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return exactmatch != NULL;
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#endif
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}
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static void * accesslist_worker( void * args ) {
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int sig;
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sigset_t signal_mask;
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sigemptyset(&signal_mask);
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sigaddset(&signal_mask, SIGHUP);
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(void)args;
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while( 1 ) {
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/* Initial attempt to read accesslist */
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accesslist_readfile( );
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/* Wait for signals */
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while( sigwait (&signal_mask, &sig) != 0 && sig != SIGHUP );
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}
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return NULL;
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}
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static pthread_t thread_id;
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void accesslist_init( ) {
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pthread_mutex_init(&g_accesslist_mutex, NULL);
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pthread_create( &thread_id, NULL, accesslist_worker, NULL );
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}
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void accesslist_deinit( void ) {
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pthread_cancel( thread_id );
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pthread_mutex_destroy(&g_accesslist_mutex);
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if (g_accesslist_old) {
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free(g_accesslist_old->list);
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free(g_accesslist_old);
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g_accesslist_old = 0;
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}
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if (g_accesslist) {
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free(g_accesslist->list);
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free(g_accesslist);
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g_accesslist = 0;
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}
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}
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#endif
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int address_in_net( const ot_ip6 address, const ot_net *net ) {
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int bits = net->bits;
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int result = memcmp( address, &net->address, bits >> 3 );
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if( !result && ( bits & 7 ) )
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result = ( ( 0x7f00 >> ( bits & 7 ) ) & address[bits>>3] ) - net->address[bits>>3];
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return result == 0;
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}
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void *set_value_for_net( const ot_net *net, ot_vector *vector, const void *value, const size_t member_size ) {
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size_t i;
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int exactmatch;
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/* Caller must have a concept of ot_net in it's member */
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if( member_size < sizeof(ot_net) )
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return 0;
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/* Check each net in vector for overlap */
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uint8_t *member = ((uint8_t*)vector->data);
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for( i=0; i<vector->size; ++i ) {
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if( address_in_net( *(ot_ip6*)member, net ) ||
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address_in_net( net->address, (ot_net*)member ) )
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return 0;
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member += member_size;
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}
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member = vector_find_or_insert( vector, (void*)net, member_size, sizeof(ot_net), &exactmatch );
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if( member ) {
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memcpy( member, net, sizeof(ot_net));
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memcpy( member + sizeof(ot_net), value, member_size - sizeof(ot_net));
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}
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return member;
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}
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/* Takes a vector filled with { ot_net net, uint8_t[x] value };
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Returns value associated with the net, or NULL if not found */
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void *get_value_for_net( const ot_ip6 address, const ot_vector *vector, const size_t member_size ) {
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int exactmatch;
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/* This binary search will return a pointer to the first non-containing network... */
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ot_net *net = binary_search( address, vector->data, vector->size, member_size, sizeof(ot_ip6), &exactmatch );
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if( !net )
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return NULL;
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/* ... so we'll need to move back one step unless we've exactly hit the first address in network */
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if( !exactmatch && ( (void*)net > vector->data ) )
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--net;
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if( !address_in_net( address, net ) )
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return NULL;
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return (void*)net;
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}
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#ifdef WANT_FULLLOG_NETWORKS
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static ot_vector g_lognets_list;
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ot_log *g_logchain_first, *g_logchain_last;
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static pthread_mutex_t g_lognets_list_mutex = PTHREAD_MUTEX_INITIALIZER;
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void loglist_add_network( const ot_net *net ) {
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pthread_mutex_lock(&g_lognets_list_mutex);
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set_value_for_net( net, &g_lognets_list, NULL, sizeof(ot_net));
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pthread_mutex_unlock(&g_lognets_list_mutex);
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}
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void loglist_reset( ) {
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pthread_mutex_lock(&g_lognets_list_mutex);
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free( g_lognets_list.data );
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g_lognets_list.data = 0;
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g_lognets_list.size = g_lognets_list.space = 0;
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pthread_mutex_unlock(&g_lognets_list_mutex);
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}
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int loglist_check_address( const ot_ip6 address ) {
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int result;
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pthread_mutex_lock(&g_lognets_list_mutex);
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result = ( NULL != get_value_for_net( address, &g_lognets_list, sizeof(ot_net)) );
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pthread_mutex_unlock(&g_lognets_list_mutex);
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return result;
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}
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#endif
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#ifdef WANT_IP_FROM_PROXY
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typedef struct {
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ot_net *proxy;
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ot_vector networks;
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} ot_proxymap;
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static ot_vector g_proxies_list;
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static pthread_mutex_t g_proxies_list_mutex = PTHREAD_MUTEX_INITIALIZER;
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int proxylist_add_network( const ot_net *proxy, const ot_net *net ) {
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ot_proxymap *map;
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int exactmatch, result = 1;
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pthread_mutex_lock(&g_proxies_list_mutex);
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/* If we have a direct hit, use and extend the vector there */
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map = binary_search( proxy, g_proxies_list.data, g_proxies_list.size, sizeof(ot_proxymap), sizeof(ot_net), &exactmatch );
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if( !map || !exactmatch ) {
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/* else see, if we've got overlapping networks
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and get a new empty vector if not */
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ot_vector empty;
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memset( &empty, 0, sizeof( ot_vector ) );
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map = set_value_for_net( proxy, &g_proxies_list, &empty, sizeof(ot_proxymap));
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}
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if( map && set_value_for_net( net, &map->networks, NULL, sizeof(ot_net) ) )
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result = 1;
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pthread_mutex_unlock(&g_proxies_list_mutex);
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return result;
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}
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int proxylist_check_proxy( const ot_ip6 proxy, const ot_ip6 address ) {
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int result = 0;
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ot_proxymap *map;
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pthread_mutex_lock(&g_proxies_list_mutex);
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if( ( map = get_value_for_net( proxy, &g_proxies_list, sizeof(ot_proxymap) ) ) )
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if( !address || get_value_for_net( address, &map->networks, sizeof(ot_net) ) )
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result = 1;
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pthread_mutex_unlock(&g_proxies_list_mutex);
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return result;
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}
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#endif
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static ot_ip6 g_adminip_addresses[OT_ADMINIP_MAX];
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static ot_permissions g_adminip_permissions[OT_ADMINIP_MAX];
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static unsigned int g_adminip_count = 0;
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int accesslist_blessip( ot_ip6 ip, ot_permissions permissions ) {
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if( g_adminip_count >= OT_ADMINIP_MAX )
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return -1;
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memcpy(g_adminip_addresses + g_adminip_count,ip,sizeof(ot_ip6));
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g_adminip_permissions[ g_adminip_count++ ] = permissions;
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#ifdef _DEBUG
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{
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char _debug[512];
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int off = snprintf( _debug, sizeof(_debug), "Blessing ip address " );
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off += fmt_ip6c(_debug+off, ip );
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if( permissions & OT_PERMISSION_MAY_STAT ) off += snprintf( _debug+off, 512-off, " may_fetch_stats" );
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if( permissions & OT_PERMISSION_MAY_LIVESYNC ) off += snprintf( _debug+off, 512-off, " may_sync_live" );
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if( permissions & OT_PERMISSION_MAY_FULLSCRAPE ) off += snprintf( _debug+off, 512-off, " may_fetch_fullscrapes" );
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if( permissions & OT_PERMISSION_MAY_PROXY ) off += snprintf( _debug+off, 512-off, " may_proxy" );
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if( !permissions ) off += snprintf( _debug+off, sizeof(_debug)-off, " nothing\n" );
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_debug[off++] = '.';
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write( 2, _debug, off );
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}
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#endif
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return 0;
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}
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int accesslist_isblessed( ot_ip6 ip, ot_permissions permissions ) {
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unsigned int i;
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for( i=0; i<g_adminip_count; ++i )
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if( !memcmp( g_adminip_addresses + i, ip, sizeof(ot_ip6)) && ( g_adminip_permissions[ i ] & permissions ) )
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return 1;
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return 0;
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}
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const char *g_version_accesslist_c = "$Source$: $Revision$\n";
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