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