opentracker – An open and free bittorrent tracker
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/* This software was written by Dirk Engling <erdgeist@erdgeist.org>
It is considered beerware. Prost. Skol. Cheers or whatever.
$id$ */
/* System */
#include <stdlib.h>
#include <arpa/inet.h>
#include <sys/types.h>
#include <sys/uio.h>
#include <sys/mman.h>
#include <stdio.h>
#include <string.h>
#include <pthread.h>
16 years ago
#include <unistd.h>
#include <inttypes.h>
#ifdef WANT_SYSLOGS
#include <syslog.h>
#endif
/* Libowfat */
#include "byte.h"
#include "io.h"
#include "ip4.h"
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#include "ip6.h"
/* Opentracker */
#include "trackerlogic.h"
#include "ot_mutex.h"
#include "ot_iovec.h"
#include "ot_stats.h"
#include "ot_accesslist.h"
#ifndef NO_FULLSCRAPE_LOGGING
#define LOG_TO_STDERR( ... ) fprintf( stderr, __VA_ARGS__ )
#else
#define LOG_TO_STDERR( ... )
#endif
/* Forward declaration */
static void stats_make( int *iovec_entries, struct iovec **iovector, ot_tasktype mode );
#define OT_STATS_TMPSIZE 8192
/* Clumsy counters... to be rethought */
static unsigned long long ot_overall_tcp_connections = 0;
static unsigned long long ot_overall_udp_connections = 0;
static unsigned long long ot_overall_tcp_successfulannounces = 0;
static unsigned long long ot_overall_udp_successfulannounces = 0;
static unsigned long long ot_overall_tcp_successfulscrapes = 0;
static unsigned long long ot_overall_udp_successfulscrapes = 0;
static unsigned long long ot_overall_udp_connectionidmissmatches = 0;
static unsigned long long ot_overall_tcp_connects = 0;
static unsigned long long ot_overall_udp_connects = 0;
static unsigned long long ot_overall_completed = 0;
static unsigned long long ot_full_scrape_count = 0;
static unsigned long long ot_full_scrape_request_count = 0;
static unsigned long long ot_full_scrape_size = 0;
static unsigned long long ot_failed_request_counts[CODE_HTTPERROR_COUNT];
static char * ot_failed_request_names[] = { "302 Redirect", "400 Parse Error", "400 Invalid Parameter", "400 Invalid Parameter (compact=0)", "400 Not Modest", "402 Payment Required", "403 Access Denied", "404 Not found", "500 Internal Server Error" };
static unsigned long long ot_renewed[OT_PEER_TIMEOUT];
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static unsigned long long ot_overall_sync_count;
static unsigned long long ot_overall_stall_count;
static time_t ot_start_time;
#define STATS_NETWORK_NODE_BITWIDTH 4
#define STATS_NETWORK_NODE_COUNT (1<<STATS_NETWORK_NODE_BITWIDTH)
#define __BYTE(P,D) (((uint8_t*)P)[D/8])
#define __MSK (STATS_NETWORK_NODE_COUNT-1)
#define __SHFT(D) ((D^STATS_NETWORK_NODE_BITWIDTH)&STATS_NETWORK_NODE_BITWIDTH)
#define __LDR(P,D) ((__BYTE((P),(D))>>__SHFT((D)))&__MSK)
#define __STR(P,D,V) __BYTE((P),(D))=(__BYTE((P),(D))&~(__MSK<<__SHFT((D))))|((V)<<__SHFT((D)))
#if 0
// XXX
#define STATS_NETWORK_NODE_MAXDEPTH (68-STATS_NETWORK_NODE_BITWIDTH)
#define STATS_NETWORK_NODE_LIMIT (48-STATS_NETWORK_NODE_BITWIDTH)
#endif
#define STATS_NETWORK_NODE_MAXDEPTH (28-STATS_NETWORK_NODE_BITWIDTH)
#define STATS_NETWORK_NODE_LIMIT (24-STATS_NETWORK_NODE_BITWIDTH)
typedef union stats_network_node stats_network_node;
union stats_network_node {
size_t counters[STATS_NETWORK_NODE_COUNT];
stats_network_node *children[STATS_NETWORK_NODE_COUNT];
};
#ifdef WANT_LOG_NETWORKS
static stats_network_node *stats_network_counters_root;
#endif
static int stat_increase_network_count( stats_network_node **pnode, int depth, uintptr_t ip ) {
int foo = __LDR(ip,depth);
stats_network_node *node;
if( !*pnode ) {
*pnode = malloc( sizeof( stats_network_node ) );
if( !*pnode )
return -1;
memset( *pnode, 0, sizeof( stats_network_node ) );
}
node = *pnode;
if( depth < STATS_NETWORK_NODE_MAXDEPTH )
return stat_increase_network_count( node->children + foo, depth+STATS_NETWORK_NODE_BITWIDTH, ip );
node->counters[ foo ]++;
return 0;
}
static int stats_shift_down_network_count( stats_network_node **node, int depth, int shift ) {
int i, rest = 0;
if( !*node )
return 0;
for( i=0; i<STATS_NETWORK_NODE_COUNT; ++i )
if( depth < STATS_NETWORK_NODE_MAXDEPTH )
rest += stats_shift_down_network_count( (*node)->children + i, depth+STATS_NETWORK_NODE_BITWIDTH, shift );
else
rest += (*node)->counters[i] >>= shift;
if( !rest ) {
free( *node );
*node = NULL;
}
return rest;
}
static size_t stats_get_highscore_networks( stats_network_node *node, int depth, ot_ip6 node_value, size_t *scores, ot_ip6 *networks, int network_count, int limit ) {
size_t score = 0;
int i;
if( !node ) return 0;
if( depth < limit ) {
for( i=0; i<STATS_NETWORK_NODE_COUNT; ++i )
if( node->children[i] ) {
__STR(node_value,depth,i);
score += stats_get_highscore_networks( node->children[i], depth+STATS_NETWORK_NODE_BITWIDTH, node_value, scores, networks, network_count, limit );
}
return score;
}
if( depth > limit && depth < STATS_NETWORK_NODE_MAXDEPTH ) {
for( i=0; i<STATS_NETWORK_NODE_COUNT; ++i )
if( node->children[i] )
score += stats_get_highscore_networks( node->children[i], depth+STATS_NETWORK_NODE_BITWIDTH, node_value, scores, networks, network_count, limit );
return score;
}
if( depth > limit && depth == STATS_NETWORK_NODE_MAXDEPTH ) {
for( i=0; i<STATS_NETWORK_NODE_COUNT; ++i )
score += node->counters[i];
return score;
}
/* if( depth == limit ) */
for( i=0; i<STATS_NETWORK_NODE_COUNT; ++i ) {
int j=1;
size_t node_score;
if( depth == STATS_NETWORK_NODE_MAXDEPTH )
node_score = node->counters[i];
else
node_score = stats_get_highscore_networks( node->children[i], depth+STATS_NETWORK_NODE_BITWIDTH, node_value, scores, networks, network_count, limit );
score += node_score;
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if( node_score <= scores[0] ) continue;
__STR(node_value,depth,i);
while( j < network_count && node_score > scores[j] ) ++j;
--j;
memcpy( scores, scores + 1, j * sizeof( *scores ) );
memcpy( networks, networks + 1, j * sizeof( *networks ) );
scores[ j ] = node_score;
memcpy( networks + j, node_value, sizeof( *networks ) );
}
return score;
}
static size_t stats_return_busy_networks( char * reply, stats_network_node *tree, int amount, int limit ) {
ot_ip6 networks[amount];
ot_ip6 node_value;
size_t scores[amount];
int i;
char * r = reply;
memset( scores, 0, sizeof( scores ) );
memset( networks, 0, sizeof( networks ) );
memset( node_value, 0, sizeof( node_value ) );
stats_get_highscore_networks( tree, 0, node_value, scores, networks, amount, limit );
r += sprintf( r, "Networks, limit /%d:\n", limit+STATS_NETWORK_NODE_BITWIDTH );
for( i=amount-1; i>=0; --i) {
if( scores[i] ) {
r += sprintf( r, "%08zd: ", scores[i] );
//#ifdef WANT_V6
r += fmt_ip6c( r, networks[i] );
#if 0
// XXX
r += fmt_ip4( r, networks[i]);
#endif
*r++ = '\n';
}
}
*r++ = '\n';
return r - reply;
}
static size_t stats_slash24s_txt( char *reply, size_t amount ) {
stats_network_node *slash24s_network_counters_root = NULL;
char *r=reply;
int bucket;
size_t i, peer_size = OT_PEER_SIZE4;
for( bucket=0; bucket<OT_BUCKET_COUNT; ++bucket ) {
ot_vector *torrents_list = mutex_bucket_lock( bucket );
for( i=0; i<torrents_list->size; ++i ) {
ot_peerlist *peer_list = ( ((ot_torrent*)(torrents_list->data))[i] ).peer_list4;
ot_vector *bucket_list = &peer_list->peers;
int num_buckets = 1;
if( OT_PEERLIST_HASBUCKETS( peer_list ) ) {
num_buckets = bucket_list->size;
bucket_list = (ot_vector *)bucket_list->data;
}
while( num_buckets-- ) {
ot_peer *peers = (ot_peer*)bucket_list->data;
size_t numpeers = bucket_list->size;
while( numpeers-- ) {
if( stat_increase_network_count( &slash24s_network_counters_root, 0, (uintptr_t)(peers) ) )
goto bailout_unlock;
peers += peer_size;
}
++bucket_list;
}
}
mutex_bucket_unlock( bucket, 0 );
if( !g_opentracker_running )
goto bailout_error;
}
/* The tree is built. Now analyze */
r += stats_return_busy_networks( r, slash24s_network_counters_root, amount, STATS_NETWORK_NODE_MAXDEPTH );
r += stats_return_busy_networks( r, slash24s_network_counters_root, amount, STATS_NETWORK_NODE_LIMIT );
goto success;
bailout_unlock:
mutex_bucket_unlock( bucket, 0 );
bailout_error:
r = reply;
success:
stats_shift_down_network_count( &slash24s_network_counters_root, 0, sizeof(int)*8-1 );
return r-reply;
}
#ifdef WANT_SPOT_WOODPECKER
static stats_network_node *stats_woodpeckers_tree;
static pthread_mutex_t g_woodpeckers_mutex = PTHREAD_MUTEX_INITIALIZER;
static size_t stats_return_woodpeckers( char * reply, int amount ) {
char * r = reply;
pthread_mutex_lock( &g_woodpeckers_mutex );
r += stats_return_busy_networks( r, stats_woodpeckers_tree, amount, STATS_NETWORK_NODE_MAXDEPTH );
pthread_mutex_unlock( &g_woodpeckers_mutex );
return r-reply;
}
#endif
typedef struct {
unsigned long long torrent_count;
unsigned long long peer_count;
unsigned long long seed_count;
} torrent_stats;
static int torrent_statter( ot_torrent *torrent, uintptr_t data ) {
torrent_stats *stats = (torrent_stats*)data;
stats->torrent_count++;
stats->peer_count += torrent->peer_list6->peer_count + torrent->peer_list4->peer_count;
stats->seed_count += torrent->peer_list6->seed_count + torrent->peer_list4->seed_count;
return 0;
}
/* Converter function from memory to human readable hex strings */
static char*to_hex(char*d,uint8_t*s){char*m="0123456789ABCDEF";char *t=d;char*e=d+40;while(d<e){*d++=m[*s>>4];*d++=m[*s++&15];}*d=0;return t;}
typedef struct { size_t val; ot_hash hash; } ot_record;
/* Fetches stats from tracker */
size_t stats_top_txt( char * reply, int amount ) {
size_t j;
ot_record top100s[100], top100c[100];
char *r = reply, hex_out[42];
int idx, bucket;
if( amount > 100 )
amount = 100;
byte_zero( top100s, sizeof( top100s ) );
byte_zero( top100c, sizeof( top100c ) );
for( bucket=0; bucket<OT_BUCKET_COUNT; ++bucket ) {
ot_vector *torrents_list = mutex_bucket_lock( bucket );
for( j=0; j<torrents_list->size; ++j ) {
ot_torrent *torrent = (ot_torrent*)(torrents_list->data) + j;
size_t peer_count = torrent->peer_list6->peer_count + torrent->peer_list4->peer_count;
size_t seed_count = torrent->peer_list6->seed_count + torrent->peer_list4->seed_count;
idx = amount - 1;
while( (idx >= 0) && ( peer_count > top100c[idx].val ) )
--idx;
if ( idx++ != amount - 1 ) {
memmove( top100c + idx + 1, top100c + idx, ( amount - 1 - idx ) * sizeof( ot_record ) );
memcpy( &top100c[idx].hash, &torrent->hash, sizeof(ot_hash));
top100c[idx].val = peer_count;
}
idx = amount - 1;
while( (idx >= 0) && ( seed_count > top100s[idx].val ) )
--idx;
if ( idx++ != amount - 1 ) {
memmove( top100s + idx + 1, top100s + idx, ( amount - 1 - idx ) * sizeof( ot_record ) );
memcpy( &top100s[idx].hash, &torrent->hash, sizeof(ot_hash));
top100s[idx].val = seed_count;
}
}
mutex_bucket_unlock( bucket, 0 );
if( !g_opentracker_running )
return 0;
}
r += sprintf( r, "Top %d torrents by peers:\n", amount );
for( idx=0; idx<amount; ++idx )
if( top100c[idx].val )
r += sprintf( r, "\t%zd\t%s\n", top100c[idx].val, to_hex( hex_out, top100c[idx].hash) );
r += sprintf( r, "Top %d torrents by seeds:\n", amount );
for( idx=0; idx<amount; ++idx )
if( top100s[idx].val )
r += sprintf( r, "\t%zd\t%s\n", top100s[idx].val, to_hex( hex_out, top100s[idx].hash) );
return r - reply;
}
static unsigned long events_per_time( unsigned long long events, time_t t ) {
return events / ( (unsigned int)t ? (unsigned int)t : 1 );
}
static size_t stats_connections_mrtg( char * reply ) {
ot_time t = time( NULL ) - ot_start_time;
return sprintf( reply,
"%llu\n%llu\n%i seconds (%i hours)\nopentracker connections, %lu conns/s :: %lu success/s.",
ot_overall_tcp_connections+ot_overall_udp_connections,
ot_overall_tcp_successfulannounces+ot_overall_udp_successfulannounces+ot_overall_udp_connects,
(int)t,
(int)(t / 3600),
events_per_time( ot_overall_tcp_connections+ot_overall_udp_connections, t ),
events_per_time( ot_overall_tcp_successfulannounces+ot_overall_udp_successfulannounces+ot_overall_udp_connects, t )
);
}
static size_t stats_udpconnections_mrtg( char * reply ) {
ot_time t = time( NULL ) - ot_start_time;
return sprintf( reply,
"%llu\n%llu\n%i seconds (%i hours)\nopentracker udp4 stats, %lu conns/s :: %lu success/s.",
ot_overall_udp_connections,
ot_overall_udp_successfulannounces+ot_overall_udp_connects,
(int)t,
(int)(t / 3600),
events_per_time( ot_overall_udp_connections, t ),
events_per_time( ot_overall_udp_successfulannounces+ot_overall_udp_connects, t )
);
}
static size_t stats_tcpconnections_mrtg( char * reply ) {
time_t t = time( NULL ) - ot_start_time;
return sprintf( reply,
"%llu\n%llu\n%i seconds (%i hours)\nopentracker tcp4 stats, %lu conns/s :: %lu success/s.",
ot_overall_tcp_connections,
ot_overall_tcp_successfulannounces,
(int)t,
(int)(t / 3600),
events_per_time( ot_overall_tcp_connections, t ),
events_per_time( ot_overall_tcp_successfulannounces, t )
);
}
static size_t stats_scrape_mrtg( char * reply ) {
time_t t = time( NULL ) - ot_start_time;
return sprintf( reply,
"%llu\n%llu\n%i seconds (%i hours)\nopentracker scrape stats, %lu scrape/s (tcp and udp)",
ot_overall_tcp_successfulscrapes,
ot_overall_udp_successfulscrapes,
(int)t,
(int)(t / 3600),
events_per_time( (ot_overall_tcp_successfulscrapes+ot_overall_udp_successfulscrapes), t )
);
}
static size_t stats_fullscrapes_mrtg( char * reply ) {
ot_time t = time( NULL ) - ot_start_time;
return sprintf( reply,
"%llu\n%llu\n%i seconds (%i hours)\nopentracker full scrape stats, %lu conns/s :: %lu bytes/s.",
ot_full_scrape_count * 1000,
ot_full_scrape_size,
(int)t,
(int)(t / 3600),
events_per_time( ot_full_scrape_count, t ),
events_per_time( ot_full_scrape_size, t )
);
}
static size_t stats_peers_mrtg( char * reply ) {
torrent_stats stats = {0,0,0};
iterate_all_torrents( torrent_statter, (uintptr_t)&stats );
return sprintf( reply, "%llu\n%llu\nopentracker serving %llu torrents\nopentracker",
stats.peer_count,
stats.seed_count,
stats.torrent_count
);
}
static size_t stats_torrents_mrtg( char * reply )
{
size_t torrent_count = mutex_get_torrent_count();
return sprintf( reply, "%zd\n%zd\nopentracker serving %zd torrents\nopentracker",
torrent_count,
(size_t)0,
torrent_count
);
}
static size_t stats_httperrors_txt ( char * reply ) {
return sprintf( reply, "302 RED %llu\n400 ... %llu\n400 PAR %llu\n400 COM %llu\n403 IP %llu\n404 INV %llu\n500 SRV %llu\n",
ot_failed_request_counts[0], ot_failed_request_counts[1], ot_failed_request_counts[2],
ot_failed_request_counts[3], ot_failed_request_counts[4], ot_failed_request_counts[5],
ot_failed_request_counts[6] );
}
static size_t stats_return_renew_bucket( char * reply ) {
char *r = reply;
int i;
for( i=0; i<OT_PEER_TIMEOUT; ++i )
r+=sprintf(r,"%02i %llu\n", i, ot_renewed[i] );
return r - reply;
}
static size_t stats_return_sync_mrtg( char * reply ) {
16 years ago
ot_time t = time( NULL ) - ot_start_time;
return sprintf( reply,
"%llu\n%llu\n%i seconds (%i hours)\nopentracker connections, %lu conns/s :: %lu success/s.",
ot_overall_sync_count,
0LL,
(int)t,
(int)(t / 3600),
events_per_time( ot_overall_tcp_connections+ot_overall_udp_connections, t ),
events_per_time( ot_overall_tcp_successfulannounces+ot_overall_udp_successfulannounces+ot_overall_udp_connects, t )
);
}
static size_t stats_return_completed_mrtg( char * reply ) {
ot_time t = time( NULL ) - ot_start_time;
return sprintf( reply,
"%llu\n%llu\n%i seconds (%i hours)\nopentracker, %lu completed/h.",
ot_overall_completed,
0LL,
(int)t,
(int)(t / 3600),
events_per_time( ot_overall_completed, t / 3600 )
);
}
#ifdef WANT_LOG_NUMWANT
extern unsigned long long numwants[201];
static size_t stats_return_numwants( char * reply ) {
char * r = reply;
int i;
for( i=0; i<=200; ++i )
r += sprintf( r, "%03d => %lld\n", i, numwants[i] );
return r-reply;
}
#endif
#ifdef WANT_FULLLOG_NETWORKS
static void stats_return_fulllog( int *iovec_entries, struct iovec **iovector, char *r ) {
ot_log *loglist = g_logchain_first, *llnext;
char * re = r + OT_STATS_TMPSIZE;
g_logchain_first = g_logchain_last = 0;
while( loglist ) {
if( r + ( loglist->size + 64 ) >= re ) {
r = iovec_fix_increase_or_free( iovec_entries, iovector, r, 32 * OT_STATS_TMPSIZE );
if( !r ) return;
re = r + 32 * OT_STATS_TMPSIZE;
}
r += sprintf( r, "%08ld: ", loglist->time );
r += fmt_ip6c( r, loglist->ip );
*r++ = '\n';
memcpy( r, loglist->data, loglist->size );
r += loglist->size;
*r++ = '\n';
*r++ = '*';
*r++ = '\n';
*r++ = '\n';
llnext = loglist->next;
free( loglist->data );
free( loglist );
loglist = llnext;
}
iovec_fixlast( iovec_entries, iovector, r );
}
#endif
static size_t stats_return_everything( char * reply ) {
torrent_stats stats = {0,0,0};
int i;
char * r = reply;
iterate_all_torrents( torrent_statter, (uintptr_t)&stats );
16 years ago
r += sprintf( r, "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n" );
r += sprintf( r, "<stats>\n" );
r += sprintf( r, " <tracker_id>%" PRIu32 "</tracker_id>\n", g_tracker_id );
16 years ago
r += sprintf( r, " <version>\n" ); r += stats_return_tracker_version( r ); r += sprintf( r, " </version>\n" );
r += sprintf( r, " <uptime>%llu</uptime>\n", (unsigned long long)(time( NULL ) - ot_start_time) );
r += sprintf( r, " <torrents>\n" );
r += sprintf( r, " <count_mutex>%zd</count_mutex>\n", mutex_get_torrent_count() );
r += sprintf( r, " <count_iterator>%llu</count_iterator>\n", stats.torrent_count );
r += sprintf( r, " </torrents>\n" );
r += sprintf( r, " <peers>\n <count>%llu</count>\n </peers>\n", stats.peer_count );
r += sprintf( r, " <seeds>\n <count>%llu</count>\n </seeds>\n", stats.seed_count );
r += sprintf( r, " <completed>\n <count>%llu</count>\n </completed>\n", ot_overall_completed );
r += sprintf( r, " <connections>\n" );
r += sprintf( r, " <tcp>\n <accept>%llu</accept>\n <announce>%llu</announce>\n <scrape>%llu</scrape>\n </tcp>\n", ot_overall_tcp_connections, ot_overall_tcp_successfulannounces, ot_overall_tcp_successfulscrapes );
r += sprintf( r, " <udp>\n <overall>%llu</overall>\n <connect>%llu</connect>\n <announce>%llu</announce>\n <scrape>%llu</scrape>\n <missmatch>%llu</missmatch>\n </udp>\n", ot_overall_udp_connections, ot_overall_udp_connects, ot_overall_udp_successfulannounces, ot_overall_udp_successfulscrapes, ot_overall_udp_connectionidmissmatches );
r += sprintf( r, " <livesync>\n <count>%llu</count>\n </livesync>\n", ot_overall_sync_count );
r += sprintf( r, " </connections>\n" );
r += sprintf( r, " <debug>\n" );
r += sprintf( r, " <renew>\n" );
for( i=0; i<OT_PEER_TIMEOUT; ++i )
r += sprintf( r, " <count interval=\"%02i\">%llu</count>\n", i, ot_renewed[i] );
r += sprintf( r, " </renew>\n" );
r += sprintf( r, " <http_error>\n" );
for( i=0; i<CODE_HTTPERROR_COUNT; ++i )
r += sprintf( r, " <count code=\"%s\">%llu</count>\n", ot_failed_request_names[i], ot_failed_request_counts[i] );
r += sprintf( r, " </http_error>\n" );
r += sprintf( r, " <mutex_stall>\n <count>%llu</count>\n </mutex_stall>\n", ot_overall_stall_count );
r += sprintf( r, " </debug>\n" );
r += sprintf( r, "</stats>" );
return r - reply;
16 years ago
}
extern const char
*g_version_opentracker_c, *g_version_accesslist_c, *g_version_clean_c, *g_version_fullscrape_c, *g_version_http_c,
*g_version_iovec_c, *g_version_mutex_c, *g_version_stats_c, *g_version_udp_c, *g_version_vector_c,
*g_version_scan_urlencoded_query_c, *g_version_trackerlogic_c, *g_version_livesync_c, *g_version_rijndael_c;
size_t stats_return_tracker_version( char *reply ) {
return sprintf( reply, "%s%s%s%s%s%s%s%s%s%s%s%s%s%s",
g_version_opentracker_c, g_version_accesslist_c, g_version_clean_c, g_version_fullscrape_c, g_version_http_c,
g_version_iovec_c, g_version_mutex_c, g_version_stats_c, g_version_udp_c, g_version_vector_c,
g_version_scan_urlencoded_query_c, g_version_trackerlogic_c, g_version_livesync_c, g_version_rijndael_c );
}
size_t return_stats_for_tracker( char *reply, int mode, int format ) {
(void) format;
switch( mode & TASK_TASK_MASK ) {
case TASK_STATS_CONNS:
return stats_connections_mrtg( reply );
case TASK_STATS_SCRAPE:
return stats_scrape_mrtg( reply );
case TASK_STATS_UDP:
return stats_udpconnections_mrtg( reply );
case TASK_STATS_TCP:
return stats_tcpconnections_mrtg( reply );
case TASK_STATS_FULLSCRAPE:
return stats_fullscrapes_mrtg( reply );
case TASK_STATS_COMPLETED:
return stats_return_completed_mrtg( reply );
case TASK_STATS_HTTPERRORS:
return stats_httperrors_txt( reply );
case TASK_STATS_VERSION:
return stats_return_tracker_version( reply );
case TASK_STATS_RENEW:
return stats_return_renew_bucket( reply );
16 years ago
case TASK_STATS_SYNCS:
return stats_return_sync_mrtg( reply );
#ifdef WANT_LOG_NUMWANT
case TASK_STATS_NUMWANTS:
return stats_return_numwants( reply );
#endif
default:
return 0;
}
}
static void stats_make( int *iovec_entries, struct iovec **iovector, ot_tasktype mode ) {
char *r;
*iovec_entries = 0;
*iovector = NULL;
if( !( r = iovec_increase( iovec_entries, iovector, OT_STATS_TMPSIZE ) ) )
return;
switch( mode & TASK_TASK_MASK ) {
case TASK_STATS_TORRENTS: r += stats_torrents_mrtg( r ); break;
16 years ago
case TASK_STATS_PEERS: r += stats_peers_mrtg( r ); break;
case TASK_STATS_SLASH24S: r += stats_slash24s_txt( r, 128 ); break;
case TASK_STATS_TOP10: r += stats_top_txt( r, 10 ); break;
case TASK_STATS_TOP100:
r = iovec_fix_increase_or_free( iovec_entries, iovector, r, 4 * OT_STATS_TMPSIZE );
if( !r ) return;
r += stats_top_txt( r, 100 ); break;
case TASK_STATS_EVERYTHING: r = iovec_fix_increase_or_free( iovec_entries, iovector, r, OT_STATS_TMPSIZE + 64 * OT_PEER_TIMEOUT );
if( !r ) return;
r += stats_return_everything( r ); break;
#ifdef WANT_SPOT_WOODPECKER
case TASK_STATS_WOODPECKERS: r += stats_return_woodpeckers( r, 128 ); break;
#endif
#ifdef WANT_FULLLOG_NETWORKS
case TASK_STATS_FULLLOG: stats_return_fulllog( iovec_entries, iovector, r );
return;
#endif
default:
iovec_free(iovec_entries, iovector);
return;
}
iovec_fixlast( iovec_entries, iovector, r );
}
16 years ago
void stats_issue_event( ot_status_event event, PROTO_FLAG proto, uintptr_t event_data ) {
switch( event ) {
case EVENT_ACCEPT:
if( proto == FLAG_TCP ) ot_overall_tcp_connections++; else ot_overall_udp_connections++;
#ifdef WANT_LOG_NETWORKS
stat_increase_network_count( &stats_network_counters_root, 0, event_data );
#endif
break;
case EVENT_ANNOUNCE:
if( proto == FLAG_TCP ) ot_overall_tcp_successfulannounces++; else ot_overall_udp_successfulannounces++;
break;
16 years ago
case EVENT_CONNECT:
if( proto == FLAG_TCP ) ot_overall_tcp_connects++; else ot_overall_udp_connects++;
break;
case EVENT_COMPLETED:
#ifdef WANT_SYSLOGS
if( event_data) {
** struct ot_workstruct gets ritcher (and will become even ritcher soon). This is where we encapsulate all per-request data from peer to hash to peer_id, so that it is available everywhere without passing hundreds of pointers down the stack. Most functions that do work down the stack now accept an ot_workstruct and some flags. So it can end up in the stats/event-handler where it will be the default parameter in the future. ** peer_id is now being copied by default and moved to ot_workstruct So it is available in stats and subsequent functions. ** sync scrape madness is gone SYNC_SCRAPE was intended to sync tracker state that would normally be lost on restarts i.e. downloaded counts per torrent. The way was to push it in the tracker cloud after finding all neighbouring trackers. This is madness. It never was tested and can be done per tracker by fetching stats/mode=statedump from time to time and starting opentracker with the -l option later. ** livesync thread has its own ot_workstruct now So it can behave like ot_udp and ot_http against trackerlogic.c and get rid of the first half of the embarrassing global variables. The sending half will be fixed soon [tm]. ** stats can log completed events The author recognizes the needs of original content distributors to keep track of the amount of times a work has been downloaded. While not feasible and used on openbittorrent and other open and anonymous tracker installations, a tracker user can now choose to send those events to syslog.
15 years ago
struct ot_workstruct *ws = (struct ot_workstruct *)event_data;
char timestring[64];
** struct ot_workstruct gets ritcher (and will become even ritcher soon). This is where we encapsulate all per-request data from peer to hash to peer_id, so that it is available everywhere without passing hundreds of pointers down the stack. Most functions that do work down the stack now accept an ot_workstruct and some flags. So it can end up in the stats/event-handler where it will be the default parameter in the future. ** peer_id is now being copied by default and moved to ot_workstruct So it is available in stats and subsequent functions. ** sync scrape madness is gone SYNC_SCRAPE was intended to sync tracker state that would normally be lost on restarts i.e. downloaded counts per torrent. The way was to push it in the tracker cloud after finding all neighbouring trackers. This is madness. It never was tested and can be done per tracker by fetching stats/mode=statedump from time to time and starting opentracker with the -l option later. ** livesync thread has its own ot_workstruct now So it can behave like ot_udp and ot_http against trackerlogic.c and get rid of the first half of the embarrassing global variables. The sending half will be fixed soon [tm]. ** stats can log completed events The author recognizes the needs of original content distributors to keep track of the amount of times a work has been downloaded. While not feasible and used on openbittorrent and other open and anonymous tracker installations, a tracker user can now choose to send those events to syslog.
15 years ago
char hash_hex[42], peerid_hex[42], ip_readable[64];
struct tm time_now;
time_t ttt;
time( &ttt );
localtime_r( &ttt, &time_now );
strftime( timestring, sizeof( timestring ), "%FT%T%z", &time_now );
** struct ot_workstruct gets ritcher (and will become even ritcher soon). This is where we encapsulate all per-request data from peer to hash to peer_id, so that it is available everywhere without passing hundreds of pointers down the stack. Most functions that do work down the stack now accept an ot_workstruct and some flags. So it can end up in the stats/event-handler where it will be the default parameter in the future. ** peer_id is now being copied by default and moved to ot_workstruct So it is available in stats and subsequent functions. ** sync scrape madness is gone SYNC_SCRAPE was intended to sync tracker state that would normally be lost on restarts i.e. downloaded counts per torrent. The way was to push it in the tracker cloud after finding all neighbouring trackers. This is madness. It never was tested and can be done per tracker by fetching stats/mode=statedump from time to time and starting opentracker with the -l option later. ** livesync thread has its own ot_workstruct now So it can behave like ot_udp and ot_http against trackerlogic.c and get rid of the first half of the embarrassing global variables. The sending half will be fixed soon [tm]. ** stats can log completed events The author recognizes the needs of original content distributors to keep track of the amount of times a work has been downloaded. While not feasible and used on openbittorrent and other open and anonymous tracker installations, a tracker user can now choose to send those events to syslog.
15 years ago
to_hex( hash_hex, *ws->hash );
if( ws->peer_id )
to_hex( peerid_hex, (uint8_t*)ws->peer_id );
else {
*peerid_hex=0;
}
ip_readable[ fmt_ip6c( ip_readable, (char*)&ws->peer ) ] = 0;
#if 0
/* XXX */
** struct ot_workstruct gets ritcher (and will become even ritcher soon). This is where we encapsulate all per-request data from peer to hash to peer_id, so that it is available everywhere without passing hundreds of pointers down the stack. Most functions that do work down the stack now accept an ot_workstruct and some flags. So it can end up in the stats/event-handler where it will be the default parameter in the future. ** peer_id is now being copied by default and moved to ot_workstruct So it is available in stats and subsequent functions. ** sync scrape madness is gone SYNC_SCRAPE was intended to sync tracker state that would normally be lost on restarts i.e. downloaded counts per torrent. The way was to push it in the tracker cloud after finding all neighbouring trackers. This is madness. It never was tested and can be done per tracker by fetching stats/mode=statedump from time to time and starting opentracker with the -l option later. ** livesync thread has its own ot_workstruct now So it can behave like ot_udp and ot_http against trackerlogic.c and get rid of the first half of the embarrassing global variables. The sending half will be fixed soon [tm]. ** stats can log completed events The author recognizes the needs of original content distributors to keep track of the amount of times a work has been downloaded. While not feasible and used on openbittorrent and other open and anonymous tracker installations, a tracker user can now choose to send those events to syslog.
15 years ago
ip_readable[ fmt_ip4( ip_readable, (char*)&ws->peer ) ] = 0;
#endif
syslog( LOG_INFO, "time=%s event=completed info_hash=%s peer_id=%s ip=%s", timestring, hash_hex, peerid_hex, ip_readable );
}
#endif
ot_overall_completed++;
break;
case EVENT_SCRAPE:
if( proto == FLAG_TCP ) ot_overall_tcp_successfulscrapes++; else ot_overall_udp_successfulscrapes++;
break;
case EVENT_FULLSCRAPE:
ot_full_scrape_count++;
ot_full_scrape_size += event_data;
break;
case EVENT_FULLSCRAPE_REQUEST:
{
ot_ip6 *ip = (ot_ip6*)event_data; /* ugly hack to transfer ip to stats */
char _debug[512];
int off = snprintf( _debug, sizeof(_debug), "[%08d] scrp: ", (unsigned int)(g_now_seconds - ot_start_time)/60 );
off += fmt_ip6c( _debug+off, *ip );
off += snprintf( _debug+off, sizeof(_debug)-off, " - FULL SCRAPE\n" );
(void)write( 2, _debug, off );
ot_full_scrape_request_count++;
}
break;
case EVENT_FULLSCRAPE_REQUEST_GZIP:
{
ot_ip6 *ip = (ot_ip6*)event_data; /* ugly hack to transfer ip to stats */
char _debug[512];
int off = snprintf( _debug, sizeof(_debug), "[%08d] scrp: ", (unsigned int)(g_now_seconds - ot_start_time)/60 );
off += fmt_ip6c(_debug+off, *ip );
off += snprintf( _debug+off, sizeof(_debug)-off, " - FULL SCRAPE\n" );
(void)write( 2, _debug, off );
ot_full_scrape_request_count++;
}
break;
case EVENT_FAILED:
ot_failed_request_counts[event_data]++;
break;
case EVENT_RENEW:
ot_renewed[event_data]++;
break;
16 years ago
case EVENT_SYNC:
ot_overall_sync_count+=event_data;
break;
case EVENT_BUCKET_LOCKED:
ot_overall_stall_count++;
break;
#ifdef WANT_SPOT_WOODPECKER
case EVENT_WOODPECKER:
pthread_mutex_lock( &g_woodpeckers_mutex );
stat_increase_network_count( &stats_woodpeckers_tree, 0, event_data );
pthread_mutex_unlock( &g_woodpeckers_mutex );
break;
#endif
case EVENT_CONNID_MISSMATCH:
++ot_overall_udp_connectionidmissmatches;
default:
break;
}
}
void stats_cleanup() {
#ifdef WANT_SPOT_WOODPECKER
pthread_mutex_lock( &g_woodpeckers_mutex );
stats_shift_down_network_count( &stats_woodpeckers_tree, 0, 1 );
pthread_mutex_unlock( &g_woodpeckers_mutex );
#endif
}
static void * stats_worker( void * args ) {
int iovec_entries;
struct iovec *iovector;
(void) args;
while( 1 ) {
ot_tasktype tasktype = TASK_STATS;
ot_taskid taskid = mutex_workqueue_poptask( &tasktype );
stats_make( &iovec_entries, &iovector, tasktype );
if( mutex_workqueue_pushresult( taskid, iovec_entries, iovector ) )
iovec_free( &iovec_entries, &iovector );
}
return NULL;
}
void stats_deliver( int64 sock, int tasktype ) {
mutex_workqueue_pushtask( sock, tasktype );
}
static pthread_t thread_id;
void stats_init( ) {
ot_start_time = g_now_seconds;
pthread_create( &thread_id, NULL, stats_worker, NULL );
}
void stats_deinit( ) {
pthread_cancel( thread_id );
}
const char *g_version_stats_c = "$Source$: $Revision$\n";