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opentracker/ot_stats.c

436 lines
14 KiB
C

/* 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>
/* Libowfat */
#include "byte.h"
#include "io.h"
/* Opentracker */
#include "trackerlogic.h"
#include "ot_mutex.h"
#include "ot_stats.h"
#ifndef NO_FULLSCRAPE_LOGGING
#define LOG_TO_STDERR( ... ) fprintf( stderr, __VA_ARGS__ )
#else
#define LOG_TO_STDERR( ... )
#endif
/* 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_tcp_connects = 0;
static unsigned long long ot_overall_udp_connects = 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 time_t ot_start_time;
/* 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_torrent * torrent; } ot_record;
/* Fetches stats from tracker */
size_t stats_top5_txt( char * reply ) {
size_t j;
ot_record top5s[5], top5c[5];
char *r = reply, hex_out[42];
int idx, bucket;
byte_zero( top5s, sizeof( top5s ) );
byte_zero( top5c, sizeof( top5c ) );
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_peerlist *peer_list = ( ((ot_torrent*)(torrents_list->data))[j] ).peer_list;
int idx = 4; while( (idx >= 0) && ( peer_list->peer_count > top5c[idx].val ) ) --idx;
if ( idx++ != 4 ) {
memmove( top5c + idx + 1, top5c + idx, ( 4 - idx ) * sizeof( ot_record ) );
top5c[idx].val = peer_list->peer_count;
top5c[idx].torrent = (ot_torrent*)(torrents_list->data) + j;
}
idx = 4; while( (idx >= 0) && ( peer_list->seed_count > top5s[idx].val ) ) --idx;
if ( idx++ != 4 ) {
memmove( top5s + idx + 1, top5s + idx, ( 4 - idx ) * sizeof( ot_record ) );
top5s[idx].val = peer_list->seed_count;
top5s[idx].torrent = (ot_torrent*)(torrents_list->data) + j;
}
}
mutex_bucket_unlock( bucket );
}
r += sprintf( r, "Top5 torrents by peers:\n" );
for( idx=0; idx<5; ++idx )
if( top5c[idx].torrent )
r += sprintf( r, "\t%zd\t%s\n", top5c[idx].val, to_hex( hex_out, top5c[idx].torrent->hash) );
r += sprintf( r, "Top5 torrents by seeds:\n" );
for( idx=0; idx<5; ++idx )
if( top5s[idx].torrent )
r += sprintf( r, "\t%zd\t%s\n", top5s[idx].val, to_hex( hex_out, top5s[idx].torrent->hash) );
return r - reply;
}
/* This function collects 4096 /24s in 4096 possible
malloc blocks
*/
static size_t stats_slash24s_txt( char * reply, size_t amount, uint32_t thresh ) {
#define NUM_TOPBITS 12
#define NUM_LOWBITS (24-NUM_TOPBITS)
#define NUM_BUFS (1<<NUM_TOPBITS)
#define NUM_S24S (1<<NUM_LOWBITS)
#define MSK_S24S (NUM_S24S-1)
uint32_t *counts[ NUM_BUFS ];
uint32_t slash24s[amount*2]; /* first dword amount, second dword subnet */
int bucket;
size_t i, j, k, l;
char *r = reply;
byte_zero( counts, sizeof( counts ) );
byte_zero( slash24s, amount * 2 * sizeof(uint32_t) );
r += sprintf( r, "Stats for all /24s with more than %u announced torrents:\n\n", thresh );
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_peerlist *peer_list = ( ((ot_torrent*)(torrents_list->data))[j] ).peer_list;
for( k=0; k<OT_POOLS_COUNT; ++k ) {
ot_peer *peers = peer_list->peers[k].data;
size_t numpeers = peer_list->peers[k].size;
for( l=0; l<numpeers; ++l ) {
uint32_t s24 = ntohl(*(uint32_t*)(peers+l)) >> 8;
uint32_t *count = counts[ s24 >> NUM_LOWBITS ];
if( !count ) {
count = malloc( sizeof(uint32_t) * NUM_S24S );
if( !count ) {
mutex_bucket_unlock( bucket );
goto bailout_cleanup;
}
byte_zero( count, sizeof( uint32_t ) * NUM_S24S );
counts[ s24 >> NUM_LOWBITS ] = count;
}
count[ s24 & MSK_S24S ]++;
}
}
}
mutex_bucket_unlock( bucket );
}
k = l = 0; /* Debug: count allocated bufs */
for( i=0; i < NUM_BUFS; ++i ) {
uint32_t *count = counts[i];
if( !counts[i] )
continue;
++k; /* Debug: count allocated bufs */
for( j=0; j < NUM_S24S; ++j ) {
if( count[j] > thresh ) {
/* This subnet seems to announce more torrents than the last in our list */
int insert_pos = amount - 1;
while( ( insert_pos >= 0 ) && ( count[j] > slash24s[ 2 * insert_pos ] ) )
--insert_pos;
++insert_pos;
memmove( slash24s + 2 * ( insert_pos + 1 ), slash24s + 2 * ( insert_pos ), 2 * sizeof( uint32_t ) * ( amount - insert_pos - 1 ) );
slash24s[ 2 * insert_pos ] = count[j];
slash24s[ 2 * insert_pos + 1 ] = ( i << NUM_TOPBITS ) + j;
if( slash24s[ 2 * amount - 2 ] > thresh )
thresh = slash24s[ 2 * amount - 2 ];
}
if( count[j] ) ++l;
}
free( count );
}
r += sprintf( r, "Allocated bufs: %zd, used s24s: %zd\n", k, l );
for( i=0; i < amount; ++i )
if( slash24s[ 2*i ] >= thresh ) {
uint32_t ip = slash24s[ 2*i +1 ];
r += sprintf( r, "% 10ld %d.%d.%d.0/24\n", (long)slash24s[ 2*i ], (int)(ip >> 16), (int)(255 & ( ip >> 8 )), (int)(ip & 255) );
}
return r - reply;
bailout_cleanup:
for( i=0; i < NUM_BUFS; ++i )
free( counts[i] );
return 0;
}
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 ) {
size_t torrent_count = 0, peer_count = 0, seed_count = 0, j;
int bucket;
for( bucket=0; bucket<OT_BUCKET_COUNT; ++bucket ) {
ot_vector *torrents_list = mutex_bucket_lock( bucket );
torrent_count += torrents_list->size;
for( j=0; j<torrents_list->size; ++j ) {
ot_peerlist *peer_list = ( ((ot_torrent*)(torrents_list->data))[j] ).peer_list;
peer_count += peer_list->peer_count; seed_count += peer_list->seed_count;
}
mutex_bucket_unlock( bucket );
}
return sprintf( reply, "%zd\n%zd\nopentracker serving %zd torrents\nopentracker",
peer_count,
seed_count,
torrent_count
);
}
static size_t stats_startstop_mrtg( char * reply )
{
size_t torrent_count = 0;
int bucket;
for( bucket=0; bucket<OT_BUCKET_COUNT; ++bucket )
{
ot_vector *torrents_list = mutex_bucket_lock( bucket );
torrent_count += torrents_list->size;
mutex_bucket_unlock( bucket );
}
return sprintf( reply, "%zd\n%zd\nopentracker handling %zd torrents\nopentracker",
(size_t)0,
(size_t)0,
torrent_count
);
}
static size_t stats_toraddrem_mrtg( char * reply )
{
size_t peer_count = 0, j;
int bucket;
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_peerlist *peer_list = ( ((ot_torrent*)(torrents_list->data))[j] ).peer_list;
peer_count += peer_list->peer_count;
}
mutex_bucket_unlock( bucket );
}
return sprintf( reply, "%zd\n%zd\nopentracker handling %zd peers\nopentracker",
(size_t)0,
(size_t)0,
peer_count
);
}
static size_t stats_torrents_mrtg( char * reply )
{
size_t torrent_count = 0;
int bucket;
for( bucket=0; bucket<OT_BUCKET_COUNT; ++bucket )
{
ot_vector *torrents_list = mutex_bucket_lock( bucket );
torrent_count += torrents_list->size;
mutex_bucket_unlock( bucket );
}
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] );
}
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_sync_c, *g_version_udp_c, *g_version_vector_c,
*g_version_scan_urlencoded_query_c, *g_version_trackerlogic_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",
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_sync_c, g_version_udp_c, g_version_vector_c,
g_version_scan_urlencoded_query_c, g_version_trackerlogic_c );
}
size_t return_stats_for_tracker( char *reply, int mode, int format ) {
format = format;
switch( mode ) {
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_PEERS:
return stats_peers_mrtg( reply );
case TASK_STATS_TORRENTS:
return stats_torrents_mrtg( reply );
case TASK_STATS_TORADDREM:
return stats_toraddrem_mrtg( reply );
case TASK_STATS_STARTSTOP:
return stats_startstop_mrtg( reply );
case TASK_STATS_SLASH24S:
return stats_slash24s_txt( reply, 25, 16 );
case TASK_STATS_TOP5:
return stats_top5_txt( reply );
case TASK_STATS_FULLSCRAPE:
return stats_fullscrapes_mrtg( reply );
case TASK_STATS_HTTPERRORS:
return stats_httperrors_txt( reply );
default:
return 0;
}
}
void stats_issue_event( ot_status_event event, int is_tcp, size_t event_data ) {
switch( event ) {
case EVENT_ACCEPT:
if( is_tcp ) ot_overall_tcp_connections++; else ot_overall_udp_connections++;
break;
case EVENT_ANNOUNCE:
if( is_tcp ) ot_overall_tcp_successfulannounces++; else ot_overall_udp_successfulannounces++;
break;
case EVENT_CONNECT:
if( is_tcp ) ot_overall_tcp_connects++; else ot_overall_udp_connects++;
break;
case EVENT_SCRAPE:
if( is_tcp ) ot_overall_tcp_successfulscrapes++; else ot_overall_udp_successfulscrapes++;
case EVENT_FULLSCRAPE:
ot_full_scrape_count++;
ot_full_scrape_size += event_data;
break;
case EVENT_FULLSCRAPE_REQUEST:
{
unsigned char ip[4]; *(int*)ip = is_tcp; /* ugly hack to transfer ip to stats */
LOG_TO_STDERR( "[%08d] scrp: %d.%d.%d.%d - FULL SCRAPE\n", (unsigned int)(g_now - ot_start_time), ip[0], ip[1], ip[2], ip[3] );
ot_full_scrape_request_count++;
}
break;
case EVENT_FULLSCRAPE_REQUEST_GZIP:
{
unsigned char ip[4]; *(int*)ip = is_tcp; /* ugly hack to transfer ip to stats */
LOG_TO_STDERR( "[%08d] scrp: %d.%d.%d.%d - FULL SCRAPE GZIP\n", (unsigned int)(g_now - ot_start_time), ip[0], ip[1], ip[2], ip[3] );
ot_full_scrape_request_count++;
}
break;
case EVENT_FAILED:
ot_failed_request_counts[event_data]++;
break;
case EVENT_SYNC_IN_REQUEST:
case EVENT_SYNC_IN:
case EVENT_SYNC_OUT_REQUEST:
case EVENT_SYNC_OUT:
break;
default:
break;
}
}
void stats_init( ) {
ot_start_time = g_now;
}
void stats_deinit( ) {
}
const char *g_version_stats_c = "$Source$: $Revision$\n";