Return peer from both address families on announce

master
Dirk Engling 9 months ago
parent 880d5145a0
commit d9a5f04675

@ -588,7 +588,7 @@ ssize_t http_handle_request( const int64 sock, struct ot_workstruct *ws ) {
memcpy( ws->debugbuf, ws->request, reply_off );
ws->debugbuf[ reply_off ] = 0;
#endif
/* Tell subroutines where to put reply data */
ws->reply = ws->outbuf + SUCCESS_HTTP_HEADER_LENGTH;

@ -276,32 +276,18 @@ static size_t return_peers_selection( struct ot_workstruct *ws, ot_peerlist *pee
return result;
}
/* Compiles a list of random peers for a torrent
* Reply must have enough space to hold:
* 92 + 6 * amount bytes for TCP/IPv4
* 92 + 18 * amount bytes for TCP/IPv6
* 12 + 6 * amount bytes for UDP/IPv4
* 12 + 18 * amount bytes for UDP/IPv6
* Does not yet check not to return self
*/
size_t return_peers_for_torrent( struct ot_workstruct * ws, ot_torrent *torrent, size_t amount, char *reply, PROTO_FLAG proto ) {
static size_t return_peers_for_torrent_udp( struct ot_workstruct * ws, ot_torrent *torrent, size_t amount, char *reply ) {
char *r = reply;
size_t peer_size = peer_size_from_peer6(&ws->peer);
ot_peerlist *peer_list = peer_size == OT_PEER_SIZE6 ? torrent->peer_list6 : torrent->peer_list4;
char *r = reply;
size_t compare_size = OT_PEER_COMPARE_SIZE_FROM_PEER_SIZE(peer_size);
if( amount > peer_list->peer_count )
amount = peer_list->peer_count;
if( proto == FLAG_TCP ) {
int erval = OT_CLIENT_REQUEST_INTERVAL_RANDOM;
r += sprintf( r, "d8:completei%zde10:downloadedi%zde10:incompletei%zde8:intervali%ie12:min intervali%ie%s%zd:", peer_list->seed_count, peer_list->down_count, peer_list->peer_count-peer_list->seed_count, erval, erval/2, peer_size == OT_PEER_SIZE6 ? PEERS_BENCODED6 : PEERS_BENCODED4, compare_size * amount );
} else {
*(uint32_t*)(r+0) = htonl( OT_CLIENT_REQUEST_INTERVAL_RANDOM );
*(uint32_t*)(r+4) = htonl( peer_list->peer_count - peer_list->seed_count );
*(uint32_t*)(r+8) = htonl( peer_list->seed_count );
r += 12;
}
*(uint32_t*)(r+0) = htonl( OT_CLIENT_REQUEST_INTERVAL_RANDOM );
*(uint32_t*)(r+4) = htonl( peer_list->peer_count - peer_list->seed_count );
*(uint32_t*)(r+8) = htonl( peer_list->seed_count );
r += 12;
if( amount ) {
if( amount == peer_list->peer_count )
@ -309,13 +295,87 @@ size_t return_peers_for_torrent( struct ot_workstruct * ws, ot_torrent *torrent,
else
r += return_peers_selection( ws, peer_list, peer_size, amount, r );
}
return r - reply;
}
static size_t return_peers_for_torrent_tcp( struct ot_workstruct * ws, ot_torrent *torrent, size_t amount, char *reply ) {
char *r = reply;
int erval = OT_CLIENT_REQUEST_INTERVAL_RANDOM;
size_t seed_count = torrent->peer_list6->seed_count + torrent->peer_list4->seed_count;
size_t down_count = torrent->peer_list6->down_count + torrent->peer_list4->down_count;
size_t peer_count = torrent->peer_list6->peer_count + torrent->peer_list4->peer_count - seed_count;
/* Simple case: amount of peers in both lists is less than requested, here we return all results */
size_t amount_v4 = torrent->peer_list4->peer_count;
size_t amount_v6 = torrent->peer_list6->peer_count;
/* Complex case: both lists have more than enough entries and we need to split between v4 and v6 clients */
if( amount_v4 + amount_v6 > amount ) {
size_t amount_left, percent_v6 = 0, percent_v4 = 0, left_v6, left_v4;
const size_t SCALE = 1024;
/* If possible, fill at least a quarter of peer from each family */
if( amount / 4 <= amount_v4 )
amount_v4 = amount / 4;
if( amount / 4 <= amount_v6 )
amount_v6 = amount / 4;
/* Fill the rest according to which family's pool provides more peers */
amount_left = amount - (amount_v4 + amount_v6);
left_v4 = torrent->peer_list4->peer_count - amount_v4;
left_v6 = torrent->peer_list6->peer_count - amount_v6;
if( left_v4 + left_v6 ) {
percent_v4 = (SCALE * left_v4) / (left_v4 + left_v6);
percent_v6 = (SCALE * left_v6) / (left_v4 + left_v6);
}
amount_v4 += (amount_left * percent_v4) / SCALE;
amount_v6 += (amount_left * percent_v6) / SCALE;
/* Integer division rounding can leave out a peer */
if( amount_v4 + amount_v6 < amount && amount_v6 < torrent->peer_list6->peer_count )
++amount_v6;
if( amount_v4 + amount_v6 < amount && amount_v4 < torrent->peer_list4->peer_count )
++amount_v4;
}
r += sprintf( r, "d8:completei%zde10:downloadedi%zde10:incompletei%zde8:intervali%ie12:min intervali%ie", seed_count, down_count, peer_count, erval, erval/2 );
if( amount_v4 ) {
r += sprintf( r, PEERS_BENCODED4 "%zd:", OT_PEER_COMPARE_SIZE4 * amount_v4);
if( amount_v4 == torrent->peer_list4->peer_count )
r += return_peers_all( torrent->peer_list4, OT_PEER_SIZE4, r );
else
r += return_peers_selection( ws, torrent->peer_list4, OT_PEER_SIZE4, amount_v4, r );
}
if( proto == FLAG_TCP )
*r++ = 'e';
if( amount_v6 ) {
r += sprintf( r, PEERS_BENCODED6 "%zd:", OT_PEER_COMPARE_SIZE6 * amount_v6);
if( amount_v6 == torrent->peer_list6->peer_count )
r += return_peers_all( torrent->peer_list6, OT_PEER_SIZE6, r );
else
r += return_peers_selection( ws, torrent->peer_list6, OT_PEER_SIZE6, amount_v6, r );
}
*r++ = 'e';
return r - reply;
}
/* Compiles a list of random peers for a torrent
* Reply must have enough space to hold:
* 92 + 6 * amount bytes for TCP/IPv4
* 92 + 18 * amount bytes for TCP/IPv6
* 12 + 6 * amount bytes for UDP/IPv4
* 12 + 18 * amount bytes for UDP/IPv6
* Does not yet check not to return self
*/
size_t return_peers_for_torrent( struct ot_workstruct * ws, ot_torrent *torrent, size_t amount, char *reply, PROTO_FLAG proto ) {
return proto == FLAG_TCP ? return_peers_for_torrent_tcp(ws, torrent, amount, reply) : return_peers_for_torrent_udp(ws, torrent, amount, reply);
}
/* Fetches scrape info for a specific torrent */
size_t return_udp_scrape_for_torrent( ot_hash const hash, char *reply ) {
int exactmatch, delta_torrentcount = 0;

@ -82,7 +82,7 @@ typedef enum { FLAG_TCP, FLAG_UDP, FLAG_MCA, FLAG_SELFPIPE } PROTO_FLAG;
#define OT_PEER_SIZE6 ((OT_TIME_SIZE)+(OT_FLAG_SIZE)+(OT_PEER_COMPARE_SIZE6))
#define OT_PEER_SIZE4 ((OT_TIME_SIZE)+(OT_FLAG_SIZE)+(OT_PEER_COMPARE_SIZE4))
typedef uint8_t ot_peer[1]; /* Generic pointer to a v6 or v4 peer */
typedef uint8_t ot_peer; /* Generic pointer to a v6 or v4 peer */
typedef uint8_t ot_peer6[OT_PEER_SIZE6];
typedef uint8_t ot_peer4[OT_PEER_SIZE4];
static const uint8_t PEER_FLAG_SEEDING = 0x80;

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