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/* 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 <stdlib.h>
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#include <string.h>
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#include <strings.h>
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#include <stdint.h>
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/* Opentracker */
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#include "trackerlogic.h"
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#include "ot_vector.h"
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/* Libowfat */
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#include "uint32.h"
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#include "uint16.h"
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static int vector_compare_peer6(const void *peer1, const void *peer2 ) {
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return memcmp( peer1, peer2, OT_PEER_COMPARE_SIZE6 );
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}
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static int vector_compare_peer4(const void *peer1, const void *peer2 ) {
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return memcmp( peer1, peer2, OT_PEER_COMPARE_SIZE4 );
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}
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/* This function gives us a binary search that returns a pointer, even if
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no exact match is found. In that case it sets exactmatch 0 and gives
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calling functions the chance to insert data
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*/
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void *binary_search( const void * const key, const void * base, const size_t member_count, const size_t member_size,
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size_t compare_size, int *exactmatch ) {
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size_t interval = member_count;
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while( interval ) {
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uint8_t *lookat = ((uint8_t*)base) + member_size * ( interval / 2 );
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int cmp = memcmp( lookat, key, compare_size );
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if(cmp == 0 ) {
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base = lookat;
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break;
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}
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if(cmp < 0) {
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base = lookat + member_size;
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interval--;
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}
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interval /= 2;
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}
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*exactmatch = interval;
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return (void*)base;
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}
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static uint8_t vector_hash_peer( ot_peer const *peer, size_t compare_size, int bucket_count ) {
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unsigned int hash = 5381;
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uint8_t *p = (uint8_t*)peer;
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while( compare_size-- ) hash += (hash<<5) + *(p++);
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return hash % bucket_count;
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}
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/* This is the generic insert operation for our vector type.
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It tries to locate the object at "key" with size "member_size" by comparing its first "compare_size" bytes with
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those of objects in vector. Our special "binary_search" function does that and either returns the match or a
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pointer to where the object is to be inserted. vector_find_or_insert makes space for the object and copies it,
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if it wasn't found in vector. Caller needs to check the passed "exactmatch" variable to see, whether an insert
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took place. If resizing the vector failed, NULL is returned, else the pointer to the object in vector.
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*/
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void *vector_find_or_insert( ot_vector *vector, void *key, size_t member_size, size_t compare_size, int *exactmatch ) {
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uint8_t *match = binary_search( key, vector->data, vector->size, member_size, compare_size, exactmatch );
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if( *exactmatch ) return match;
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if( vector->size + 1 > vector->space ) {
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size_t new_space = vector->space ? OT_VECTOR_GROW_RATIO * vector->space : OT_VECTOR_MIN_MEMBERS;
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uint8_t *new_data = realloc( vector->data, new_space * member_size );
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if( !new_data ) return NULL;
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/* Adjust pointer if it moved by realloc */
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match = new_data + (match - (uint8_t*)vector->data);
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vector->data = new_data;
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vector->space = new_space;
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}
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memmove( match + member_size, match, ((uint8_t*)vector->data) + member_size * vector->size - match );
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vector->size++;
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return match;
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}
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ot_peer *vector_find_or_insert_peer( ot_vector *vector, ot_peer const *peer, size_t peer_size, int *exactmatch ) {
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ot_peer *match, *end;
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const size_t compare_size = OT_PEER_COMPARE_SIZE_FROM_PEER_SIZE(peer_size);
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size_t match_to_end;
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/* If space is zero but size is set, we're dealing with a list of vector->size buckets */
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if( vector->space < vector->size )
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vector = ((ot_vector*)vector->data) + vector_hash_peer(peer, compare_size, vector->size );
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match = binary_search( peer, vector->data, vector->size, peer_size, compare_size, exactmatch );
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if( *exactmatch ) return match;
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/* This is the amount of bytes that needs to be pushed backwards by peer_size bytes to make room for new peer */
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end = (ot_peer*)vector->data + vector->size * peer_size;
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match_to_end = end - match;
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if( vector->size + 1 > vector->space ) {
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ptrdiff_t offset = match - (ot_peer*)vector->data;
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size_t new_space = vector->space ? OT_VECTOR_GROW_RATIO * vector->space : OT_VECTOR_MIN_MEMBERS;
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ot_peer *new_data = realloc( vector->data, new_space * peer_size );
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if( !new_data ) return NULL;
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/* Adjust pointer if it moved by realloc */
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match = new_data + offset;
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vector->data = new_data;
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vector->space = new_space;
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}
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/* Here we're guaranteed to have enough space in vector to move the block of peers after insertion point */
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memmove( match + peer_size, match, match_to_end);
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vector->size++;
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return match;
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}
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/* This is the non-generic delete from vector-operation specialized for peers in pools.
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It returns 0 if no peer was found (and thus not removed)
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1 if a non-seeding peer was removed
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2 if a seeding peer was removed
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*/
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int vector_remove_peer( ot_vector *vector, ot_peer const *peer, size_t peer_size) {
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int exactmatch, was_seeder;
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ot_peer *match, *end;
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size_t compare_size = OT_PEER_COMPARE_SIZE_FROM_PEER_SIZE(peer_size);
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if( !vector->size ) return 0;
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/* If space is zero but size is set, we're dealing with a list of vector->size buckets */
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if( vector->space < vector->size )
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vector = ((ot_vector*)vector->data) + vector_hash_peer(peer, compare_size, vector->size );
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end = ((ot_peer*)vector->data) + peer_size * vector->size;
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match = (ot_peer*)binary_search( peer, vector->data, vector->size, peer_size, compare_size, &exactmatch );
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if( !exactmatch ) return 0;
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was_seeder = ( OT_PEERFLAG_D( match, peer_size ) & PEER_FLAG_SEEDING ) ? 2 : 1;
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memmove( match, match + peer_size, end - match - peer_size );
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vector->size--;
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vector_fixup_peers( vector, peer_size );
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return was_seeder;
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}
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void vector_remove_torrent( ot_vector *vector, ot_torrent *match ) {
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ot_torrent *end = ((ot_torrent*)vector->data) + vector->size;
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if( !vector->size ) return;
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/* If this is being called after a unsuccessful malloc() for peer_list
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in add_peer_to_torrent, match->peer_list actually might be NULL */
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if( match->peer_list6) free_peerlist( match->peer_list6 );
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if( match->peer_list4) free_peerlist( match->peer_list4 );
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memmove( match, match + 1, sizeof(ot_torrent) * ( end - match - 1 ) );
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if( ( --vector->size * OT_VECTOR_SHRINK_THRESH < vector->space ) && ( vector->space >= OT_VECTOR_SHRINK_RATIO * OT_VECTOR_MIN_MEMBERS ) ) {
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vector->space /= OT_VECTOR_SHRINK_RATIO;
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vector->data = realloc( vector->data, vector->space * sizeof( ot_torrent ) );
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}
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}
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void vector_clean_list( ot_vector * vector, int num_buckets ) {
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while( num_buckets-- )
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free( vector[num_buckets].data );
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free( vector );
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return;
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}
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void vector_redistribute_buckets( ot_peerlist * peer_list, size_t peer_size ) {
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int tmp, bucket, bucket_size_new, num_buckets_new, num_buckets_old = 1;
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ot_vector * bucket_list_new, * bucket_list_old = &peer_list->peers;
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int (*sort_func)(const void *, const void *) =
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peer_size == OT_PEER_SIZE6 ? &vector_compare_peer6 : &vector_compare_peer4;
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if( OT_PEERLIST_HASBUCKETS( peer_list ) ) {
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num_buckets_old = peer_list->peers.size;
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bucket_list_old = peer_list->peers.data;
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}
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if( peer_list->peer_count < 255 )
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num_buckets_new = 1;
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else if( peer_list->peer_count > 8192 )
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num_buckets_new = 64;
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else if( peer_list->peer_count >= 512 && peer_list->peer_count < 4096 )
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num_buckets_new = 16;
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else if( peer_list->peer_count < 512 && num_buckets_old <= 16 )
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num_buckets_new = num_buckets_old;
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else if( peer_list->peer_count < 512 )
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num_buckets_new = 1;
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else if( peer_list->peer_count < 8192 && num_buckets_old > 1 )
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num_buckets_new = num_buckets_old;
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else
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num_buckets_new = 16;
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if( num_buckets_new == num_buckets_old )
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return;
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/* Assume near perfect distribution */
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bucket_list_new = malloc( num_buckets_new * sizeof( ot_vector ) );
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if( !bucket_list_new) return;
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bzero( bucket_list_new, num_buckets_new * sizeof( ot_vector ) );
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tmp = peer_list->peer_count / num_buckets_new;
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bucket_size_new = OT_VECTOR_MIN_MEMBERS;
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while( bucket_size_new < tmp)
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bucket_size_new *= OT_VECTOR_GROW_RATIO;
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/* preallocate vectors to hold all peers */
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for( bucket=0; bucket<num_buckets_new; ++bucket ) {
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bucket_list_new[bucket].space = bucket_size_new;
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bucket_list_new[bucket].data = malloc( bucket_size_new * peer_size );
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if( !bucket_list_new[bucket].data )
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return vector_clean_list( bucket_list_new, num_buckets_new );
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}
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/* Now sort them into the correct bucket */
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for( bucket=0; bucket<num_buckets_old; ++bucket ) {
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ot_peer * peers_old = bucket_list_old[bucket].data;
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int peer_count_old = bucket_list_old[bucket].size;
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while( peer_count_old-- ) {
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ot_vector * bucket_dest = bucket_list_new;
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if( num_buckets_new > 1 )
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bucket_dest += vector_hash_peer(peers_old, OT_PEER_COMPARE_SIZE_FROM_PEER_SIZE(peer_size), num_buckets_new);
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if( bucket_dest->size + 1 > bucket_dest->space ) {
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void * tmp = realloc( bucket_dest->data, peer_size * OT_VECTOR_GROW_RATIO * bucket_dest->space );
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if( !tmp ) return vector_clean_list( bucket_list_new, num_buckets_new );
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bucket_dest->data = tmp;
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bucket_dest->space *= OT_VECTOR_GROW_RATIO;
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}
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memcpy((ot_peer*)bucket_dest->data + peer_size * bucket_dest->size++, peers_old, peer_size);
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peers_old += peer_size;
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}
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}
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/* Now sort each bucket to later allow bsearch */
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for( bucket=0; bucket<num_buckets_new; ++bucket )
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qsort( bucket_list_new[bucket].data, bucket_list_new[bucket].size, peer_size, sort_func );
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/* Everything worked fine. Now link new bucket_list to peer_list */
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if( OT_PEERLIST_HASBUCKETS( peer_list) )
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vector_clean_list( (ot_vector*)peer_list->peers.data, peer_list->peers.size );
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else
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free( peer_list->peers.data );
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if( num_buckets_new > 1 ) {
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peer_list->peers.data = bucket_list_new;
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peer_list->peers.size = num_buckets_new;
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peer_list->peers.space = 0; /* Magic marker for "is list of buckets" */
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} else {
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peer_list->peers.data = bucket_list_new->data;
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peer_list->peers.size = bucket_list_new->size;
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peer_list->peers.space = bucket_list_new->space;
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free( bucket_list_new );
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}
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}
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void vector_fixup_peers( ot_vector * vector, size_t peer_size ) {
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int need_fix = 0;
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if( !vector->size ) {
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free( vector->data );
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vector->data = NULL;
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vector->space = 0;
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return;
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}
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while( ( vector->size * OT_VECTOR_SHRINK_THRESH < vector->space ) &&
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( vector->space >= OT_VECTOR_SHRINK_RATIO * OT_VECTOR_MIN_MEMBERS ) ) {
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vector->space /= OT_VECTOR_SHRINK_RATIO;
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need_fix++;
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}
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if( need_fix )
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vector->data = realloc( vector->data, vector->space * peer_size );
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}
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const char *g_version_vector_c = "$Source$: $Revision$\n";
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