mirror of
https://github.com/transmission/transmission
synced 2024-12-30 19:46:56 +00:00
388 lines
11 KiB
C
388 lines
11 KiB
C
/*
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* This file Copyright (C) 2008-2010 Mnemosyne LLC
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*
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* This file is licensed by the GPL version 2. Works owned by the
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* Transmission project are granted a special exemption to clause 2(b)
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* so that the bulk of its code can remain under the MIT license.
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* This exemption does not extend to derived works not owned by
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* the Transmission project.
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*
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* $Id$
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*/
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#include <assert.h>
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#include <limits.h>
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#include "event.h"
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#include "transmission.h"
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#include "bandwidth.h"
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#include "crypto.h"
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#include "peer-io.h"
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#include "ptrarray.h"
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#include "utils.h"
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#define dbgmsg( ... ) \
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do { \
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if( tr_deepLoggingIsActive( ) ) \
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tr_deepLog( __FILE__, __LINE__, NULL, __VA_ARGS__ ); \
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} while( 0 )
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/***
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****
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***/
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static float
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getSpeed( const struct bratecontrol * r, int interval_msec, uint64_t now )
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{
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uint64_t bytes = 0;
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const uint64_t cutoff = (now?now:tr_date()) - interval_msec;
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int i = r->newest;
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for( ;; )
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{
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if( r->transfers[i].date <= cutoff )
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break;
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bytes += r->transfers[i].size;
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if( --i == -1 ) i = HISTORY_SIZE - 1; /* circular history */
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if( i == r->newest ) break; /* we've come all the way around */
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}
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return ( bytes / 1024.0 ) * ( 1000.0 / interval_msec );
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}
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static void
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bytesUsed( const uint64_t now, struct bratecontrol * r, size_t size )
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{
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if( r->transfers[r->newest].date + GRANULARITY_MSEC >= now )
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r->transfers[r->newest].size += size;
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else
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{
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if( ++r->newest == HISTORY_SIZE ) r->newest = 0;
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r->transfers[r->newest].date = now;
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r->transfers[r->newest].size = size;
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}
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}
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/******
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*******
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*******
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******/
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static inline int
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comparePointers( const void * a, const void * b )
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{
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if( a != b )
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return a < b ? -1 : 1;
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return 0;
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}
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/***
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****
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***/
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tr_bandwidth*
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tr_bandwidthConstruct( tr_bandwidth * b, tr_session * session, tr_bandwidth * parent )
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{
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b->session = session;
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b->children = TR_PTR_ARRAY_INIT;
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b->magicNumber = MAGIC_NUMBER;
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b->band[TR_UP].honorParentLimits = TRUE;
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b->band[TR_DOWN].honorParentLimits = TRUE;
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tr_bandwidthSetParent( b, parent );
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return b;
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}
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tr_bandwidth*
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tr_bandwidthDestruct( tr_bandwidth * b )
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{
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assert( tr_isBandwidth( b ) );
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tr_bandwidthSetParent( b, NULL );
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tr_ptrArrayDestruct( &b->children, NULL );
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memset( b, ~0, sizeof( tr_bandwidth ) );
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return b;
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}
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/***
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****
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***/
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void
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tr_bandwidthSetParent( tr_bandwidth * b,
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tr_bandwidth * parent )
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{
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assert( tr_isBandwidth( b ) );
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assert( b != parent );
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if( b->parent )
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{
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void * removed;
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assert( tr_isBandwidth( b->parent ) );
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removed = tr_ptrArrayRemoveSorted( &b->parent->children, b, comparePointers );
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assert( removed == b );
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assert( tr_ptrArrayFindSorted( &b->parent->children, b, comparePointers ) == NULL );
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b->parent = NULL;
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}
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if( parent )
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{
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assert( tr_isBandwidth( parent ) );
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assert( parent->parent != b );
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tr_ptrArrayInsertSorted( &parent->children, b, comparePointers );
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assert( tr_ptrArrayFindSorted( &parent->children, b, comparePointers ) == b );
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b->parent = parent;
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}
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}
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/***
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****
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***/
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#if 0
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#warning do not check the code in with this enabled
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#define DEBUG_DIRECTION TR_UP
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#endif
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static void
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allocateBandwidth( tr_bandwidth * b,
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tr_priority_t parent_priority,
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tr_direction dir,
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int period_msec,
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tr_ptrArray * peer_pool )
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{
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tr_priority_t priority;
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assert( tr_isBandwidth( b ) );
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assert( tr_isDirection( dir ) );
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/* set the available bandwidth */
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if( b->band[dir].isLimited )
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{
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const double desiredSpeed = b->band[dir].desiredSpeed;
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const double nextPulseSpeed = desiredSpeed;
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b->band[dir].bytesLeft = MAX( 0.0, nextPulseSpeed * 1024.0 * period_msec / 1000.0 );
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#ifdef DEBUG_DIRECTION
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if( dir == DEBUG_DIRECTION )
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fprintf( stderr, "bandwidth %p currentPieceSpeed(%5.2f of %5.2f) desiredSpeed(%5.2f), allocating %5.2f\n",
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b, currentSpeed, tr_bandwidthGetRawSpeed( b, dir ), desiredSpeed,
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b->band[dir].bytesLeft/1024.0 );
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#endif
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}
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priority = MAX( parent_priority, b->priority );
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/* add this bandwidth's peer, if any, to the peer pool */
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if( b->peer != NULL ) {
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b->peer->priority = priority;
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tr_ptrArrayAppend( peer_pool, b->peer );
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}
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#ifdef DEBUG_DIRECTION
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if( ( dir == DEBUG_DIRECTION ) && ( n > 1 ) )
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fprintf( stderr, "bandwidth %p has %d peers\n", b, n );
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#endif
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/* traverse & repeat for the subtree */
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if( 1 ) {
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int i;
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struct tr_bandwidth ** children = (struct tr_bandwidth**) tr_ptrArrayBase( &b->children );
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const int n = tr_ptrArraySize( &b->children );
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for( i=0; i<n; ++i )
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allocateBandwidth( children[i], priority, dir, period_msec, peer_pool );
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}
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}
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static void
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phaseOne( tr_ptrArray * peerArray, tr_direction dir )
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{
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int i, n;
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int peerCount = tr_ptrArraySize( peerArray );
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struct tr_peerIo ** peers = (struct tr_peerIo**) tr_ptrArrayBase( peerArray );
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/* First phase of IO. Tries to distribute bandwidth fairly to keep faster
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* peers from starving the others. Loop through the peers, giving each a
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* small chunk of bandwidth. Keep looping until we run out of bandwidth
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* and/or peers that can use it */
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n = peerCount;
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dbgmsg( "%d peers to go round-robin for %s", n, (dir==TR_UP?"upload":"download") );
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i = n ? tr_cryptoWeakRandInt( n ) : 0; /* pick a random starting point */
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while( n > 1 )
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{
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const size_t increment = 1024;
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const int bytesUsed = tr_peerIoFlush( peers[i], dir, increment );
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dbgmsg( "peer #%d of %d used %d bytes in this pass", i, n, bytesUsed );
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if( bytesUsed == (int)increment )
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++i;
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else {
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/* peer is done writing for now; move it to the end of the list */
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tr_peerIo * pio = peers[i];
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peers[i] = peers[n-1];
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peers[n-1] = pio;
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--n;
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}
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if( i == n )
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i = 0;
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}
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}
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void
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tr_bandwidthAllocate( tr_bandwidth * b,
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tr_direction dir,
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int period_msec )
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{
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int i, peerCount;
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tr_ptrArray tmp = TR_PTR_ARRAY_INIT;
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tr_ptrArray low = TR_PTR_ARRAY_INIT;
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tr_ptrArray high = TR_PTR_ARRAY_INIT;
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tr_ptrArray normal = TR_PTR_ARRAY_INIT;
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struct tr_peerIo ** peers;
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/* allocateBandwidth() is a helper function with two purposes:
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* 1. allocate bandwidth to b and its subtree
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* 2. accumulate an array of all the peerIos from b and its subtree. */
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allocateBandwidth( b, TR_PRI_LOW, dir, period_msec, &tmp );
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peers = (struct tr_peerIo**) tr_ptrArrayBase( &tmp );
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peerCount = tr_ptrArraySize( &tmp );
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for( i=0; i<peerCount; ++i )
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{
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tr_peerIo * io = peers[i];
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tr_peerIoRef( io );
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tr_peerIoFlushOutgoingProtocolMsgs( io );
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switch( io->priority ) {
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case TR_PRI_HIGH: tr_ptrArrayAppend( &high, io ); /* fall through */
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case TR_PRI_NORMAL: tr_ptrArrayAppend( &normal, io ); /* fall through */
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default: tr_ptrArrayAppend( &low, io );
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}
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}
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/* First phase of IO. Tries to distribute bandwidth fairly to keep faster
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* peers from starving the others. Loop through the peers, giving each a
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* small chunk of bandwidth. Keep looping until we run out of bandwidth
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* and/or peers that can use it */
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phaseOne( &high, dir );
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phaseOne( &normal, dir );
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phaseOne( &low, dir );
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/* Second phase of IO. To help us scale in high bandwidth situations,
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* enable on-demand IO for peers with bandwidth left to burn.
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* This on-demand IO is enabled until (1) the peer runs out of bandwidth,
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* or (2) the next tr_bandwidthAllocate() call, when we start over again. */
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for( i=0; i<peerCount; ++i )
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tr_peerIoSetEnabled( peers[i], dir, tr_peerIoHasBandwidthLeft( peers[i], dir ) );
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for( i=0; i<peerCount; ++i )
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tr_peerIoUnref( peers[i] );
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/* cleanup */
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tr_ptrArrayDestruct( &normal, NULL );
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tr_ptrArrayDestruct( &high, NULL );
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tr_ptrArrayDestruct( &low, NULL );
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tr_ptrArrayDestruct( &tmp, NULL );
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}
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void
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tr_bandwidthSetPeer( tr_bandwidth * b, tr_peerIo * peer )
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{
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assert( tr_isBandwidth( b ) );
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assert( ( peer == NULL ) || tr_isPeerIo( peer ) );
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b->peer = peer;
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}
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/***
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****
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***/
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size_t
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tr_bandwidthClamp( const tr_bandwidth * b,
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tr_direction dir,
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size_t byteCount )
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{
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assert( tr_isBandwidth( b ) );
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assert( tr_isDirection( dir ) );
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if( b )
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{
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if( b->band[dir].isLimited )
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byteCount = MIN( byteCount, b->band[dir].bytesLeft );
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if( b->parent && b->band[dir].honorParentLimits )
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byteCount = tr_bandwidthClamp( b->parent, dir, byteCount );
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}
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return byteCount;
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}
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double
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tr_bandwidthGetRawSpeed( const tr_bandwidth * b, const uint64_t now, const tr_direction dir )
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{
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assert( tr_isBandwidth( b ) );
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assert( tr_isDirection( dir ) );
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return getSpeed( &b->band[dir].raw, HISTORY_MSEC, now );
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}
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double
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tr_bandwidthGetPieceSpeed( const tr_bandwidth * b, const uint64_t now, const tr_direction dir )
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{
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assert( tr_isBandwidth( b ) );
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assert( tr_isDirection( dir ) );
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return getSpeed( &b->band[dir].piece, HISTORY_MSEC, now );
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}
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static void
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bandwidthUsedImpl( tr_bandwidth * b,
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tr_direction dir,
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size_t byteCount,
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tr_bool isPieceData,
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uint64_t now )
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{
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struct tr_band * band;
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assert( tr_isBandwidth( b ) );
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assert( tr_isDirection( dir ) );
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band = &b->band[dir];
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if( band->isLimited && isPieceData )
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band->bytesLeft -= MIN( band->bytesLeft, byteCount );
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#ifdef DEBUG_DIRECTION
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if( ( dir == DEBUG_DIRECTION ) && ( band->isLimited ) )
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fprintf( stderr, "%p consumed %5zu bytes of %5s data... was %6zu, now %6zu left\n",
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b, byteCount, (isPieceData?"piece":"raw"), oldBytesLeft, band->bytesLeft );
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#endif
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bytesUsed( now, &band->raw, byteCount );
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if( isPieceData )
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bytesUsed( now, &band->piece, byteCount );
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if( b->parent != NULL )
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bandwidthUsedImpl( b->parent, dir, byteCount, isPieceData, now );
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}
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void
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tr_bandwidthUsed( tr_bandwidth * b,
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tr_direction dir,
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size_t byteCount,
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tr_bool isPieceData )
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{
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bandwidthUsedImpl( b, dir, byteCount, isPieceData, tr_date( ) );
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}
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