transmission/libtransmission/torrent.c

1428 lines
38 KiB
C

/******************************************************************************
* $Id$
*
* Copyright (c) 2005-2007 Transmission authors and contributors
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*****************************************************************************/
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include "transmission.h"
#include "completion.h"
#include "fastresume.h"
#include "inout.h"
#include "metainfo.h"
#include "net.h" /* tr_netNtop */
#include "peer.h"
#include "platform.h"
#include "ratecontrol.h"
#include "shared.h"
#include "tracker.h"
#include "trcompat.h" /* for strlcpy */
#include "utils.h"
/***
**** LOCKS
***/
void
tr_torrentReaderLock( const tr_torrent_t * tor )
{
tr_rwReaderLock ( (tr_rwlock_t*)tor->lock );
}
void
tr_torrentReaderUnlock( const tr_torrent_t * tor )
{
tr_rwReaderUnlock ( (tr_rwlock_t*)tor->lock );
}
void
tr_torrentWriterLock( tr_torrent_t * tor )
{
tr_rwWriterLock ( tor->lock );
}
void
tr_torrentWriterUnlock( tr_torrent_t * tor )
{
tr_rwWriterUnlock ( tor->lock );
}
/***
**** PER-TORRENT UL / DL SPEEDS
***/
void
tr_torrentSetSpeedMode( tr_torrent_t * tor,
int up_or_down,
tr_speedlimit_t mode )
{
tr_speedlimit_t * limit = up_or_down==TR_UP
? &tor->uploadLimitMode
: &tor->downloadLimitMode;
*limit = mode;
}
tr_speedlimit_t
tr_torrentGetSpeedMode( const tr_torrent_t * tor,
int up_or_down)
{
return up_or_down==TR_UP ? tor->uploadLimitMode
: tor->downloadLimitMode;
}
void
tr_torrentSetSpeedLimit( tr_torrent_t * tor,
int up_or_down,
int single_KiB_sec )
{
tr_ratecontrol_t * rc = up_or_down==TR_UP ? tor->upload : tor->download;
tr_rcSetLimit( rc, single_KiB_sec );
}
int
tr_torrentGetSpeedLimit( const tr_torrent_t * tor,
int up_or_down )
{
tr_ratecontrol_t * rc = up_or_down==TR_UP ? tor->upload : tor->download;
return tr_rcGetLimit( rc );
}
/***
****
**** TORRENT INSTANTIATION
****
***/
static int
getBytePiece( const tr_info_t * info, uint64_t byteOffset )
{
assert( info != NULL );
assert( info->pieceSize != 0 );
return byteOffset / info->pieceSize;
}
static void
initFilePieces ( tr_info_t * info, int fileIndex )
{
tr_file_t * file = &info->files[fileIndex];
uint64_t firstByte, lastByte;
assert( info != NULL );
assert( 0<=fileIndex && fileIndex<info->fileCount );
file = &info->files[fileIndex];
firstByte = file->offset;
lastByte = firstByte + (file->length ? file->length-1 : 0);
file->firstPiece = getBytePiece( info, firstByte );
file->lastPiece = getBytePiece( info, lastByte );
tr_dbg( "file #%d is in pieces [%d...%d] (%s)", fileIndex, file->firstPiece, file->lastPiece, file->name );
}
static tr_priority_t
calculatePiecePriority ( const tr_torrent_t * tor,
int piece )
{
int i;
tr_priority_t priority = TR_PRI_NORMAL;
for( i=0; i<tor->info.fileCount; ++i )
{
const tr_file_t * file = &tor->info.files[i];
if ( file->firstPiece <= piece
&& file->lastPiece >= piece
&& file->priority > priority)
priority = file->priority;
}
return priority;
}
static void
tr_torrentInitFilePieces( tr_torrent_t * tor )
{
int i;
uint64_t offset = 0;
assert( tor != NULL );
for( i=0; i<tor->info.fileCount; ++i ) {
tor->info.files[i].offset = offset;
offset += tor->info.files[i].length;
initFilePieces( &tor->info, i );
}
for( i=0; i<tor->info.pieceCount; ++i )
tor->info.pieces[i].priority = calculatePiecePriority( tor, i );
}
static void torrentThreadLoop( void * );
static void
torrentRealInit( tr_handle_t * h,
tr_torrent_t * tor,
const char * destination,
int flags )
{
int i;
uint64_t loaded;
uint64_t t;
char name[512];
tr_bitfield_t * uncheckedPieces;
tr_info_t * info = &tor->info;
tor->info.flags |= flags;
tr_sharedLock( h->shared );
tor->destination = tr_strdup( destination );
tor->handle = h;
tor->key = h->key;
tor->azId = h->azId;
tor->hasChangedState = -1;
/* Escaped info hash for HTTP queries */
for( i = 0; i < SHA_DIGEST_LENGTH; i++ )
{
snprintf( &tor->escapedHashString[3*i],
sizeof( tor->escapedHashString ) - 3 * i,
"%%%02x", tor->info.hash[i] );
}
tor->pexDisabled = 0;
/**
* Decide on a block size. constraints:
* (1) most clients decline requests over 16 KiB
* (2) pieceSize must be a multiple of block size
*/
tor->blockSize = info->pieceSize;
while( tor->blockSize > (1024*16) )
tor->blockSize /= 2;
tor->lastPieceSize = info->totalSize % info->pieceSize;
if( !tor->lastPieceSize )
tor->lastPieceSize = info->pieceSize;
tor->lastBlockSize = info->totalSize % tor->blockSize;
if( !tor->lastBlockSize )
tor->lastBlockSize = tor->blockSize;
tor->blockCount =
( info->totalSize + tor->blockSize - 1 ) / tor->blockSize;
tor->blockCountInPiece =
info->pieceSize / tor->blockSize;
tor->blockCountInLastPiece =
( tor->lastPieceSize + tor->blockSize - 1 ) / tor->blockSize;
/* check our work */
assert( ( info->pieceSize % tor->blockSize ) == 0 );
t = info->pieceCount - 1;
t *= info->pieceSize;
t += tor->lastPieceSize;
assert( t == info->totalSize );
t = tor->blockCount - 1;
t *= tor->blockSize;
t += tor->lastBlockSize;
assert( t == info->totalSize );
t = info->pieceCount - 1;
t *= tor->blockCountInPiece;
t += tor->blockCountInLastPiece;
assert( t == (uint64_t)tor->blockCount );
tor->completion = tr_cpInit( tor );
tr_torrentInitFilePieces( tor );
tor->lock = tr_rwNew( );
tor->upload = tr_rcInit();
tor->download = tr_rcInit();
tor->swarmspeed = tr_rcInit();
/* We have a new torrent */
tor->publicPort = tr_sharedGetPublicPort( h->shared );
tr_sharedUnlock( h->shared );
if( !h->isPortSet )
tr_setBindPort( h, TR_DEFAULT_PORT );
assert( !tor->downloadedCur );
assert( !tor->uploadedCur );
tor->error = TR_OK;
tor->runStatus = flags & TR_FLAG_PAUSED ? TR_RUN_STOPPED : TR_RUN_RUNNING;
uncheckedPieces = tr_bitfieldNew( tor->info.pieceCount );
loaded = tr_fastResumeLoad( tor, uncheckedPieces );
if( tr_bitfieldIsEmpty( uncheckedPieces ) )
tr_bitfieldFree( uncheckedPieces );
else
tor->uncheckedPieces = uncheckedPieces;
if( !(loaded & TR_FR_SPEEDLIMIT ) ) {
int limit, enabled;
tr_getGlobalSpeedLimit( tor->handle, TR_UP, &enabled, &limit );
tr_torrentSetSpeedLimit( tor, TR_UP, limit );
tr_getGlobalSpeedLimit( tor->handle, TR_DOWN, &enabled, &limit );
tr_torrentSetSpeedLimit( tor, TR_DOWN, limit );
}
tor->cpStatus = tr_cpGetStatus( tor->completion );
tr_sharedLock( h->shared );
tor->next = h->torrentList;
h->torrentList = tor;
h->torrentCount++;
tr_sharedUnlock( h->shared );
snprintf( name, sizeof( name ), "torrent %p (%s)", tor, tor->info.name );
tor->thread = tr_threadNew( torrentThreadLoop, tor, name );
}
static int
pathIsInUse ( const tr_handle_t * h,
const char * destination,
const char * name )
{
const tr_torrent_t * tor;
for( tor=h->torrentList; tor; tor=tor->next )
if( !strcmp( destination, tor->destination )
&& !strcmp( name, tor->info.name ) )
return TRUE;
return FALSE;
}
static int
hashExists( const tr_handle_t * h,
const uint8_t * hash )
{
const tr_torrent_t * tor;
for( tor=h->torrentList; tor; tor=tor->next )
if( !memcmp( hash, tor->info.hash, SHA_DIGEST_LENGTH ) )
return TRUE;
return FALSE;
}
static int
infoCanAdd( const tr_handle_t * h,
const char * destination,
const tr_info_t * info )
{
if( hashExists( h, info->hash ) )
return TR_EDUPLICATE;
if( destination && pathIsInUse( h, destination, info->name ) )
return TR_EDUPLICATE;
return TR_OK;
}
int
tr_torrentParse( const tr_handle_t * h,
const char * path,
const char * destination,
tr_info_t * setme_info )
{
int ret;
tr_info_t tmp;
if( setme_info == NULL )
setme_info = &tmp;
memset( setme_info, 0, sizeof( tr_info_t ) );
ret = tr_metainfoParseFile( setme_info, h->tag, path, FALSE );
if( ret == TR_OK )
ret = infoCanAdd( h, destination, setme_info );
/* if we allocated a temporary info, free it */
if( !ret && ( setme_info == &tmp ) )
tr_metainfoFree( &tmp );
return ret;
}
tr_torrent_t *
tr_torrentInit( tr_handle_t * h,
const char * path,
const char * destination,
int flags,
int * error )
{
int val;
int tmpError;
tr_torrent_t * tor = NULL;
if( !error )
error = &tmpError;
if(( val = tr_torrentParse( h, path, destination, NULL )))
*error = val;
else if(!(( tor = tr_new0( tr_torrent_t, 1 ))))
*error = TR_EOTHER;
else {
tr_metainfoParseFile( &tor->info, h->tag, path, TR_FLAG_SAVE & flags );
torrentRealInit( h, tor, destination, flags );
}
return tor;
}
int
tr_torrentParseHash( const tr_handle_t * h,
const char * hashStr,
const char * destination,
tr_info_t * setme_info )
{
int ret;
tr_info_t tmp;
if( setme_info == NULL )
setme_info = &tmp;
memset( setme_info, 0, sizeof( tr_info_t ) );
ret = tr_metainfoParseHash( setme_info, h->tag, hashStr );
if( ret == TR_OK )
ret = infoCanAdd( h, destination, setme_info );
if( setme_info == &tmp )
tr_metainfoFree( &tmp );
return ret;
}
tr_torrent_t *
tr_torrentInitSaved( tr_handle_t * h,
const char * hashStr,
const char * destination,
int flags,
int * error )
{
int val;
int tmpError;
tr_torrent_t * tor = NULL;
if( !error )
error = &tmpError;
if(( val = tr_torrentParseHash( h, hashStr, destination, NULL )))
*error = val;
else if(!(( tor = tr_new0( tr_torrent_t, 1 ))))
*error = TR_EOTHER;
else {
tr_metainfoParseHash( &tor->info, h->tag, hashStr );
torrentRealInit( h, tor, destination, (TR_FLAG_SAVE|flags) );
}
return tor;
}
static int
tr_torrentParseData( const tr_handle_t * h,
const uint8_t * data,
size_t size,
const char * destination,
tr_info_t * setme_info )
{
int ret;
tr_info_t tmp;
if( setme_info == NULL )
setme_info = &tmp;
memset( setme_info, 0, sizeof( tr_info_t ) );
ret = tr_metainfoParseData( setme_info, h->tag, data, size, FALSE );
if( ret == TR_OK )
ret = infoCanAdd( h, destination, setme_info );
if( setme_info == &tmp )
tr_metainfoFree( &tmp );
return ret;
}
tr_torrent_t *
tr_torrentInitData( tr_handle_t * h,
const uint8_t * data,
size_t size,
const char * destination,
int flags,
int * error )
{
int val;
int tmpError;
tr_torrent_t * tor = NULL;
if( !error )
error = &tmpError;
if(( val = tr_torrentParseData( h, data, size, destination, NULL )))
*error = val;
else if(!(( tor = tr_new0( tr_torrent_t, 1 ))))
*error = TR_EOTHER;
else {
tr_metainfoParseData( &tor->info, h->tag, data, size, TR_FLAG_SAVE & flags );
torrentRealInit( h, tor, destination, flags );
}
return tor;
}
const tr_info_t *
tr_torrentInfo( const tr_torrent_t * tor )
{
return &tor->info;
}
/***
****
***/
#if 0
int tr_torrentScrape( tr_torrent_t * tor, int * s, int * l, int * d )
{
return tr_trackerScrape( tor, s, l, d );
}
#endif
static void
fastResumeSave( tr_torrent_t * tor )
{
tr_fastResumeSave( tor );
tor->fastResumeDirty = FALSE;
}
void
tr_torrentSetFolder( tr_torrent_t * tor, const char * path )
{
tr_free( tor->destination );
tor->destination = tr_strdup( path );
fastResumeSave( tor );
}
const char*
tr_torrentGetFolder( const tr_torrent_t * tor )
{
return tor->destination;
}
/***********************************************************************
* torrentReallyStop
***********************************************************************
* Joins the download thread and frees/closes everything related to it.
**********************************************************************/
void tr_torrentDisablePex( tr_torrent_t * tor, int disable )
{
tr_torrentWriterLock( tor );
if( ! ( TR_FLAG_PRIVATE & tor->info.flags ) )
{
if( tor->pexDisabled != disable )
{
int i;
tor->pexDisabled = disable;
for( i=0; i<tor->peerCount; ++i )
tr_peerSetPrivate( tor->peers[i], disable );
}
}
tr_torrentWriterUnlock( tor );
}
static int tr_didStateChangeTo ( tr_torrent_t * tor, int status )
{
int ret;
tr_torrentWriterLock( tor );
if (( ret = tor->hasChangedState == status ))
tor->hasChangedState = -1;
tr_torrentWriterUnlock( tor );
return ret;
}
int tr_getIncomplete( tr_torrent_t * tor )
{
return tr_didStateChangeTo( tor, TR_CP_INCOMPLETE );
}
int tr_getDone( tr_torrent_t * tor )
{
return tr_didStateChangeTo( tor, TR_CP_DONE );
}
int tr_getComplete( tr_torrent_t * tor )
{
return tr_didStateChangeTo( tor, TR_CP_COMPLETE );
}
void
tr_manualUpdate( tr_torrent_t * tor )
{
if( tor->runStatus == TR_RUN_RUNNING )
tr_trackerManualAnnounce( tor->tracker );
}
int
tr_torrentCanManualUpdate( const tr_torrent_t * tor )
{
return ( tor != NULL )
&& ( tor->runStatus == TR_RUN_RUNNING )
&& ( tr_trackerCanManualAnnounce( tor->tracker ) );
}
const tr_stat_t *
tr_torrentStat( tr_torrent_t * tor )
{
tr_stat_t * s;
tr_tracker_t * tc;
int i;
tr_torrentReaderLock( tor );
tor->statCur = ( tor->statCur + 1 ) % 2;
s = &tor->stats[tor->statCur];
s->error = tor->error;
memcpy( s->errorString, tor->errorString,
sizeof( s->errorString ) );
tc = tor->tracker;
s->cannotConnect = tr_trackerCannotConnect( tc );
s->tracker = tc
? tr_trackerGet( tc )
: &tor->info.trackerList[0].list[0];
/* peers... */
memset( s->peersFrom, 0, sizeof( s->peersFrom ) );
s->peersTotal = tor->peerCount;
s->peersConnected = 0;
s->peersSendingToUs = 0;
s->peersGettingFromUs = 0;
for( i=0; i<tor->peerCount; ++i )
{
const tr_peer_t * peer = tor->peers[i];
if( tr_peerIsConnected( peer ) )
{
++s->peersConnected;
++s->peersFrom[tr_peerIsFrom(peer)];
if( tr_peerDownloadRate( peer ) > 0.01 )
++s->peersSendingToUs;
if( tr_peerUploadRate( peer ) > 0.01 )
++s->peersGettingFromUs;
}
}
s->percentComplete = tr_cpPercentComplete ( tor->completion );
s->percentDone = tr_cpPercentDone( tor->completion );
s->left = tr_cpLeftUntilDone( tor->completion );
if( tor->uncheckedPieces )
s->status = tor->runStatus==TR_RUN_CHECKING
? TR_STATUS_CHECK
: TR_STATUS_CHECK_WAIT;
else switch( tor->runStatus ) {
case TR_RUN_STOPPING: /* fallthrough */
case TR_RUN_STOPPING_NET_WAIT: s->status = TR_STATUS_STOPPING; break;
case TR_RUN_STOPPED: s->status = TR_STATUS_STOPPED; break;
case TR_RUN_CHECKING: s->status = TR_STATUS_CHECK; break;
case TR_RUN_RUNNING: switch( tor->cpStatus ) {
case TR_CP_INCOMPLETE: s->status = TR_STATUS_DOWNLOAD; break;
case TR_CP_DONE: s->status = TR_STATUS_DONE; break;
case TR_CP_COMPLETE: s->status = TR_STATUS_SEED; break;
}
}
s->recheckProgress = (tor->uncheckedPieces == NULL)
? 0.0
: 1.0 - ((double)tr_bitfieldCountTrueBits(tor->uncheckedPieces) / tor->info.pieceCount);
s->cpStatus = tor->cpStatus;
/* tr_rcRate() doesn't make the difference between 'piece'
messages and other messages, which causes a non-zero
download rate even tough we are not downloading. So we
force it to zero not to confuse the user. */
s->rateDownload = tor->runStatus==TR_RUN_RUNNING
? tr_rcRate( tor->download )
: 0.0;
s->rateUpload = tr_rcRate( tor->upload );
s->seeders = tr_trackerSeeders( tc );
s->leechers = tr_trackerLeechers( tc );
s->completedFromTracker = tr_trackerDownloaded( tc );
s->swarmspeed = tr_rcRate( tor->swarmspeed );
s->startDate = tor->startDate;
s->activityDate = tor->activityDate;
s->eta = s->rateDownload < 0.1
? -1.0f
: (s->left / s->rateDownload / 1024.0);
s->uploaded = tor->uploadedCur + tor->uploadedPrev;
s->downloaded = tor->downloadedCur + tor->downloadedPrev;
s->downloadedValid = tr_cpDownloadedValid( tor->completion );
s->ratio = s->downloaded || s->downloadedValid
? (float)s->uploaded / (float)MAX(s->downloaded, s->downloadedValid)
: TR_RATIO_NA;
tr_torrentReaderUnlock( tor );
return s;
}
/***
****
***/
static uint64_t
fileBytesCompleted ( const tr_torrent_t * tor, int fileIndex )
{
const tr_file_t * file = &tor->info.files[fileIndex];
const uint64_t firstBlock = file->offset / tor->blockSize;
const uint64_t firstBlockOffset = file->offset % tor->blockSize;
const uint64_t lastOffset = file->length ? (file->length-1) : 0;
const uint64_t lastBlock = (file->offset + lastOffset) / tor->blockSize;
const uint64_t lastBlockOffset = (file->offset + lastOffset) % tor->blockSize;
uint64_t haveBytes = 0;
assert( tor != NULL );
assert( 0<=fileIndex && fileIndex<tor->info.fileCount );
assert( file->offset + file->length <= tor->info.totalSize );
assert( (int)firstBlock < tor->blockCount );
assert( (int)lastBlock < tor->blockCount );
assert( firstBlock <= lastBlock );
assert( (int)tr_torBlockPiece( tor, firstBlock ) == file->firstPiece );
assert( (int)tr_torBlockPiece( tor, lastBlock ) == file->lastPiece );
if( firstBlock == lastBlock )
{
if( tr_cpBlockIsComplete( tor->completion, firstBlock ) )
haveBytes += lastBlockOffset + 1 - firstBlockOffset;
}
else
{
uint64_t i;
if( tr_cpBlockIsComplete( tor->completion, firstBlock ) )
haveBytes += tor->blockSize - firstBlockOffset;
for( i=firstBlock+1; i<lastBlock; ++i )
if( tr_cpBlockIsComplete( tor->completion, i ) )
haveBytes += tor->blockSize;
if( tr_cpBlockIsComplete( tor->completion, lastBlock ) )
haveBytes += lastBlockOffset + 1;
}
return haveBytes;
}
tr_file_stat_t *
tr_torrentFiles( const tr_torrent_t * tor, int * fileCount )
{
int i;
const int n = tor->info.fileCount;
tr_file_stat_t * files = tr_new0( tr_file_stat_t, n );
tr_file_stat_t * walk = files;
for( i=0; i<n; ++i, ++walk )
{
const tr_file_t * file = tor->info.files + i;
cp_status_t cp;
walk->bytesCompleted = fileBytesCompleted( tor, i );
walk->progress = file->length
? walk->bytesCompleted / (float)file->length
: 1.0;
if( walk->bytesCompleted >= file->length )
cp = TR_CP_COMPLETE;
else if( tor->info.files[i].dnd )
cp = TR_CP_DONE;
else
cp = TR_CP_INCOMPLETE;
walk->completionStatus = cp;
}
*fileCount = n;
return files;
}
void
tr_torrentFilesFree( tr_file_stat_t * files, int fileCount UNUSED )
{
tr_free( files );
}
/***
****
***/
tr_peer_stat_t *
tr_torrentPeers( const tr_torrent_t * tor, int * peerCount )
{
tr_peer_stat_t * peers;
tr_torrentReaderLock( tor );
*peerCount = tor->peerCount;
peers = tr_new0( tr_peer_stat_t, tor->peerCount );
if (peers != NULL)
{
tr_peer_t * peer;
struct in_addr * addr;
int i;
for( i=0; i<tor->peerCount; ++i )
{
peer = tor->peers[i];
addr = tr_peerAddress( peer );
if( NULL != addr )
{
tr_netNtop( addr, peers[i].addr,
sizeof( peers[i].addr ) );
}
peers[i].client = tr_peerClient( peer );
peers[i].isConnected = tr_peerIsConnected( peer );
peers[i].from = tr_peerIsFrom( peer );
peers[i].progress = tr_peerProgress( peer );
peers[i].port = tr_peerPort( peer );
peers[i].uploadToRate = tr_peerUploadRate( peer );
peers[i].downloadFromRate = tr_peerDownloadRate( peer );
peers[i].isDownloading = peers[i].uploadToRate > 0.01;
peers[i].isUploading = peers[i].downloadFromRate > 0.01;
}
}
tr_torrentReaderUnlock( tor );
return peers;
}
void tr_torrentPeersFree( tr_peer_stat_t * peers, int peerCount UNUSED )
{
tr_free( peers );
}
void tr_torrentAvailability( const tr_torrent_t * tor, int8_t * tab, int size )
{
int i, j, piece;
float interval;
tr_torrentReaderLock( tor );
interval = (float)tor->info.pieceCount / (float)size;
for( i = 0; i < size; i++ )
{
piece = i * interval;
if( tr_cpPieceIsComplete( tor->completion, piece ) )
{
tab[i] = -1;
continue;
}
tab[i] = 0;
for( j = 0; j < tor->peerCount; j++ )
{
if( tr_peerHasPiece( tor->peers[j], piece ) )
{
(tab[i])++;
}
}
}
tr_torrentReaderUnlock( tor );
}
void tr_torrentAmountFinished( const tr_torrent_t * tor, float * tab, int size )
{
int i;
float interval;
tr_torrentReaderLock( tor );
interval = (float)tor->info.pieceCount / (float)size;
for( i = 0; i < size; i++ )
{
int piece = i * interval;
tab[i] = tr_cpPercentBlocksInPiece( tor->completion, piece );
}
tr_torrentReaderUnlock( tor );
}
void
tr_torrentResetTransferStats( tr_torrent_t * tor )
{
tr_torrentWriterLock( tor );
tor->downloadedPrev += tor->downloadedCur;
tor->downloadedCur = 0;
tor->uploadedPrev += tor->uploadedCur;
tor->uploadedCur = 0;
tr_torrentWriterUnlock( tor );
}
void
tr_torrentSetHasPiece( tr_torrent_t * tor, int pieceIndex, int has )
{
tr_torrentWriterLock( tor );
if( has )
tr_cpPieceAdd( tor->completion, pieceIndex );
else
tr_cpPieceRem( tor->completion, pieceIndex );
tr_torrentWriterUnlock( tor );
}
void tr_torrentRemoveSaved( tr_torrent_t * tor )
{
tr_metainfoRemoveSaved( tor->info.hashString, tor->handle->tag );
}
void tr_torrentRecheck( tr_torrent_t * tor )
{
if( !tor->uncheckedPieces )
tor->uncheckedPieces = tr_bitfieldNew( tor->info.pieceCount );
tr_bitfieldAddRange( tor->uncheckedPieces, 0, tor->info.pieceCount );
}
int tr_torrentAttachPeer( tr_torrent_t * tor, tr_peer_t * peer )
{
int i;
tr_peer_t * otherPeer;
assert( tor != NULL );
assert( peer != NULL );
if( tor->peerCount >= TR_MAX_PEER_COUNT )
{
tr_peerDestroy( peer );
return 0;
}
/* Don't accept two connections from the same IP */
for( i = 0; i < tor->peerCount; i++ )
{
otherPeer = tor->peers[i];
if( !memcmp( tr_peerAddress( peer ), tr_peerAddress( otherPeer ), 4 ) )
{
tr_peerDestroy( peer );
return 0;
}
}
tr_peerSetPrivate( peer, tor->info.flags & TR_FLAG_PRIVATE ||
tor->pexDisabled );
tr_peerSetTorrent( peer, tor );
tor->peers[tor->peerCount++] = peer;
return 1;
}
int tr_torrentAddCompact( tr_torrent_t * tor, int from,
uint8_t * buf, int count )
{
struct in_addr addr;
tr_port_t port;
int i, added;
tr_peer_t * peer;
added = 0;
for( i = 0; i < count; i++ )
{
memcpy( &addr, buf, 4 ); buf += 4;
memcpy( &port, buf, 2 ); buf += 2;
peer = tr_peerInit( &addr, port, -1, from );
added += tr_torrentAttachPeer( tor, peer );
}
return added;
}
/***
****
***/
static void setRunState( tr_torrent_t * tor, run_status_t run )
{
tr_torrentWriterLock( tor );
tor->runStatus = run;
tr_torrentWriterUnlock( tor );
}
void tr_torrentStart( tr_torrent_t * tor )
{
setRunState( tor, TR_RUN_RUNNING );
}
void tr_torrentStop( tr_torrent_t * tor )
{
if((tor->runStatus != TR_RUN_STOPPING) && (tor->runStatus != TR_RUN_STOPPED) )
setRunState( tor, TR_RUN_STOPPING );
}
void tr_torrentClose( tr_torrent_t * tor )
{
tr_torrentStop( tor );
tor->dieFlag = TRUE;
}
static void
tr_torrentFree( tr_torrent_t * tor )
{
tr_torrent_t * t;
tr_handle_t * h = tor->handle;
tr_info_t * inf = &tor->info;
tr_sharedLock( h->shared );
tr_rwFree( tor->lock );
tr_cpClose( tor->completion );
tr_rcClose( tor->upload );
tr_rcClose( tor->download );
tr_rcClose( tor->swarmspeed );
tr_free( tor->destination );
tr_metainfoFree( inf );
if( tor == h->torrentList )
h->torrentList = tor->next;
else for( t=h->torrentList; t!=NULL; t=t->next ) {
if( t->next == tor ) {
t->next = tor->next;
break;
}
}
h->torrentCount--;
tr_inf( "closing torrent %s... %d torrents left",
tor->info.name, h->torrentCount );
tr_free( tor );
tr_sharedUnlock( h->shared );
}
static void
recheckCpState( tr_torrent_t * tor )
{
cp_status_t cpStatus;
tr_torrentWriterLock( tor );
cpStatus = tr_cpGetStatus( tor->completion );
if( cpStatus != tor->cpStatus ) {
tor->cpStatus = cpStatus;
tor->hasChangedState = tor->cpStatus; /* tell the client... */
if( (cpStatus == TR_CP_COMPLETE) /* ...and if we're complete */
&& tor->tracker!=NULL /* and we have a tracker */
&& tor->downloadedCur ) { /* and it just happened */
tr_trackerCompleted( tor->tracker ); /* tell the tracker */
}
tr_ioSync( tor->io );
fastResumeSave( tor );
}
tr_torrentWriterUnlock( tor );
}
static void
torrentThreadLoop ( void * _tor )
{
static tr_lock_t * checkFilesLock = NULL;
tr_torrent_t * tor = _tor;
/* create the check-files mutex */
if( !checkFilesLock )
checkFilesLock = tr_lockNew( );
/* loop until the torrent is being deleted */
while( ! ( tor->dieFlag && (tor->runStatus == TR_RUN_STOPPED) ) )
{
/* sleep a little while */
tr_wait( tor->runStatus == TR_RUN_STOPPED ? 1600 : 600 );
if( tor->fastResumeDirty )
{
fastResumeSave( tor );
recheckCpState( tor );
}
/* if we're stopping... */
if( tor->runStatus == TR_RUN_STOPPING )
{
int i;
int peerCount;
uint8_t * peerCompact;
tr_torrentWriterLock( tor );
/* close the IO */
tr_ioClose( tor->io );
tor->io = NULL;
fastResumeSave( tor );
/* close the peers */
for( i=0; i<tor->peerCount; ++i )
tr_peerDestroy( tor->peers[i] );
tor->peerCount = 0;
/* resest the transfer rates */
tr_rcReset( tor->download );
tr_rcReset( tor->upload );
tr_rcReset( tor->swarmspeed );
/* tell the tracker we're stopping */
tr_trackerStopped( tor->tracker );
tr_trackerPulse( tor->tracker, &peerCount, &peerCompact );
tor->runStatus = TR_RUN_STOPPING_NET_WAIT;
tor->stopDate = tr_date();
tr_torrentWriterUnlock( tor );
}
if( tor->runStatus == TR_RUN_STOPPING_NET_WAIT )
{
uint64_t date;
int peerCount;
uint8_t * peerCompact;
tr_trackerPulse( tor->tracker, &peerCount, &peerCompact );
/* have we finished telling the tracker that we're stopping? */
date = tr_trackerLastResponseDate( tor->tracker );
if( date > tor->stopDate )
{
tr_torrentWriterLock( tor );
tr_trackerClose( tor->tracker );
tor->tracker = NULL;
tor->runStatus = TR_RUN_STOPPED;
tr_torrentWriterUnlock( tor );
}
continue;
}
/* do we need to check files? */
if( tor->uncheckedPieces )
{
if( !tr_lockTryLock( checkFilesLock ) )
{
run_status_t realStatus;
tr_torrentWriterLock( tor );
realStatus = tor->runStatus;
tor->runStatus = TR_RUN_CHECKING;
tr_torrentWriterUnlock( tor );
tr_ioCheckFiles( tor );
setRunState( tor, realStatus );
tr_torrentWriterLock( tor );
tor->cpStatus = tr_cpGetStatus( tor->completion );
tr_torrentWriterUnlock( tor );
tr_lockUnlock( checkFilesLock );
}
continue;
}
/* if we're paused or stopped, not much to do... */
if( tor->runStatus == TR_RUN_STOPPED )
continue;
/* ping our peers if we're running... */
if( tor->runStatus == TR_RUN_RUNNING )
{
int i;
int peerCount;
uint8_t * peerCompact;
/* starting to run... */
if( tor->io == NULL ) {
*tor->errorString = '\0';
tr_torrentResetTransferStats( tor );
tor->io = tr_ioNew( tor );
tr_peerIdNew ( tor->peer_id, sizeof(tor->peer_id) );
tor->tracker = tr_trackerInit( tor );
tor->startDate = tr_date();
}
/* refresh our completion state */
recheckCpState( tor );
/* ping the tracker... */
tr_trackerPulse( tor->tracker, &peerCount, &peerCompact );
if( peerCount > 0 ) {
int used = tr_torrentAddCompact( tor, TR_PEER_FROM_TRACKER,
peerCompact, peerCount );
tr_dbg( "got %i peers from announce, used %i", peerCount, used );
free( peerCompact );
}
/* Shuffle peers */
if ( tor->peerCount > 1 ) {
tr_peer_t * tmp = tor->peers[0];
memmove( tor->peers, tor->peers+1,
(tor->peerCount-1) * sizeof(void*) );
tor->peers[tor->peerCount - 1] = tmp;
}
/* receive/send messages */
tr_torrentWriterLock( tor );
for( i=0; i<tor->peerCount; ) {
tr_peer_t * peer = tor->peers[i];
int ret = tr_peerPulse( peer );
if( ret & TR_ERROR_IO_MASK ) {
tr_err( "Fatal error, stopping download (%d)", ret );
tor->runStatus = TR_RUN_STOPPING;
tor->error = ret;
strlcpy( tor->errorString,
tr_errorString(ret),
sizeof(tor->errorString) );
break;
}
if( ret ) {
tr_peerDestroy( peer );
tor->peerCount--;
memmove( &tor->peers[i], &tor->peers[i+1],
(tor->peerCount-i)*sizeof(void*) );
continue;
}
i++;
}
tr_torrentWriterUnlock( tor );
}
}
tr_ioClose( tor->io );
tr_torrentFree( tor );
}
/**
*** File priorities
**/
void
tr_torrentSetFilePriority( tr_torrent_t * tor,
int fileIndex,
tr_priority_t priority )
{
int i;
tr_file_t * file;
tr_torrentWriterLock( tor );
assert( tor != NULL );
assert( 0<=fileIndex && fileIndex<tor->info.fileCount );
assert( priority==TR_PRI_LOW || priority==TR_PRI_NORMAL || priority==TR_PRI_HIGH );
file = &tor->info.files[fileIndex];
file->priority = priority;
for( i=file->firstPiece; i<=file->lastPiece; ++i )
tor->info.pieces[i].priority = calculatePiecePriority( tor, i );
tr_dbg ( "Setting file #%d (pieces %d-%d) priority to %d (%s)",
fileIndex, file->firstPiece, file->lastPiece,
priority, tor->info.files[fileIndex].name );
tor->fastResumeDirty = TRUE;
tr_torrentWriterUnlock( tor );
}
void
tr_torrentSetFilePriorities( tr_torrent_t * tor,
int * files,
int fileCount,
tr_priority_t priority )
{
int i;
for( i=0; i<fileCount; ++i )
tr_torrentSetFilePriority( tor, files[i], priority );
}
tr_priority_t
tr_torrentGetFilePriority( const tr_torrent_t * tor, int file )
{
tr_priority_t ret;
tr_torrentReaderLock( tor );
assert( tor != NULL );
assert( 0<=file && file<tor->info.fileCount );
ret = tor->info.files[file].priority;
tr_torrentReaderUnlock( tor );
return ret;
}
tr_priority_t*
tr_torrentGetFilePriorities( const tr_torrent_t * tor )
{
int i;
tr_priority_t * p;
tr_torrentReaderLock( tor );
p = tr_new0( tr_priority_t, tor->info.fileCount );
for( i=0; i<tor->info.fileCount; ++i )
p[i] = tor->info.files[i].priority;
tr_torrentReaderUnlock( tor );
return p;
}
/**
*** File DND
**/
int
tr_torrentGetFileDL( const tr_torrent_t * tor,
int file )
{
int doDownload;
tr_torrentReaderLock( tor );
assert( 0<=file && file<tor->info.fileCount );
doDownload = !tor->info.files[file].dnd;
tr_torrentReaderUnlock( tor );
return doDownload != 0;
}
void
tr_torrentSetFileDL( tr_torrent_t * tor,
int fileIndex,
int doDownload )
{
tr_file_t * file;
const int dnd = !doDownload;
int firstPiece, firstPieceDND;
int lastPiece, lastPieceDND;
int i;
tr_torrentWriterLock( tor );
file = &tor->info.files[fileIndex];
file->dnd = dnd;
firstPiece = file->firstPiece;
lastPiece = file->lastPiece;
/* can't set the first piece to DND unless
every file using that piece is DND */
firstPieceDND = dnd;
for( i=fileIndex-1; firstPieceDND && i>=0; --i ) {
if( tor->info.files[i].lastPiece != firstPiece )
break;
firstPieceDND = tor->info.files[i].dnd;
}
/* can't set the last piece to DND unless
every file using that piece is DND */
lastPieceDND = dnd;
for( i=fileIndex+1; lastPieceDND && i<tor->info.fileCount; ++i ) {
if( tor->info.files[i].firstPiece != lastPiece )
break;
lastPieceDND = tor->info.files[i].dnd;
}
if( firstPiece == lastPiece )
{
tor->info.pieces[firstPiece].dnd = firstPieceDND && lastPieceDND;
}
else
{
tor->info.pieces[firstPiece].dnd = firstPieceDND;
tor->info.pieces[lastPiece].dnd = lastPieceDND;
for( i=firstPiece+1; i<lastPiece; ++i )
tor->info.pieces[i].dnd = dnd;
}
tr_cpInvalidateDND ( tor->completion );
tor->fastResumeDirty = TRUE;
tr_torrentWriterUnlock( tor );
}
void
tr_torrentSetFileDLs ( tr_torrent_t * tor,
int * files,
int fileCount,
int doDownload )
{
int i;
for( i=0; i<fileCount; ++i )
tr_torrentSetFileDL( tor, files[i], doDownload );
}
/***
****
***/
int _tr_block( const tr_torrent_t * tor, int index, int begin )
{
const tr_info_t * inf = &tor->info;
return index * ( inf->pieceSize / tor->blockSize ) +
begin / tor->blockSize;
}