transmission/libtransmission/makemeta.c

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/*
* This file Copyright (C) Mnemosyne LLC
*
* This file is licensed by the GPL version 2. Works owned by the
* Transmission project are granted a special exemption to clause 2 (b)
* so that the bulk of its code can remain under the MIT license.
* This exemption does not extend to derived works not owned by
* the Transmission project.
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*
* $Id$
*/
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#include <assert.h>
#include <errno.h>
#include <stdio.h> /* FILE, stderr */
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#include <stdlib.h> /* qsort */
#include <string.h> /* strcmp, strlen */
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h> /* read () */
#include <dirent.h>
#include <event2/util.h> /* evutil_ascii_strcasecmp () */
#include "transmission.h"
#include "crypto.h" /* tr_sha1 */
#include "fdlimit.h" /* tr_open_file_for_scanning () */
#include "session.h"
#include "makemeta.h"
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#include "platform.h" /* threads, locks */
#include "utils.h" /* buildpath */
#include "variant.h"
#include "version.h"
/****
*****
****/
struct FileList
{
struct FileList * next;
uint64_t size;
char * filename;
};
static struct FileList*
getFiles (const char * dir,
const char * base,
struct FileList * list)
{
int i;
char * buf;
struct stat sb;
DIR * odir = NULL;
sb.st_size = 0;
buf = tr_buildPath (dir, base, NULL);
i = stat (buf, &sb);
if (i)
{
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tr_err (_("Torrent Creator is skipping file \"%s\": %s"),
buf, tr_strerror (errno));
tr_free (buf);
return list;
}
if (S_ISDIR (sb.st_mode) && ((odir = opendir (buf))))
{
struct dirent *d;
for (d = readdir (odir); d != NULL; d = readdir (odir))
if (d->d_name && d->d_name[0] != '.') /* skip dotfiles */
list = getFiles (buf, d->d_name, list);
closedir (odir);
}
else if (S_ISREG (sb.st_mode) && (sb.st_size > 0))
{
struct FileList * node = tr_new (struct FileList, 1);
node->size = sb.st_size;
node->filename = tr_strdup (buf);
node->next = list;
list = node;
}
tr_free (buf);
return list;
}
static uint32_t
bestPieceSize (uint64_t totalSize)
{
const uint32_t KiB = 1024;
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const uint32_t MiB = 1048576;
const uint32_t GiB = 1073741824;
if (totalSize >= (2 * GiB)) return 2 * MiB;
if (totalSize >= (1 * GiB)) return 1 * MiB;
if (totalSize >= (512 * MiB)) return 512 * KiB;
if (totalSize >= (350 * MiB)) return 256 * KiB;
if (totalSize >= (150 * MiB)) return 128 * KiB;
if (totalSize >= (50 * MiB)) return 64 * KiB;
return 32 * KiB; /* less than 50 meg */
}
static int
builderFileCompare (const void * va, const void * vb)
{
const tr_metainfo_builder_file * a = va;
const tr_metainfo_builder_file * b = vb;
return evutil_ascii_strcasecmp (a->filename, b->filename);
}
tr_metainfo_builder*
tr_metaInfoBuilderCreate (const char * topFileArg)
{
int i;
struct FileList * files;
struct FileList * walk;
char topFile[TR_PATH_MAX];
tr_metainfo_builder * ret = tr_new0 (tr_metainfo_builder, 1);
tr_realpath (topFileArg, topFile);
ret->top = tr_strdup (topFile);
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{
struct stat sb;
stat (topFile, &sb);
ret->isSingleFile = !S_ISDIR (sb.st_mode);
}
/* build a list of files containing topFile and,
if it's a directory, all of its children */
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{
char * dir = tr_dirname (topFile);
char * base = tr_basename (topFile);
files = getFiles (dir, base, NULL);
tr_free (base);
tr_free (dir);
}
for (walk = files; walk != NULL; walk = walk->next)
++ret->fileCount;
ret->files = tr_new0 (tr_metainfo_builder_file, ret->fileCount);
for (i = 0, walk = files; walk != NULL; ++i)
{
struct FileList * tmp = walk;
tr_metainfo_builder_file * file = &ret->files[i];
walk = walk->next;
file->filename = tmp->filename;
file->size = tmp->size;
ret->totalSize += tmp->size;
tr_free (tmp);
}
qsort (ret->files,
ret->fileCount,
sizeof (tr_metainfo_builder_file),
builderFileCompare);
ret->pieceSize = bestPieceSize (ret->totalSize);
ret->pieceCount = (int)(ret->totalSize / ret->pieceSize);
if (ret->totalSize % ret->pieceSize)
++ret->pieceCount;
return ret;
}
void
tr_metaInfoBuilderFree (tr_metainfo_builder * builder)
{
if (builder)
{
tr_file_index_t t;
int i;
for (t = 0; t < builder->fileCount; ++t)
tr_free (builder->files[t].filename);
tr_free (builder->files);
tr_free (builder->top);
tr_free (builder->comment);
for (i = 0; i < builder->trackerCount; ++i)
tr_free (builder->trackers[i].announce);
tr_free (builder->trackers);
tr_free (builder->outputFile);
tr_free (builder);
}
}
/****
*****
****/
static uint8_t*
getHashInfo (tr_metainfo_builder * b)
{
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uint32_t fileIndex = 0;
uint8_t *ret = tr_new0 (uint8_t, SHA_DIGEST_LENGTH * b->pieceCount);
uint8_t *walk = ret;
uint8_t *buf;
uint64_t totalRemain;
uint64_t off = 0;
int fd;
if (!b->totalSize)
return ret;
buf = tr_valloc (b->pieceSize);
b->pieceIndex = 0;
totalRemain = b->totalSize;
fd = tr_open_file_for_scanning (b->files[fileIndex].filename);
if (fd < 0)
{
b->my_errno = errno;
tr_strlcpy (b->errfile,
b->files[fileIndex].filename,
sizeof (b->errfile));
b->result = TR_MAKEMETA_IO_READ;
tr_free (buf);
tr_free (ret);
return NULL;
}
while (totalRemain)
{
uint8_t * bufptr = buf;
const uint32_t thisPieceSize = (uint32_t) MIN (b->pieceSize, totalRemain);
uint32_t leftInPiece = thisPieceSize;
assert (b->pieceIndex < b->pieceCount);
while (leftInPiece)
{
const size_t n_this_pass = (size_t) MIN ((b->files[fileIndex].size - off), leftInPiece);
const ssize_t n_read = read (fd, bufptr, n_this_pass);
bufptr += n_read;
off += n_read;
leftInPiece -= n_read;
if (off == b->files[fileIndex].size)
{
off = 0;
tr_close_file (fd);
fd = -1;
if (++fileIndex < b->fileCount)
{
fd = tr_open_file_for_scanning (b->files[fileIndex].filename);
if (fd < 0)
{
b->my_errno = errno;
tr_strlcpy (b->errfile,
b->files[fileIndex].filename,
sizeof (b->errfile));
b->result = TR_MAKEMETA_IO_READ;
tr_free (buf);
tr_free (ret);
return NULL;
}
}
}
}
assert (bufptr - buf == (int)thisPieceSize);
assert (leftInPiece == 0);
tr_sha1 (walk, buf, thisPieceSize, NULL);
walk += SHA_DIGEST_LENGTH;
if (b->abortFlag)
{
b->result = TR_MAKEMETA_CANCELLED;
break;
}
totalRemain -= thisPieceSize;
++b->pieceIndex;
}
assert (b->abortFlag
|| (walk - ret == (int)(SHA_DIGEST_LENGTH * b->pieceCount)));
assert (b->abortFlag || !totalRemain);
if (fd >= 0)
tr_close_file (fd);
tr_free (buf);
return ret;
}
static void
getFileInfo (const char * topFile,
const tr_metainfo_builder_file * file,
tr_variant * uninitialized_length,
tr_variant * uninitialized_path)
{
size_t offset;
/* get the file size */
tr_variantInitInt (uninitialized_length, file->size);
/* how much of file->filename to walk past */
offset = strlen (topFile);
if (offset>0 && topFile[offset-1]!=TR_PATH_DELIMITER)
++offset; /* +1 for the path delimiter */
/* build the path list */
tr_variantInitList (uninitialized_path, 0);
if (strlen (file->filename) > offset) {
char * filename = tr_strdup (file->filename + offset);
char * walk = filename;
const char * token;
while ((token = tr_strsep (&walk, TR_PATH_DELIMITER_STR)))
tr_variantListAddStr (uninitialized_path, token);
tr_free (filename);
}
}
static void
makeInfoDict (tr_variant * dict,
tr_metainfo_builder * builder)
{
uint8_t * pch;
char * base;
tr_variantDictReserve (dict, 5);
if (builder->isSingleFile)
{
tr_variantDictAddInt (dict, TR_KEY_length, builder->files[0].size);
}
else /* root node is a directory */
{
uint32_t i;
tr_variant * list = tr_variantDictAddList (dict, TR_KEY_files,
builder->fileCount);
for (i = 0; i < builder->fileCount; ++i)
{
tr_variant * d = tr_variantListAddDict (list, 2);
tr_variant * length = tr_variantDictAdd (d, TR_KEY_length);
tr_variant * pathVal = tr_variantDictAdd (d, TR_KEY_path);
getFileInfo (builder->top, &builder->files[i], length, pathVal);
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}
}
base = tr_basename (builder->top);
tr_variantDictAddStr (dict, TR_KEY_name, base);
tr_free (base);
tr_variantDictAddInt (dict, TR_KEY_piece_length, builder->pieceSize);
if ((pch = getHashInfo (builder)))
{
tr_variantDictAddRaw (dict, TR_KEY_pieces, pch,
SHA_DIGEST_LENGTH * builder->pieceCount);
tr_free (pch);
}
tr_variantDictAddInt (dict, TR_KEY_private, builder->isPrivate ? 1 : 0);
}
static void
tr_realMakeMetaInfo (tr_metainfo_builder * builder)
{
int i;
tr_variant top;
/* allow an empty set, but if URLs *are* listed, verify them. #814, #971 */
for (i = 0; i < builder->trackerCount && !builder->result; ++i) {
if (!tr_urlIsValidTracker (builder->trackers[i].announce)) {
tr_strlcpy (builder->errfile, builder->trackers[i].announce,
sizeof (builder->errfile));
builder->result = TR_MAKEMETA_URL;
}
}
tr_variantInitDict (&top, 6);
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if (!builder->fileCount || !builder->totalSize ||
!builder->pieceSize || !builder->pieceCount)
{
builder->errfile[0] = '\0';
builder->my_errno = ENOENT;
builder->result = TR_MAKEMETA_IO_READ;
builder->isDone = true;
}
if (!builder->result && builder->trackerCount)
{
int prevTier = -1;
tr_variant * tier = NULL;
if (builder->trackerCount > 1)
{
tr_variant * annList = tr_variantDictAddList (&top, TR_KEY_announce_list, 0);
for (i = 0; i < builder->trackerCount; ++i)
{
if (prevTier != builder->trackers[i].tier)
{
prevTier = builder->trackers[i].tier;
tier = tr_variantListAddList (annList, 0);
}
tr_variantListAddStr (tier, builder->trackers[i].announce);
}
}
tr_variantDictAddStr (&top, TR_KEY_announce, builder->trackers[0].announce);
}
if (!builder->result && !builder->abortFlag)
{
if (builder->comment && *builder->comment)
tr_variantDictAddStr (&top, TR_KEY_comment, builder->comment);
tr_variantDictAddStr (&top, TR_KEY_created_by,
TR_NAME "/" LONG_VERSION_STRING);
tr_variantDictAddInt (&top, TR_KEY_creation_date, time (NULL));
tr_variantDictAddStr (&top, TR_KEY_encoding, "UTF-8");
makeInfoDict (tr_variantDictAddDict (&top, TR_KEY_info, 666), builder);
}
/* save the file */
if (!builder->result && !builder->abortFlag)
{
if (tr_variantToFile (&top, TR_VARIANT_FMT_BENC, builder->outputFile))
{
builder->my_errno = errno;
tr_strlcpy (builder->errfile, builder->outputFile,
sizeof (builder->errfile));
builder->result = TR_MAKEMETA_IO_WRITE;
}
}
/* cleanup */
tr_variantFree (&top);
if (builder->abortFlag)
builder->result = TR_MAKEMETA_CANCELLED;
builder->isDone = 1;
}
/***
****
**** A threaded builder queue
****
***/
static tr_metainfo_builder * queue = NULL;
static tr_thread * workerThread = NULL;
static tr_lock*
getQueueLock (void)
{
static tr_lock * lock = NULL;
if (!lock)
lock = tr_lockNew ();
return lock;
}
static void
makeMetaWorkerFunc (void * unused UNUSED)
{
for (;;)
{
tr_metainfo_builder * builder = NULL;
/* find the next builder to process */
tr_lock * lock = getQueueLock ();
tr_lockLock (lock);
if (queue)
{
builder = queue;
queue = queue->nextBuilder;
}
tr_lockUnlock (lock);
/* if no builders, this worker thread is done */
if (builder == NULL)
break;
tr_realMakeMetaInfo (builder);
}
workerThread = NULL;
}
void
tr_makeMetaInfo (tr_metainfo_builder * builder,
const char * outputFile,
const tr_tracker_info * trackers,
int trackerCount,
const char * comment,
int isPrivate)
{
int i;
tr_lock * lock;
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/* free any variables from a previous run */
for (i = 0; i < builder->trackerCount; ++i)
tr_free (builder->trackers[i].announce);
tr_free (builder->trackers);
tr_free (builder->comment);
tr_free (builder->outputFile);
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/* initialize the builder variables */
builder->abortFlag = 0;
builder->result = 0;
builder->isDone = 0;
builder->pieceIndex = 0;
builder->trackerCount = trackerCount;
builder->trackers = tr_new0 (tr_tracker_info, builder->trackerCount);
for (i = 0; i < builder->trackerCount; ++i) {
builder->trackers[i].tier = trackers[i].tier;
builder->trackers[i].announce = tr_strdup (trackers[i].announce);
}
builder->comment = tr_strdup (comment);
builder->isPrivate = isPrivate;
if (outputFile && *outputFile)
builder->outputFile = tr_strdup (outputFile);
else
builder->outputFile = tr_strdup_printf ("%s.torrent", builder->top);
/* enqueue the builder */
lock = getQueueLock ();
tr_lockLock (lock);
builder->nextBuilder = queue;
queue = builder;
if (!workerThread)
workerThread = tr_threadNew (makeMetaWorkerFunc, NULL);
tr_lockUnlock (lock);
}