transmission/libtransmission/ipcparse.c

1327 lines
40 KiB
C

/******************************************************************************
* $Id$
*
* Copyright (c) 2007 Joshua Elsasser
*
* 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 <errno.h>
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "transmission.h"
#include "ipcparse.h"
#include "bsdtree.h"
/* begin copy-paste from daemon/misc.h */
#define ARRAYLEN( ary ) ( sizeof( ary ) / sizeof( (ary)[0] ) )
#ifndef MIN
#define MIN( aa, bb ) ( (aa) < (bb) ? (aa) : (bb) )
#endif
#ifndef MAX
#define MAX( aa, bb ) ( (aa) > (bb) ? (aa) : (bb) )
#endif
#undef NULL
#define NULL ( ( void * )0 )
#define SAFEFREE( ptr ) \
do \
{ \
int saved = errno; \
free( ptr ); \
errno = saved; \
} \
while( 0 )
#define SAFEFREESTRLIST( ptr ) \
do \
{ \
int saved = errno; \
FREESTRLIST( ptr ); \
errno = saved; \
} \
while( 0 )
#define SAFEBENCFREE( val ) \
do \
{ \
int saved = errno; \
tr_bencFree( val ); \
errno = saved; \
} \
while( 0 )
#define INTCMP_FUNC( name, type, id ) \
int \
name( struct type * _icf_first, struct type * _icf_second ) \
{ \
if( _icf_first->id < _icf_second->id ) \
{ \
return -1; \
} \
else if( _icf_first->id > _icf_second->id ) \
{ \
return 1; \
} \
else \
{ \
return 0; \
} \
}
/* end copy-paste from daemon/misc.h */
/* IPC protocol version */
#define PROTO_VERS_MIN ( 1 )
#define PROTO_VERS_MAX ( 2 )
#define MSGVALID( id ) ( IPC__MSG_COUNT > (id) )
#define MSGNAME( id ) ( gl_msgs[(id)].name )
#define DICTPAYLOAD( info ) ( 2 > (info)->vers )
struct msg
{
const char * name;
const int minvers;
const enum ipc_msg id;
RB_ENTRY( msg ) link;
};
struct inf
{
const char * name;
const int type;
RB_ENTRY( inf ) link;
};
struct msgfunc
{
int id;
trd_msgfunc func;
RB_ENTRY( msgfunc ) link;
};
RB_HEAD( msgtree, msg );
RB_HEAD( inftree, inf );
RB_HEAD( functree, msgfunc );
struct ipc_funcs
{
struct functree msgs;
trd_msgfunc def;
};
static struct msg gl_msgs[] =
{
{ "addfiles", 1, IPC_MSG_ADDMANYFILES, RB_ENTRY_INITIALIZER() },
{ "addfile-detailed", 2, IPC_MSG_ADDONEFILE, RB_ENTRY_INITIALIZER() },
{ "automap", 2, IPC_MSG_AUTOMAP, RB_ENTRY_INITIALIZER() },
{ "autostart", 2, IPC_MSG_AUTOSTART, RB_ENTRY_INITIALIZER() },
{ "bad-format", 2, IPC_MSG_BAD, RB_ENTRY_INITIALIZER() },
{ "directory", 2, IPC_MSG_DIR, RB_ENTRY_INITIALIZER() },
{ "downlimit", 2, IPC_MSG_DOWNLIMIT, RB_ENTRY_INITIALIZER() },
{ "failed", 2, IPC_MSG_FAIL, RB_ENTRY_INITIALIZER() },
{ "get-automap", 2, IPC_MSG_GETAUTOMAP, RB_ENTRY_INITIALIZER() },
{ "get-autostart", 2, IPC_MSG_GETAUTOSTART, RB_ENTRY_INITIALIZER() },
{ "get-directory", 2, IPC_MSG_GETDIR, RB_ENTRY_INITIALIZER() },
{ "get-downlimit", 2, IPC_MSG_GETDOWNLIMIT, RB_ENTRY_INITIALIZER() },
{ "get-info", 2, IPC_MSG_GETINFO, RB_ENTRY_INITIALIZER() },
{ "get-info-all", 2, IPC_MSG_GETINFOALL, RB_ENTRY_INITIALIZER() },
{ "get-pex", 2, IPC_MSG_GETPEX, RB_ENTRY_INITIALIZER() },
{ "get-port", 2, IPC_MSG_GETPORT, RB_ENTRY_INITIALIZER() },
{ "get-status", 2, IPC_MSG_GETSTAT, RB_ENTRY_INITIALIZER() },
{ "get-status-all", 2, IPC_MSG_GETSTATALL, RB_ENTRY_INITIALIZER() },
{ "get-supported", 2, IPC_MSG_GETSUP, RB_ENTRY_INITIALIZER() },
{ "get-uplimit", 2, IPC_MSG_GETUPLIMIT, RB_ENTRY_INITIALIZER() },
{ "lookup", 2, IPC_MSG_LOOKUP, RB_ENTRY_INITIALIZER() },
{ "info", 2, IPC_MSG_INFO, RB_ENTRY_INITIALIZER() },
{ "noop", 2, IPC_MSG_NOOP, RB_ENTRY_INITIALIZER() },
{ "not-supported", 2, IPC_MSG_NOTSUP, RB_ENTRY_INITIALIZER() },
{ "pex", 2, IPC_MSG_PEX, RB_ENTRY_INITIALIZER() },
{ "port", 2, IPC_MSG_PORT, RB_ENTRY_INITIALIZER() },
{ "quit", 1, IPC_MSG_QUIT, RB_ENTRY_INITIALIZER() },
{ "remove", 2, IPC_MSG_REMOVE, RB_ENTRY_INITIALIZER() },
{ "remove-all", 2, IPC_MSG_REMOVEALL, RB_ENTRY_INITIALIZER() },
{ "start", 2, IPC_MSG_START, RB_ENTRY_INITIALIZER() },
{ "start-all", 2, IPC_MSG_STARTALL, RB_ENTRY_INITIALIZER() },
{ "status", 2, IPC_MSG_STAT, RB_ENTRY_INITIALIZER() },
{ "stop", 2, IPC_MSG_STOP, RB_ENTRY_INITIALIZER() },
{ "stop-all", 2, IPC_MSG_STOPALL, RB_ENTRY_INITIALIZER() },
{ "succeeded", 2, IPC_MSG_OK, RB_ENTRY_INITIALIZER() },
{ "supported", 2, IPC_MSG_SUP, RB_ENTRY_INITIALIZER() },
{ "uplimit", 2, IPC_MSG_UPLIMIT, RB_ENTRY_INITIALIZER() },
{ "version", 1, IPC_MSG_VERSION, RB_ENTRY_INITIALIZER() },
};
static struct inf gl_inf[] =
{
{ "comment", IPC_INF_COMMENT, RB_ENTRY_INITIALIZER() },
{ "creator", IPC_INF_CREATOR, RB_ENTRY_INITIALIZER() },
{ "date", IPC_INF_DATE, RB_ENTRY_INITIALIZER() },
{ "files", IPC_INF_FILES, RB_ENTRY_INITIALIZER() },
{ "hash", IPC_INF_HASH, RB_ENTRY_INITIALIZER() },
{ "id", IPC_INF_ID, RB_ENTRY_INITIALIZER() },
{ "name", IPC_INF_NAME, RB_ENTRY_INITIALIZER() },
{ "path", IPC_INF_PATH, RB_ENTRY_INITIALIZER() },
{ "private", IPC_INF_PRIVATE, RB_ENTRY_INITIALIZER() },
{ "saved", IPC_INF_SAVED, RB_ENTRY_INITIALIZER() },
{ "size", IPC_INF_SIZE, RB_ENTRY_INITIALIZER() },
{ "trackers", IPC_INF_TRACKERS, RB_ENTRY_INITIALIZER() },
};
static struct inf gl_stat[] =
{
{ "completed", IPC_ST_COMPLETED, RB_ENTRY_INITIALIZER() },
{ "download-speed", IPC_ST_DOWNSPEED, RB_ENTRY_INITIALIZER() },
{ "download-total", IPC_ST_DOWNTOTAL, RB_ENTRY_INITIALIZER() },
{ "download-valid", IPC_ST_DOWNVALID, RB_ENTRY_INITIALIZER() },
{ "error", IPC_ST_ERROR, RB_ENTRY_INITIALIZER() },
{ "error-message", IPC_ST_ERRMSG, RB_ENTRY_INITIALIZER() },
{ "eta", IPC_ST_ETA, RB_ENTRY_INITIALIZER() },
{ "id", IPC_ST_ID, RB_ENTRY_INITIALIZER() },
{ "peers-downloading", IPC_ST_PEERDOWN, RB_ENTRY_INITIALIZER() },
{ "peers-from", IPC_ST_PEERFROM, RB_ENTRY_INITIALIZER() },
{ "peers-total", IPC_ST_PEERTOTAL, RB_ENTRY_INITIALIZER() },
{ "peers-uploading", IPC_ST_PEERUP, RB_ENTRY_INITIALIZER() },
{ "running", IPC_ST_RUNNING, RB_ENTRY_INITIALIZER() },
{ "state", IPC_ST_STATE, RB_ENTRY_INITIALIZER() },
{ "swarm-speed", IPC_ST_SWARM, RB_ENTRY_INITIALIZER() },
{ "tracker", IPC_ST_TRACKER, RB_ENTRY_INITIALIZER() },
{ "scrape-completed", IPC_ST_TKDONE, RB_ENTRY_INITIALIZER() },
{ "scrape-leechers", IPC_ST_TKLEECH, RB_ENTRY_INITIALIZER() },
{ "scrape-seeders", IPC_ST_TKSEED, RB_ENTRY_INITIALIZER() },
{ "upload-speed", IPC_ST_UPSPEED, RB_ENTRY_INITIALIZER() },
{ "upload-total", IPC_ST_UPTOTAL, RB_ENTRY_INITIALIZER() },
};
static int handlevers ( struct ipc_info *, benc_val_t * );
static int handlemsgs ( struct ipc_info *, benc_val_t *, void * );
static int gotmsg ( struct ipc_info *, benc_val_t *, benc_val_t *,
benc_val_t *, void * );
static int msgcmp ( struct msg *, struct msg * );
static int infcmp ( struct inf *, struct inf * );
static struct msg * msglookup ( const char * );
static int filltracker( benc_val_t *, const tr_tracker_info * );
static int handlercmp ( struct msgfunc *, struct msgfunc * );
RB_GENERATE_STATIC( msgtree, msg, link, msgcmp )
RB_GENERATE_STATIC( inftree, inf, link, infcmp )
RB_GENERATE_STATIC( functree, msgfunc, link, handlercmp )
INTCMP_FUNC( handlercmp, msgfunc, id )
struct ipc_funcs *
ipc_initmsgs( void )
{
struct ipc_funcs * tree;
tree = malloc( sizeof *tree );
if( NULL != tree )
{
RB_INIT( &tree->msgs );
tree->def = (trd_msgfunc) NULL;
}
return tree;
}
int
ipc_addmsg( struct ipc_funcs * tree, enum ipc_msg id, trd_msgfunc func )
{
struct msgfunc key, * entry;
assert( MSGVALID( id ) );
assert( IPC_MSG_VERSION != id );
memset( &key, 0, sizeof key );
key.id = id;
entry = RB_FIND( functree, &tree->msgs, &key );
assert( NULL == entry );
entry = calloc( 1, sizeof *entry );
if( NULL == entry )
{
return -1;
}
entry->id = id;
entry->func = func;
entry = RB_INSERT( functree, &tree->msgs, entry );
assert( NULL == entry );
return 0;
}
void
ipc_setdefmsg( struct ipc_funcs * tree, trd_msgfunc func )
{
tree->def = func;
}
void
ipc_freemsgs( struct ipc_funcs * tree )
{
struct msgfunc * ii, * next;
for( ii = RB_MIN( functree, &tree->msgs ); NULL != ii; ii = next )
{
next = RB_NEXT( functree, &tree->msgs, ii );
RB_REMOVE( functree, &tree->msgs, ii );
free( ii );
}
free( tree );
}
struct ipc_info *
ipc_newcon( struct ipc_funcs * funcs )
{
struct ipc_info * info;
info = calloc( 1, sizeof *info );
if( NULL != info )
{
info->funcs = funcs;
info->vers = -1;
}
return info;
}
void
ipc_freecon( struct ipc_info * info )
{
if( NULL != info )
{
free( info->label );
free( info );
}
}
benc_val_t *
ipc_initval( struct ipc_info * info, enum ipc_msg id, int64_t tag,
benc_val_t * pk, int type )
{
benc_val_t * ret;
assert( MSGVALID( id ) );
if( !ipc_havemsg( info, id ) || ( 0 < tag && !ipc_havetags( info ) ) )
{
errno = EPERM;
return NULL;
}
if( DICTPAYLOAD( info ) )
{
tr_bencInit( pk, TYPE_DICT );
if( tr_bencDictReserve( pk, 1 ) )
{
return NULL;
}
ret = tr_bencDictAdd( pk, MSGNAME( id ) );
}
else
{
tr_bencInit( pk, TYPE_LIST );
if( tr_bencListReserve( pk, ( 0 < tag ? 3 : 2 ) ) )
{
return NULL;
}
tr_bencInitStr( tr_bencListAdd( pk ), MSGNAME( id ), -1, 1 );
ret = tr_bencListAdd( pk );
if( 0 < tag )
{
tr_bencInitInt( tr_bencListAdd( pk ), tag );
}
}
tr_bencInit( ret, type );
return ret;
}
uint8_t *
ipc_mkval( benc_val_t * pk, size_t * len )
{
char * buf, hex[IPC_MIN_MSG_LEN+1];
int used, max;
used = IPC_MIN_MSG_LEN;
max = IPC_MIN_MSG_LEN;
buf = malloc( IPC_MIN_MSG_LEN );
if( NULL == buf )
{
return NULL;
}
if( tr_bencSave( pk, &buf, &used, &max ) )
{
SAFEFREE( buf );
return NULL;
}
/* ok, this check is pretty laughable */
if( IPC_MAX_MSG_LEN < used )
{
free( buf );
errno = EFBIG;
return NULL;
}
assert( 0 <= used );
snprintf( hex, sizeof hex, "%0*X",
IPC_MIN_MSG_LEN, used - IPC_MIN_MSG_LEN );
memcpy( buf, hex, IPC_MIN_MSG_LEN );
*len = used;
return ( uint8_t * )buf;
}
uint8_t *
ipc_mkempty( struct ipc_info * info, size_t * len, enum ipc_msg id,
int64_t tag )
{
benc_val_t pk;
uint8_t * ret;
if( NULL == ipc_initval( info, id, tag, &pk, TYPE_STR ) )
{
return NULL;
}
ret = ipc_mkval( &pk, len );
SAFEBENCFREE( &pk );
return ret;
}
uint8_t *
ipc_mkint( struct ipc_info * info, size_t * len, enum ipc_msg id, int64_t tag,
int64_t num )
{
benc_val_t pk, * val;
uint8_t * ret;
val = ipc_initval( info, id, tag, &pk, TYPE_INT );
if( NULL == val )
{
return NULL;
}
val->val.i = num;
ret = ipc_mkval( &pk, len );
SAFEBENCFREE( &pk );
return ret;
}
uint8_t *
ipc_mkstr( struct ipc_info * info, size_t * len, enum ipc_msg id, int64_t tag,
const char * str )
{
benc_val_t pk, * val;
uint8_t * ret;
val = ipc_initval( info, id, tag, &pk, TYPE_STR );
if( NULL == val )
{
return NULL;
}
tr_bencInitStr( val, str, -1, 1 );
ret = ipc_mkval( &pk, len );
SAFEBENCFREE( &pk );
return ret;
}
uint8_t *
ipc_mkvers( size_t * len, const char * label )
{
benc_val_t pk, * dict;
uint8_t * ret;
tr_bencInit( &pk, TYPE_DICT );
if( tr_bencDictReserve( &pk, 1 ) )
{
return NULL;
}
dict = tr_bencDictAdd( &pk, MSGNAME( IPC_MSG_VERSION ) );
tr_bencInit( dict, TYPE_DICT );
if( tr_bencDictReserve( dict, ( NULL == label ? 2 : 3 ) ) )
{
SAFEBENCFREE( &pk );
return NULL;
}
tr_bencInitInt( tr_bencDictAdd( dict, "min" ), PROTO_VERS_MIN );
tr_bencInitInt( tr_bencDictAdd( dict, "max" ), PROTO_VERS_MAX );
if( NULL != label )
tr_bencInitStr( tr_bencDictAdd( dict, "label" ), label, -1, 1 );
ret = ipc_mkval( &pk, len );
SAFEBENCFREE( &pk );
return ret;
}
uint8_t *
ipc_mkgetinfo( struct ipc_info * info, size_t * len, enum ipc_msg id,
int64_t tag, int types, const int * ids )
{
benc_val_t pk, * top, * idlist, * typelist;
size_t ii, typecount, used;
struct inf * typearray;
uint8_t * ret;
/* no ID list, send an -all message */
if( NULL == ids )
{
typelist = ipc_initval( info, id, tag, &pk, TYPE_LIST );
if( NULL == typelist )
{
return NULL;
}
}
else
{
top = ipc_initval( info, id, tag, &pk, TYPE_DICT );
if( NULL == top )
{
return NULL;
}
/* add the requested IDs */
if( tr_bencDictReserve( top, 2 ) )
{
SAFEBENCFREE( &pk );
return NULL;
}
idlist = tr_bencDictAdd( top, "id" );
typelist = tr_bencDictAdd( top, "type" );
tr_bencInit( idlist, TYPE_LIST );
tr_bencInit( typelist, TYPE_LIST );
for( ii = 0; TORRENT_ID_VALID( ids[ii] ); ii++ )
{
}
if( tr_bencListReserve( idlist, ii ) )
{
SAFEBENCFREE( &pk );
return NULL;
}
for( ii = 0; TORRENT_ID_VALID( ids[ii] ); ii++ )
{
tr_bencInitInt( tr_bencListAdd( idlist ), ids[ii] );
}
}
/* get the type name array */
switch( id )
{
case IPC_MSG_GETINFO:
case IPC_MSG_GETINFOALL:
typecount = ARRAYLEN( gl_inf );
typearray = gl_inf;
break;
case IPC_MSG_GETSTAT:
case IPC_MSG_GETSTATALL:
typecount = ARRAYLEN( gl_stat );
typearray = gl_stat;
break;
default:
assert( 0 );
break;
}
/* add the type names */
for( ii = used = 0; typecount > ii; ii++ )
{
if( types & ( 1 << ii ) )
{
used++;
}
}
if( tr_bencListReserve( typelist, used ) )
{
SAFEBENCFREE( &pk );
return NULL;
}
for( ii = 0; typecount > ii; ii++ )
{
if( !( types & ( 1 << ii ) ) )
{
continue;
}
assert( typearray[ii].type == ( 1 << ii ) );
tr_bencInitStr( tr_bencListAdd( typelist ),
typearray[ii].name, -1, 1 );
}
/* generate packet */
ret = ipc_mkval( &pk, len );
SAFEBENCFREE( &pk );
return ret;
}
int
ipc_addinfo( benc_val_t * list, int tor, const tr_info * inf, int types )
{
benc_val_t * dict, * item, * file, * tier;
int ii, jj, kk;
/* always send torrent id */
types |= IPC_INF_ID;
if( tr_bencListReserve( list, 1 ) )
{
return -1;
}
dict = tr_bencListAdd( list );
tr_bencInit( dict, TYPE_DICT );
for( ii = jj = 0; IPC_INF__MAX > 1 << ii; ii++ )
{
if( !( types & ( 1 << ii ) ) )
{
continue;
}
assert( ARRAYLEN( gl_inf ) > ( unsigned )ii );
assert( gl_inf[ii].type == ( 1 << ii ) );
/* check for missing optional info */
if( ( IPC_INF_COMMENT == ( 1 << ii ) && '\0' == inf->comment ) ||
( IPC_INF_CREATOR == ( 1 << ii ) && '\0' == inf->creator ) ||
( IPC_INF_DATE == ( 1 << ii ) && 0 >= inf->dateCreated ) )
{
continue;
}
jj++;
}
if( tr_bencDictReserve( dict, jj ) )
{
return -1;
}
for( ii = 0; IPC_INF__MAX > 1 << ii; ii++ )
{
if( !( types & ( 1 << ii ) ) )
{
continue;
}
/* check for missing optional info */
if( ( IPC_INF_COMMENT == ( 1 << ii ) && '\0' == inf->comment ) ||
( IPC_INF_CREATOR == ( 1 << ii ) && '\0' == inf->creator ) ||
( IPC_INF_DATE == ( 1 << ii ) && 0 >= inf->dateCreated ) )
{
continue;
}
item = tr_bencDictAdd( dict, gl_inf[ii].name );
switch( 1 << ii )
{
case IPC_INF_COMMENT:
tr_bencInitStr( item, inf->comment, -1, 1 );
break;
case IPC_INF_CREATOR:
tr_bencInitStr( item, inf->creator, -1, 1 );
break;
case IPC_INF_DATE:
tr_bencInitInt( item, inf->dateCreated );
break;
case IPC_INF_FILES:
tr_bencInit( item, TYPE_LIST );
if( tr_bencListReserve( item, inf->fileCount ) )
{
return -1;
}
for( jj = 0; inf->fileCount > jj; jj++ )
{
file = tr_bencListAdd( item );
tr_bencInit( file, TYPE_DICT );
if( tr_bencDictReserve( file, 2 ) )
{
return -1;
}
tr_bencInitStr( tr_bencDictAdd( file, "name" ),
inf->files[jj].name, -1, 1 );
tr_bencInitInt( tr_bencDictAdd( file, "size" ),
inf->files[jj].length );
}
break;
case IPC_INF_HASH:
tr_bencInitStr( item, inf->hashString, -1, 1 );
break;
case IPC_INF_ID:
tr_bencInitInt( item, tor );
break;
case IPC_INF_NAME:
tr_bencInitStr( item, inf->name, -1, 1 );
break;
case IPC_INF_PATH:
tr_bencInitStr( item, inf->torrent, -1, 1 );
break;
case IPC_INF_PRIVATE:
tr_bencInitInt( item,
( TR_FLAG_PRIVATE & inf->flags ? 1 : 0 ) );
break;
case IPC_INF_SAVED:
tr_bencInitInt( item,
( TR_FLAG_SAVE & inf->flags ? 1 : 0 ) );
break;
case IPC_INF_SIZE:
tr_bencInitInt( item, inf->totalSize );
break;
case IPC_INF_TRACKERS:
tr_bencInit( item, TYPE_LIST );
if( tr_bencListReserve( item, inf->trackerTiers ) )
{
return -1;
}
for( jj = 0; inf->trackerTiers > jj; jj++ )
{
tier = tr_bencListAdd( item );
tr_bencInit( tier, TYPE_LIST );
if( tr_bencListReserve( tier,
inf->trackerList[jj].count ) )
{
return -1;
}
for( kk = 0; inf->trackerList[jj].count > kk; kk++ )
{
if( 0 > filltracker( tr_bencListAdd( tier ),
&inf->trackerList[jj].list[kk] ) )
{
return -1;
}
}
}
break;
default:
assert( 0 );
break;
}
}
return 0;
}
int
ipc_addstat( benc_val_t * list, int tor,
const tr_stat * st, int types )
{
benc_val_t * dict, * item;
int ii, used;
unsigned int error;
/* always send torrent id */
types |= IPC_ST_ID;
if( tr_bencListReserve( list, 1 ) )
{
return -1;
}
dict = tr_bencListAdd( list );
for( ii = used = 0; IPC_ST__MAX > 1 << ii; ii++ )
{
if( types & ( 1 << ii ) )
{
used++;
}
}
tr_bencInit( dict, TYPE_DICT );
if( tr_bencDictReserve( dict, used ) )
{
return -1;
}
for( ii = 0; IPC_ST__MAX > 1 << ii; ii++ )
{
if( !( types & ( 1 << ii ) ) )
{
continue;
}
assert( ARRAYLEN( gl_stat ) > ( unsigned )ii );
assert( gl_stat[ii].type == ( 1 << ii ) );
item = tr_bencDictAdd( dict, gl_stat[ii].name );
switch( 1 << ii )
{
case IPC_ST_COMPLETED:
case IPC_ST_DOWNVALID:
tr_bencInitInt( item, st->haveValid );
break;
case IPC_ST_DOWNSPEED:
tr_bencInitInt( item, st->rateDownload * 1024 );
break;
case IPC_ST_DOWNTOTAL:
tr_bencInitInt( item, st->downloadedEver );
break;
case IPC_ST_ERROR:
error = st->error;
if( TR_OK == error )
{
tr_bencInitStr( item, NULL, 0, 1 );
}
else if( TR_ERROR_ISSET( TR_ERROR_ASSERT, error ) )
{
tr_bencInitStr( item, "assert", -1, 1 );
}
else if( TR_ERROR_ISSET( TR_ERROR_IO_PARENT, error ) )
{
tr_bencInitStr( item, "io-parent", -1, 1 );
}
else if( TR_ERROR_ISSET( TR_ERROR_IO_PERMISSIONS, error ) )
{
tr_bencInitStr( item, "io-permissions", -1, 1 );
}
else if( TR_ERROR_ISSET( TR_ERROR_IO_SPACE, error ) )
{
tr_bencInitStr( item, "io-space", -1, 1 );
}
else if( TR_ERROR_ISSET( TR_ERROR_IO_FILE_TOO_BIG, error ) )
{
tr_bencInitStr( item, "io-file-too-big", -1, 1 );
}
else if( TR_ERROR_ISSET( TR_ERROR_IO_OPEN_FILES, error ) )
{
tr_bencInitStr( item, "io-open-files", -1, 1 );
}
else if( TR_ERROR_ISSET( TR_ERROR_IO_MASK, error ) )
{
tr_bencInitStr( item, "io-other", -1, 1 );
}
else if( TR_ERROR_ISSET( TR_ERROR_TC_ERROR, error ) )
{
tr_bencInitStr( item, "tracker-error", -1, 1 );
}
else if( TR_ERROR_ISSET( TR_ERROR_TC_WARNING, error ) )
{
tr_bencInitStr( item, "tracker-warning", -1, 1 );
}
else
{
tr_bencInitStr( item, "other", -1, 1 );
}
break;
case IPC_ST_ERRMSG:
if( '\0' == st->errorString[0] )
{
tr_bencInitStr( item, NULL, 0, 1 );
}
else if( tr_bencInitStrDup( item, st->errorString ) )
{
return -1;
}
break;
case IPC_ST_ETA:
tr_bencInitInt( item, st->eta );
break;
case IPC_ST_ID:
tr_bencInitInt( item, tor );
break;
case IPC_ST_PEERDOWN:
tr_bencInitInt( item, st->peersSendingToUs );
break;
case IPC_ST_PEERFROM:
tr_bencInit( item, TYPE_DICT );
if( tr_bencDictReserve( item, 4 ) )
{
return -1;
}
tr_bencInitInt( tr_bencDictAdd( item, "incoming" ),
st->peersFrom[TR_PEER_FROM_INCOMING] );
tr_bencInitInt( tr_bencDictAdd( item, "tracker" ),
st->peersFrom[TR_PEER_FROM_TRACKER] );
tr_bencInitInt( tr_bencDictAdd( item, "cache" ),
st->peersFrom[TR_PEER_FROM_CACHE] );
tr_bencInitInt( tr_bencDictAdd( item, "pex" ),
st->peersFrom[TR_PEER_FROM_PEX] );
break;
case IPC_ST_PEERTOTAL:
tr_bencInitInt( item, st->peersTotal );
break;
case IPC_ST_PEERUP:
tr_bencInitInt( item, st->peersGettingFromUs );
break;
case IPC_ST_RUNNING:
tr_bencInitInt( item,
( TR_STATUS_INACTIVE & st->status ? 0 : 1 ) );
break;
case IPC_ST_STATE:
if( TR_STATUS_CHECK_WAIT & st->status )
{
tr_bencInitStr( item, "waiting to checking", -1, 1 );
}
else if( TR_STATUS_CHECK & st->status )
{
tr_bencInitStr( item, "checking", -1, 1 );
}
else if( TR_STATUS_DOWNLOAD & st->status )
{
tr_bencInitStr( item, "downloading", -1, 1 );
}
else if( TR_STATUS_SEED & st->status )
{
tr_bencInitStr( item, "seeding", -1, 1 );
}
else if( TR_STATUS_STOPPING & st->status )
{
tr_bencInitStr( item, "stopping", -1, 1 );
}
else if( TR_STATUS_INACTIVE & st->status )
{
tr_bencInitStr( item, "paused", -1, 1 );
}
else
{
assert( 0 );
}
break;
case IPC_ST_SWARM:
tr_bencInitInt( item, st->swarmspeed * 1024 );
break;
case IPC_ST_TRACKER:
if( 0 > filltracker( item, st->tracker ) )
{
return -1;
}
break;
case IPC_ST_TKDONE:
tr_bencInitInt( item, st->completedFromTracker );
break;
case IPC_ST_TKLEECH:
tr_bencInitInt( item, st->leechers );
break;
case IPC_ST_TKSEED:
tr_bencInitInt( item, st->seeders );
break;
case IPC_ST_UPSPEED:
tr_bencInitInt( item, st->rateUpload * 1024 );
break;
case IPC_ST_UPTOTAL:
tr_bencInitInt( item, st->uploadedEver );
break;
default:
assert( 0 );
break;
}
}
return 0;
}
ssize_t
ipc_parse( struct ipc_info * info, uint8_t * buf, ssize_t total, void * arg )
{
char hex[IPC_MIN_MSG_LEN+1], * end;
ssize_t off, len;
benc_val_t benc;
for( off = 0; off + IPC_MIN_MSG_LEN < total; off += IPC_MIN_MSG_LEN + len )
{
memcpy( hex, buf + off, IPC_MIN_MSG_LEN );
hex[IPC_MIN_MSG_LEN] = '\0';
end = NULL;
len = strtol( hex, &end, 16 );
if( hex + IPC_MIN_MSG_LEN != end ||
0 > len || IPC_MAX_MSG_LEN < len )
{
errno = EINVAL;
return -1;
}
if( off + IPC_MIN_MSG_LEN + len > total )
{
break;
}
errno = 0;
if( tr_bencLoad( buf + off + IPC_MIN_MSG_LEN, len, &benc, NULL ) )
{
if( 0 == errno )
{
errno = EINVAL;
}
return -1;
}
if( 0 > ( HASVERS( info ) ? handlemsgs( info, &benc, arg ) :
handlevers( info, &benc ) ) )
{
SAFEBENCFREE( &benc );
return -1;
}
tr_bencFree( &benc );
}
return off;
}
static int
handlevers( struct ipc_info * info, benc_val_t * dict )
{
benc_val_t * vers, * num;
int64_t min, max;
if( TYPE_DICT != dict->type )
{
errno = EINVAL;
return -1;
}
vers = tr_bencDictFind( dict, MSGNAME( IPC_MSG_VERSION ) );
if( NULL == vers )
{
errno = EINVAL;
return -1;
}
switch( vers->type )
{
case TYPE_INT:
min = vers->val.i;
max = vers->val.i;
break;
case TYPE_DICT:
num = tr_bencDictFind( vers, "min" );
min = ( NULL == num || TYPE_INT != num->type ? -1 : num->val.i );
num = tr_bencDictFind( vers, "max" );
max = ( NULL == num || TYPE_INT != num->type ? -1 : num->val.i );
break;
default:
min = -1;
max = -1;
break;
}
if( 0 >= min || 0 >= max || INT_MAX < min || INT_MAX < max )
{
errno = EINVAL;
return -1;
}
assert( PROTO_VERS_MIN <= PROTO_VERS_MAX );
if( min > max )
{
errno = EINVAL;
return -1;
}
if( PROTO_VERS_MAX < min || PROTO_VERS_MIN > max )
{
errno = EPERM;
return -1;
}
info->vers = MIN( PROTO_VERS_MAX, max );
return 0;
}
static int
handlemsgs( struct ipc_info * info, benc_val_t * pay, void * arg )
{
benc_val_t * name, * val, * tag;
int ii;
assert( HASVERS( info ) );
if( DICTPAYLOAD( info ) )
{
if( TYPE_DICT != pay->type || pay->val.l.count % 2 )
{
errno = EINVAL;
return -1;
}
for( ii = 0; ii < pay->val.l.count; ii += 2 )
{
assert( ii + 1 < pay->val.l.count );
name = &pay->val.l.vals[ii];
val = &pay->val.l.vals[ii+1];
if( 0 > gotmsg( info, name, val, NULL, arg ) )
{
return -1;
}
}
}
else
{
if( TYPE_LIST != pay->type || 2 > pay->val.l.count )
{
errno = EINVAL;
return -1;
}
name = &pay->val.l.vals[0];
val = &pay->val.l.vals[1];
tag = ( 2 == pay->val.l.count ? NULL : &pay->val.l.vals[2] );
if( 0 > gotmsg( info, name, val, tag, arg ) )
{
return -1;
}
}
return 0;
}
static int
gotmsg( struct ipc_info * info, benc_val_t * name, benc_val_t * val,
benc_val_t * tagval, void * arg )
{
struct msgfunc key, * handler;
struct msg * msg;
int64_t tag;
if( TYPE_STR != name->type )
{
errno = EINVAL;
return -1;
}
if( NULL == tagval )
{
tag = -1;
}
else
{
if( TYPE_INT != tagval->type )
{
errno = EINVAL;
return -1;
}
tag = tagval->val.i;
}
msg = msglookup( name->val.s.s );
if( NULL != msg && msg->minvers <= info->vers )
{
memset( &key, 0, sizeof key );
key.id = msg->id;
handler = RB_FIND( functree, &info->funcs->msgs, &key );
if( NULL != handler )
{
handler->func( msg->id, val, tag, arg );
}
else if( NULL != info->funcs->def )
{
info->funcs->def( msg->id, val, tag, arg );
}
}
else if( NULL != info->funcs->def )
info->funcs->def( IPC__MSG_UNKNOWN, NULL, tag, arg );
return 0;
}
int
ipc_havemsg( struct ipc_info * info, enum ipc_msg id )
{
assert( MSGVALID( id ) );
assert( HASVERS( info ) );
return ( gl_msgs[id].minvers <= info->vers );
}
enum ipc_msg
ipc_msgid( struct ipc_info * info, const char * name )
{
struct msg * msg;
msg = msglookup( name );
if( NULL == msg || !ipc_havemsg( info, msg->id ) )
{
return IPC__MSG_COUNT;
}
return msg->id;
}
int
ipc_ishandled( struct ipc_info * info, enum ipc_msg id )
{
struct msgfunc key;
assert( MSGVALID( id ) );
memset( &key, 0, sizeof key );
key.id = id;
return ( NULL != RB_FIND( functree, &info->funcs->msgs, &key ) );
}
int
ipc_havetags( struct ipc_info * info )
{
return !DICTPAYLOAD( info );
}
int
ipc_infotypes( enum ipc_msg id, benc_val_t * list )
{
static struct inftree infotree = RB_INITIALIZER( &tree );
static struct inftree stattree = RB_INITIALIZER( &tree );
struct inftree * tree;
benc_val_t * name;
struct inf * array, * inf, key;
size_t len, ii;
int ret, jj;
switch( id )
{
case IPC_MSG_INFO:
tree = &infotree;
array = gl_inf;
len = ARRAYLEN( gl_inf );
break;
case IPC_MSG_STAT:
tree = &stattree;
array = gl_stat;
len = ARRAYLEN( gl_stat );
break;
default:
assert( 0 );
break;
}
if( RB_EMPTY( tree ) )
{
for( ii = 0; len > ii; ii++ )
{
assert( 1 << ii == array[ii].type );
inf = RB_INSERT( inftree, tree, &array[ii] );
assert( NULL == inf );
}
}
ret = IPC_INF_ID;
if( NULL == list || TYPE_LIST != list->type )
{
return ret;
}
memset( &key, 0, sizeof key );
for( jj = 0; list->val.l.count > jj; jj++ )
{
name = &list->val.l.vals[jj];
if( TYPE_STR != name->type )
{
continue;
}
key.name = name->val.s.s;
inf = RB_FIND( inftree, tree, &key );
if( NULL != inf )
{
ret |= inf->type;
}
}
return ret;
}
const char *
ipc_infoname( enum ipc_msg id, int type )
{
struct inf * array;
size_t len, ii;
switch( id )
{
case IPC_MSG_INFO:
array = gl_inf;
len = ARRAYLEN( gl_inf );
break;
case IPC_MSG_STAT:
array = gl_stat;
len = ARRAYLEN( gl_stat );
break;
default:
assert( 0 );
break;
}
for( ii = 0; len > ii; ii++ )
{
if( array[ii].type == type )
{
return array[ii].name;
}
}
assert( 0 );
return NULL;
}
static int
msgcmp( struct msg * first, struct msg * second )
{
return strcmp( first->name, second->name );
}
static int
infcmp( struct inf * first, struct inf * second )
{
return strcmp( first->name, second->name );
}
static struct msg *
msglookup( const char * name )
{
static struct msgtree tree = RB_INITIALIZER( &tree );
struct msg * ret, key;
size_t ii;
assert( IPC__MSG_COUNT == ARRAYLEN( gl_msgs ) );
if( RB_EMPTY( &tree ) )
{
for( ii = 0; ARRAYLEN( gl_msgs ) > ii; ii++ )
{
assert( ii == gl_msgs[ii].id );
ret = RB_INSERT( msgtree, &tree, &gl_msgs[ii] );
assert( NULL == ret );
}
}
memset( &key, 0, sizeof key );
key.name = name;
return RB_FIND( msgtree, &tree, &key );
}
static int
filltracker( benc_val_t * val, const tr_tracker_info * tk )
{
tr_bencInit( val, TYPE_DICT );
if( tr_bencDictReserve( val, ( NULL == tk->scrape ? 3 : 4 ) ) )
{
return -1;
}
tr_bencInitStr( tr_bencDictAdd( val, "address" ), tk->address, -1, 1 );
tr_bencInitInt( tr_bencDictAdd( val, "port" ), tk->port );
tr_bencInitStr( tr_bencDictAdd( val, "announce" ), tk->announce, -1, 1 );
if( NULL != tk->scrape )
{
tr_bencInitStr( tr_bencDictAdd( val, "scrape" ), tk->scrape, -1, 1 );
}
return 0;
}