/****************************************************************************** * $Id$ * * 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 "transmission.h" /* setting to 1 to help expose bugs with tr_bencListAdd and tr_bencDictAdd */ #define LIST_SIZE 20 /* number of items to increment list/dict buffer by */ static int makeroom( benc_val_t * val, int count ) { int len; void * new; assert( TYPE_LIST == val->type || TYPE_DICT == val->type ); if( val->val.l.count + count <= val->val.l.alloc ) { return 0; } /* We need a bigger boat */ len = val->val.l.alloc + count + ( count % LIST_SIZE ? LIST_SIZE - ( count % LIST_SIZE ) : 0 ); new = realloc( val->val.l.vals, len * sizeof( benc_val_t ) ); if( NULL == new ) { return 1; } val->val.l.alloc = len; val->val.l.vals = new; return 0; } int _tr_bencLoad( char * buf, int len, benc_val_t * val, char ** end ) { char * p, * e, * foo; if( NULL == buf || 1 >= len ) { return 1; } if( !end ) { /* So we only have to check once */ end = &foo; } if( buf[0] == 'i' ) { int64_t num; e = memchr( &buf[1], 'e', len - 1 ); if( NULL == e ) { return 1; } /* Integer: i1242e */ *e = '\0'; num = strtoll( &buf[1], &p, 10 ); *e = 'e'; if( p != e ) { return 1; } tr_bencInitInt( val, num ); *end = p + 1; } else if( buf[0] == 'l' || buf[0] == 'd' ) { /* List: le Dict: de A dictionary is just a special kind of list with an even count of items, and where even items are strings. */ char * cur; char is_dict; char str_expected; is_dict = ( buf[0] == 'd' ); cur = &buf[1]; str_expected = 1; tr_bencInit( val, ( is_dict ? TYPE_DICT : TYPE_LIST ) ); while( cur - buf < len && cur[0] != 'e' ) { if( makeroom( val, 1 ) || tr_bencLoad( cur, len - (cur - buf), &val->val.l.vals[val->val.l.count], &p ) ) { tr_bencFree( val ); return 1; } val->val.l.count++; if( is_dict && str_expected && val->val.l.vals[val->val.l.count - 1].type != TYPE_STR ) { tr_bencFree( val ); return 1; } str_expected = !str_expected; cur = p; } if( is_dict && ( val->val.l.count & 1 ) ) { tr_bencFree( val ); return 1; } *end = cur + 1; } else { int slen; char * sbuf; e = memchr( buf, ':', len ); if( NULL == e ) { return 1; } /* String: 12:whateverword */ e[0] = '\0'; slen = strtol( buf, &p, 10 ); e[0] = ':'; if( p != e || 0 > slen || len - ( ( p + 1 ) - buf ) < slen ) { return 1; } sbuf = malloc( slen + 1 ); if( NULL == sbuf ) { return 1; } memcpy( sbuf, p + 1, slen ); sbuf[slen] = '\0'; tr_bencInitStr( val, sbuf, slen, 0 ); *end = p + 1 + val->val.s.i; } val->begin = buf; val->end = *end; return 0; } static void __bencPrint( benc_val_t * val, int space ) { int ii; for( ii = 0; ii < space; ii++ ) { putc( ' ', stderr ); } switch( val->type ) { case TYPE_INT: fprintf( stderr, "int: %"PRId64"\n", val->val.i ); break; case TYPE_STR: for( ii = 0; val->val.s.i > ii; ii++ ) { if( '\\' == val->val.s.s[ii] ) { putc( '\\', stderr ); putc( '\\', stderr ); } else if( isprint( val->val.s.s[ii] ) ) { putc( val->val.s.s[ii], stderr ); } else { fprintf( stderr, "\\x%02x", val->val.s.s[ii] ); } } putc( '\n', stderr ); break; case TYPE_LIST: fprintf( stderr, "list\n" ); for( ii = 0; ii < val->val.l.count; ii++ ) { __bencPrint( &val->val.l.vals[ii], space + 1 ); } break; case TYPE_DICT: fprintf( stderr, "dict\n" ); for( ii = 0; ii < val->val.l.count; ii++ ) { __bencPrint( &val->val.l.vals[ii], space + 1 ); } break; } } void tr_bencPrint( benc_val_t * val ) { __bencPrint( val, 0 ); } void tr_bencFree( benc_val_t * val ) { int i; switch( val->type ) { case TYPE_INT: break; case TYPE_STR: if( !val->val.s.nofree ) { free( val->val.s.s ); } break; case TYPE_LIST: case TYPE_DICT: for( i = 0; i < val->val.l.count; i++ ) { tr_bencFree( &val->val.l.vals[i] ); } free( val->val.l.vals ); break; } } benc_val_t * tr_bencDictFind( benc_val_t * val, const char * key ) { int len, ii; if( val->type != TYPE_DICT ) { return NULL; } len = strlen( key ); for( ii = 0; ii + 1 < val->val.l.count; ii += 2 ) { if( TYPE_STR != val->val.l.vals[ii].type || len != val->val.l.vals[ii].val.s.i || 0 != memcmp( val->val.l.vals[ii].val.s.s, key, len ) ) { continue; } return &val->val.l.vals[ii+1]; } return NULL; } benc_val_t * tr_bencDictFindFirst( benc_val_t * val, ... ) { const char * key; benc_val_t * ret; va_list ap; ret = NULL; va_start( ap, val ); while( ( key = va_arg( ap, const char * ) ) ) { ret = tr_bencDictFind( val, key ); if( NULL != ret ) { break; } } va_end( ap ); return ret; } char * tr_bencStealStr( benc_val_t * val ) { assert( TYPE_STR == val->type ); val->val.s.nofree = 1; return val->val.s.s; } void _tr_bencInitStr( benc_val_t * val, char * str, int len, int nofree ) { tr_bencInit( val, TYPE_STR ); val->val.s.s = str; val->val.s.nofree = nofree; if( 0 >= len ) { len = ( NULL == str ? 0 : strlen( str ) ); } val->val.s.i = len; } int tr_bencInitStrDup( benc_val_t * val, const char * str ) { char * new = NULL; if( NULL != str ) { new = strdup( str ); if( NULL == new ) { return 1; } } _tr_bencInitStr( val, new, 0, 0 ); return 0; } void tr_bencInitInt( benc_val_t * val, int64_t num ) { tr_bencInit( val, TYPE_INT ); val->val.i = num; } int tr_bencListReserve( benc_val_t * val, int count ) { assert( TYPE_LIST == val->type ); if( makeroom( val, count ) ) { return 1; } return 0; } int tr_bencDictReserve( benc_val_t * val, int count ) { assert( TYPE_DICT == val->type ); if( makeroom( val, count * 2 ) ) { return 1; } return 0; } benc_val_t * tr_bencListAdd( benc_val_t * list ) { benc_val_t * item; assert( TYPE_LIST == list->type ); assert( list->val.l.count < list->val.l.alloc ); item = &list->val.l.vals[list->val.l.count]; list->val.l.count++; tr_bencInit( item, TYPE_INT ); return item; } benc_val_t * tr_bencDictAdd( benc_val_t * dict, const char * key ) { benc_val_t * keyval, * itemval; assert( TYPE_DICT == dict->type ); assert( dict->val.l.count + 2 <= dict->val.l.alloc ); keyval = &dict->val.l.vals[dict->val.l.count]; dict->val.l.count++; itemval = &dict->val.l.vals[dict->val.l.count]; dict->val.l.count++; tr_bencInitStr( keyval, key, -1, 1 ); tr_bencInit( itemval, TYPE_INT ); return itemval; } char * tr_bencSaveMalloc( benc_val_t * val, int * len ) { char * buf = NULL; int alloc = 0; *len = 0; if( tr_bencSave( val, &buf, len, &alloc ) ) { if( NULL != buf ) { free(buf); } *len = 0; return NULL; } return buf; } int tr_bencSave( benc_val_t * val, char ** buf, int * used, int * max ) { int ii; switch( val->type ) { case TYPE_INT: if( tr_sprintf( buf, used, max, "i%"PRId64"e", val->val.i ) ) { return 1; } break; case TYPE_STR: if( tr_sprintf( buf, used, max, "%i:", val->val.s.i ) || tr_concat( buf, used, max, val->val.s.s, val->val.s.i ) ) { return 1; } break; case TYPE_LIST: case TYPE_DICT: if( tr_sprintf( buf, used, max, (TYPE_LIST == val->type ? "l" : "d") ) ) { return 1; } for( ii = 0; val->val.l.count > ii; ii++ ) { if( tr_bencSave( val->val.l.vals + ii, buf, used, max ) ) { return 1; } } if( tr_sprintf( buf, used, max, "e" ) ) { return 1; } break; } return 0; }