/* Copyright (C) 2000-2005 SKYRIX Software AG This file is part of SOPE. SOPE is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. SOPE is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with SOPE; see the file COPYING. If not, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "NGMimeBodyParser.h" #include "NGMimeBodyPartParser.h" #include "NGMimeMultipartBody.h" #include "common.h" #include @implementation NGMimeMultipartBodyParser static int MimeLogEnabled = -1; + (int)version { return [super version] + 0 /* v2 */; } + (void)initialize { NSUserDefaults *ud = [NSUserDefaults standardUserDefaults]; NSAssert2([super version] == 2, @"invalid superclass (%@) version %i !", NSStringFromClass([self superclass]), [super version]); MimeLogEnabled = [ud boolForKey:@"MimeLogEnabled"] ? 1 : 0; } // returns the postion of the '\r' that starts the boundary static inline const char *_findNextBoundary(const char *_from, unsigned _len, const char *_boundary, unsigned _boundaryLen, BOOL _isFirst) { register unsigned pos = 0; register unsigned blen = _boundaryLen; if (_isFirst) { blen += 3; // -- + at least one EOL char at end of line if (_len < blen) return NULL; // too short to contain boundary for (pos = 0; (pos < _len) && (_len - pos > blen); pos++) { if ((_from[pos] == '-') && (_from[pos + 1] == '-')) { if (strncmp(&(_from[pos + 2]), _boundary, _boundaryLen) == 0) { // found boundary; return _from + pos; } } } } else { blen += 4; // -- + at least two EOL chars at start and end of line if (_len < blen) return NULL; // too short to contain boundary /* detect: --boundary(--)?CR CR--boundary(--)?CR CRLF--boundary(--)?CRLF LF--boundary(--)?LF */ for (pos = 0; (pos < _len) && ((_len - pos) > blen); pos++) { if (_from[pos] == '\n') { // check for LF-- if ((_from[pos + 1] == '-') &&(_from[pos + 2] == '-')) { // found LF-- if (strncmp(&(_from[pos + 3]), _boundary, _boundaryLen) == 0) // found LF--boundary return (_from + pos); } } else if (_from[pos] == '\r') { // check for CR.-? if ((_from[pos + 1] == '-') && (_from[pos + 2] == '-')) { // CHECK FOR CR-- // found CR-- if (strncmp(&(_from[pos + 3]), _boundary, _boundaryLen) == 0) // found LF--boundary return (_from + pos); } if ((_from[pos + 1] == '\n') && (_from[pos + 2] == '-') && (_from[pos + 3] == '-')) { // found CRLF-- if ((_len - pos) <= blen) { // remaining part is too short for boundary starting with CRLF break; } if (strncmp(&(_from[pos + 4]), _boundary, _boundaryLen) == 0) // found LF--boundary return (_from + pos); } } else if ((_from[pos] == '-') && (_from[pos + 1] == '-')) { if (strncmp(&(_from[pos + 2]), _boundary, _boundaryLen) == 0) { // found --boundary return (_from + pos); } } } } return NULL; } static inline BOOL _isEndBoundary(const char *_from, unsigned _len, const char *_boundary, unsigned _boundaryLen) { // no buffer out-of-bounds check, may cause segfault if (_len < (_boundaryLen + 8)) // + 2x CRLF and 2x '--' return YES; while (*_from != '-') _from++; // search first '-' _from += 2; // skip '--' _from += _boundaryLen; // skip boundary; return ((_from[0] == '-') && (_from[1] == '-')) ? YES : NO; } static inline const char * _skipBoundary(id self, const char *_from, unsigned _len, BOOL _first) { register unsigned pos = 0; register unsigned char c = 0; if (_from == NULL) return NULL; if (_from[0] == '-') { // skip '--' c = 0; // EOL needs to be detected } else if (_from[1] == '-') { // skip CR-- or LF-- c = _from[0]; if ((c != '\n') && (c != '\r')) { if (MimeLogEnabled) [self logWithFormat:@"WARNING(%s): invalid char before boundary '--'", __PRETTY_FUNCTION__]; } pos = 3; } else if (_from[2] == '-') { // skip CRLF-- c = _from[0]; if (c != '\r') { if (MimeLogEnabled) [self logWithFormat:@"WARNING(%s): missing CR before boundary 'LF--'", __PRETTY_FUNCTION__]; } c = _from[1]; if (c != '\n') { if (MimeLogEnabled) [self logWithFormat:@"WARNING(%s): missing LF before boundary '--' (after" @"CR)", __PRETTY_FUNCTION__]; } pos = 4; } else { if (MimeLogEnabled) [self logWithFormat:@"ERROR(%s): invalid parser state, skipping 4.", __PRETTY_FUNCTION__]; pos = 4; } while (pos < _len) { register unsigned char fc = _from[pos]; if (c == 0) { // EOL detect (on first line) if (fc == '\n') // LF break; if (fc == '\r') { // CR * if ((pos + 1) == _len) // CR EOF break; else if (_from[pos + 1] == '\n') { // CRLF pos++; // skip LF break; } else // CR break; } } else if (fc == c) // EOL char is known break; pos++; } if (pos < _len) pos++; // skip EOL char return &(_from[pos]); // return pointer to position after char } - (NSArray *)_parseBody:(NGMimeMultipartBody *)_body part:(id)_part data:(NSData *)_data boundary:(const char *)_boundary length:(unsigned)_boundaryLen delegate:(id)_delegate { NSMutableArray *result; NSAutoreleasePool *pool; const char *begin = NULL; const char *end = NULL; const char *buffer = [_data bytes]; unsigned len = [_data length]; BOOL isEOF = NO; NSCAssert(buffer, @"got no buffer"); NSCAssert(_boundary, @"got no boundary"); result = [NSMutableArray arrayWithCapacity:7]; // find first boundary and store prefix begin = _findNextBoundary(buffer, len, _boundary, _boundaryLen, YES); if (begin == NULL) { if (MimeLogEnabled) [self logWithFormat:@"WARNING(%s): Found multipart with no 1st boundary", __PRETTY_FUNCTION__]; [result addObject:_data]; return result; } pool = [[NSAutoreleasePool alloc] init]; { unsigned preLen = begin - buffer; if (preLen > 0) { if ([_delegate respondsToSelector: @selector(multipartBodyParser:foundPrefix:inMultipart:)]) { [_delegate multipartBodyParser:self foundPrefix:[NSData dataWithBytes:buffer length:preLen] inMultipart:_part]; } [_body setPrefix:[NSString stringWithCString:buffer length:preLen]]; } } // skip first boundary begin = _skipBoundary(self, begin, len - (begin - buffer), YES); NSCAssert(begin, @"could not skip 1st boundary .."); // loop over multipart bodies and exit if end-boundary is found do { /* check for boundary denoting end of current part */ end = _findNextBoundary(begin, len - (begin - buffer), _boundary,_boundaryLen, NO); if (end == NULL) { NSRange subDataRange; NSData *rawData = nil; if (MimeLogEnabled) [self logWithFormat:@"WARNING(%s): reached end of body without" @" end-boundary", __PRETTY_FUNCTION__]; subDataRange.location = (begin - buffer); subDataRange.length = ([_data length] + buffer - begin); rawData = [_data subdataWithRange:subDataRange]; if (rawData) [result addObject:rawData]; isEOF = YES; break; } else { NSRange subDataRange; NSData *rawData = nil; NSCAssert(end - begin >= 0, @"invalid range .."); subDataRange.location = (begin - buffer); subDataRange.length = (end - begin); rawData = [_data subdataWithRange:subDataRange]; if (rawData) { [result addObject:rawData]; } else { NSLog(@"WARNING(%s): could not create rawdata for " @" bodypart in multipart %@", __PRETTY_FUNCTION__, _part); } /* check whether last read boundary was an end boundary */ if (_isEndBoundary(end, len - (end - buffer), _boundary, _boundaryLen)) { isEOF = NO; break; } /* skip non-end boundary */ begin = _skipBoundary(self, end, len - (end - buffer), NO); } } while (begin); // skip end boundary and store suffix if (!isEOF) { if ((begin = _skipBoundary(self, end, len - (end - buffer), NO))) { unsigned sufLen; sufLen = len - (begin - buffer); if (sufLen > 0) { if ([_delegate respondsToSelector: @selector(multipartBodyParser: foundSuffix: inMultipart:)]) [_delegate multipartBodyParser:self foundSuffix:[NSData dataWithBytes:begin length:sufLen] inMultipart:_part]; [_body setSuffix:[NSString stringWithCString:begin length:sufLen]]; } } } /* result is not contained in this pool, so no need to retain ... */ RELEASE(pool); return result; } static NSString *_searchBoundary(NGMimeMultipartBodyParser *self, NSData *_data) { const char *buffer = [_data bytes]; int length = [_data length]; int pos = 0; BOOL found = NO; if (length < 3) return nil; if ((buffer[0] == '-') && (buffer[1] == '-')) { // no prefix found = YES; pos = 2; } else { while (pos + 5 < length) { if (buffer[pos + 2] != '-') { // if third char is not a '-' it cannot be a boundary start pos++; continue; } if (buffer[pos] == '\n') { // check for LF-- if (buffer[pos + 1] == '-') { // found LF-- pos += 3; found = YES; break; } } else if (buffer[pos] == '\r') { // check for CR.-? if ((buffer[pos + 1] == '-') ) { // CHECK FOR CR-- // found CR-- pos += 3; found = YES; break; } if ((buffer[pos + 1] == '\n') && (buffer[pos + 3] == '-')) { // found CRLF-- if ((length - pos) <= 4) { // remaining part is too short for boundary starting with CRLF break; } // found LF--boundary pos += 4; found = YES; break; } } pos++; } } if (found) { int boundLength = 0; buffer += pos; while (((boundLength + pos) < length) && (buffer[boundLength] != '\n') && (buffer[boundLength] != '\r')) { boundLength++; } if ((boundLength + pos) < length) { return [NSString stringWithCString:buffer length:boundLength]; } else return nil; } else return nil; } - (id)parseBodyPartWithData:(NSData *)_rawData inMultipart:(id)_multipart parser:(NGMimePartParser *)_parser { if (![_rawData length]) return nil; return [_parser parsePartFromData:_rawData]; } - (BOOL)parseBody:(NGMimeMultipartBody *)_body ofMultipart:(id)_part data:(NSData *)_data delegate:(id)_d { NGMimeType *contentType = nil; NSString *boundary = nil; NSArray *rawBodyParts = nil; BOOL foundError = NO; contentType = [_part contentType]; boundary = [contentType valueOfParameter:@"boundary"]; if (boundary == nil) boundary = _searchBoundary(self, _data); *(&foundError) = NO; *(&rawBodyParts) = [self _parseBody:_body part:_part data:_data boundary:[boundary cString] length:[boundary cStringLength] delegate:_d]; if (rawBodyParts) { NGMimeBodyPartParser *bodyPartParser; unsigned i, count; BOOL askDelegate = NO; *(&count) = [rawBodyParts count]; *(&i) = 0; *(&bodyPartParser) = nil; if ([_d respondsToSelector: @selector(multipartBodyParser:parserForEntity:inMultipart:)]) { *(&askDelegate) = YES; } for (i = 0; i < count; i++) { NSString *reason = @"ERROR: could not parse body part at index %i in multipart %@: %@"; NGMimePartParser *parser; id rawData; id bodyPart; rawData = [rawBodyParts objectAtIndex:i]; *(&parser) = bodyPartParser; *(&bodyPart) = nil; if (askDelegate) { parser = [_d multipartBodyParser:self parserForEntity:rawData inMultipart:_part]; [parser setDelegate:_d]; } else if (bodyPartParser == nil) { bodyPartParser = [[NGMimeBodyPartParser alloc] init]; [bodyPartParser setDelegate:_d]; parser = bodyPartParser; } if (parser == nil) { if (rawData) { NSData *d; /* ensure that we have a copy, not a range on the full data */ d = [[NSData alloc] initWithBytes:[rawData bytes] length:[rawData length]]; [_body addBodyPart:d]; RELEASE(d); } } else { NS_DURING { if ([rawData length]) bodyPart = [self parseBodyPartWithData:rawData inMultipart:_part parser:parser]; } NS_HANDLER { NSLog(reason, i, _part, localException); foundError = YES; } NS_ENDHANDLER; if (bodyPart) { [_body addBodyPart:bodyPart]; } parser = nil; } } RELEASE(bodyPartParser); bodyPartParser = nil; } return foundError; } - (BOOL)parseImmediatlyWithDelegate:(id)_delegate multipart:(id)_part data:(NSData *)_data { if ([_delegate respondsToSelector: @selector(multipartBodyParser:immediatlyParseBodyOfMultipart:data:)]) { BOOL result; result = [_delegate multipartBodyParser:self immediatlyParseBodyOfMultipart:_part data:_data]; return result; } else return YES; } - (id)parseBodyOfPart:(id)_part data:(NSData *)_data delegate:(id)_d { NGMimeMultipartBody *body; NGMimeType *contentType; NSString *boundary; unsigned len; contentType = [_part contentType]; boundary = [contentType valueOfParameter:@"boundary"]; len = [_data length]; if (len == 0) return nil; if (contentType == nil) { NSLog(@"ERROR [%s]: part %@ has no content type, cannot find out " @"the boundary !", __PRETTY_FUNCTION__, _part); return _data; } if (![contentType isCompositeType]) { NSLog(@"ERROR [%s]: content type %@ of part %@ is not composite !", __PRETTY_FUNCTION__, contentType, _part); return _data; } if (boundary == nil) { if (!(boundary = _searchBoundary(self, _data))) { NSLog(@"ERROR [%s]: no boundary parameter in content " @"type %@ of part %@ !", __PRETTY_FUNCTION__, contentType, _part); return _data; } } if ([boundary length] > 70) { if (MimeLogEnabled) [self logWithFormat:@"WARNING(%s): got boundary longer than 70 chars " @"(not allowed by RFC) in type %@", __PRETTY_FUNCTION__, contentType]; } if ([self parseImmediatlyWithDelegate:_d multipart:_part data:_data]) { body = [[NGMimeMultipartBody alloc] initWithPart:_part]; body = AUTORELEASE(body); if (![self parseBody:body ofMultipart:_part data:_data delegate:_d]) ; // error } else { body = [[NGMimeMultipartBody alloc] initWithPart:_part data:_data delegate:_d]; body = AUTORELEASE(body); } return body; } @end /* NGMimeMultipartBodyParser */