/*************************************************************************** copyright : (C) 2005 by Paul Cifarelli email : paulc2@optonline.net ***************************************************************************/ /*************************************************************************** * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * * This library 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 this library; if not, write to the Free Software * * Foundation, Inc., 51 Franklin St, 5th fl, Boston, MA 02110-1301, * * USA, or check http://www.fsf.org/about/contact.html * * * * Note that no RealNetworks code appears or is duplicated, copied, or * + used as a template in this code. The code was written from scratch * * using the reference documentation found at: * * * * https://common.helixcommunity.org/nonav/2003/HCS_SDK_r5/helixsdk.htm * * * ***************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include "rmff.h" #define UNPACK4(a, buf, i) memcpy((void *)&a, (void *) &buf[i], 4),i+=4,a=ntohl(a) #define UNPACK2(a, buf, i) memcpy((void *)&a, (void *) &buf[i], 2),i+=2,a=ntohs(a) using namespace TagLib; using namespace TagLib::RealMedia; RMFFile::RMFFile(const char *filename) : File(filename), m_id3tag(0) { if (isOpen()) m_id3tag = new ID3v1::Tag(this, length() - 128); } RMFFile::~RMFFile() { delete m_id3tag; } bool RMFFile::save() { ByteVector bv = m_id3tag->render(); //TODO finish this return false; } String RealMediaFF::title () const { return !m_err && m_id3v1tag ? m_id3v1tag->tag()->title() : ""; } String RealMediaFF::artist () const { return !m_err && m_id3v1tag ? m_id3v1tag->tag()->artist() : ""; } String RealMediaFF::album () const { return !m_err && m_id3v1tag ? m_id3v1tag->tag()->album() : ""; } String RealMediaFF::comment() const { return !m_err && m_id3v1tag ? m_id3v1tag->tag()->comment() : ""; } String RealMediaFF::genre() const { return !m_err && m_id3v1tag ? m_id3v1tag->tag()->genre() : ""; } TagLib::uint RealMediaFF::year() const { return !m_err && m_id3v1tag ? m_id3v1tag->tag()->year() : 0; } TagLib::uint RealMediaFF::track() const { return !m_err && m_id3v1tag ? m_id3v1tag->tag()->track() : 0; } // properties int RealMediaFF::length () const { return m_readProperties && !m_err && m_props ? m_props->duration : 0; } int RealMediaFF::bitrate () const { return m_readProperties && !m_err && m_props ? m_props->avg_bit_rate : 0; } int RealMediaFF::sampleRate () const { return 0; } int RealMediaFF::channels () const { return 0; } RealMediaFF::RealMediaFF(const char *file, bool readProperties, AudioProperties::ReadStyle /*propertiesStyle*/) : m_filename(0) , m_head(0) , m_tail(0) , m_err(0) , m_hdr(0) , m_props(0) , media_hdrs(0) , m_contenthdr(0) , m_md(0) , m_title(0) , m_author(0) , m_copyright(0) , m_comment(0) , m_id3v1tag(0) , m_flipYearInMetadataSection(0) , m_readProperties(readProperties) { m_filename = strdup(file); m_fd = open(m_filename, O_RDONLY); if (m_fd < 0) { m_err = -1; return; } // ok, for RM files, the properties are embedded, so we ignore propertiesStyle if (m_readProperties) { init(); // and now for the really complicated stuff... if (initMetadataSection()) std::cerr << "ERROR reading Metadata\n"; } // now get the ID3v1 tag at the end of this file m_id3v1tag = new RMFFile(m_filename); } RealMediaFF::RealMediaFF(RealMediaFF &src) : m_filename(0) , m_head(0) , m_tail(0) , m_err(0) , m_hdr(0) , m_props(0) , media_hdrs(0) , m_contenthdr(0) , m_md(0) , m_title(0) , m_author(0) , m_copyright(0) , m_comment(0) , m_id3v1tag(0) , m_flipYearInMetadataSection(0) , m_readProperties(src.m_readProperties) { m_filename=strdup(src.m_filename); m_fd = open(m_filename, O_RDONLY); if (m_fd < 0) { m_err = -1; return; } // ok, for RM files, the properties are embedded, so we ignore propertiesStyle if (m_readProperties) { init(); // and now for the really complicated stuff... if (initMetadataSection()) std::cerr << "ERROR reading Metadata\n"; } // now get the ID3v1 tag at the end of this file m_id3v1tag = new RMFFile(m_filename); } RealMediaFF::~RealMediaFF() { ::free(m_filename); Collectable *hdr = m_head, *next; while (hdr) { next = hdr->fwd; delete hdr; hdr = next; } delete m_id3v1tag; delete m_md; close(m_fd); } bool RealMediaFF::isEmpty() const { return m_id3v1tag->tag()->isEmpty(); } void RealMediaFF::saveHeader(Collectable *hdr) { hdr->fwd = 0; if (!m_head) m_head = m_tail = hdr; else { m_tail->fwd = hdr; m_tail = hdr; } } int RealMediaFF::init() { int nbytes; unsigned char buf[65536]; UINT32 object_id; UINT32 sz; UINT32 consumed = 0; off_t s; if ( (s = lseek(m_fd, 0, SEEK_SET)) ) { m_err = -1; return m_err; } m_hdr = new File_Header_v0_v1; nbytes = getChunk(buf, 65536, m_hdr->s.object_id, m_hdr->s.size, consumed); if (nbytes < 0 || m_hdr->s.size != consumed || memcmp((void *)&m_hdr->s.object_id, ".RMF", 4)) { //std::cerr << "SERIOUS ERROR - not likely a RealMedia file\n"; m_err = -1; return m_err; } if (!getRealFileHeader(m_hdr, buf, m_hdr->s.object_id, m_hdr->s.size)) { saveHeader(m_hdr); consumed = 0; nbytes = getChunk(buf, 65536, object_id, sz, consumed); if (nbytes < 0 || sz != consumed) { m_err = -1; return m_err; } while (!m_err && memcmp((void *)&object_id, "DATA", 4)) { char oid[5]; memcpy((void *)oid, (void *)&object_id, 4); oid[4] = 0; if (!memcmp((void *)&object_id, "PROP", 4)) { m_props = new RMProperties; getRealPropertyHeader(m_props, buf, object_id, sz); saveHeader(m_props); } if (!memcmp((void *)&object_id, "MDPR", 4)) { media_hdrs = new MediaProperties; getMediaPropHeader(media_hdrs, buf, object_id, sz); saveHeader(media_hdrs); } if (!memcmp((void *)&object_id, "CONT", 4)) { m_contenthdr = new ContentDescription; getContentDescription(m_contenthdr, buf, object_id, sz); saveHeader(m_contenthdr); } consumed = 0; do { nbytes = getChunk(buf, 65536, object_id, sz, consumed); } while ( !m_err && memcmp((void *)&object_id, "DATA", 4) && (consumed < sz) ); } } return 0; } int RealMediaFF::getHdr(unsigned char *buf, size_t sz, UINT32 &fourcc, UINT32 &csz) { int nbytes = 0, i = 0; if (sz < (size_t)RMFF_HDR_SIZE) return 0; if ( (nbytes = read(m_fd, (void *) buf, RMFF_HDR_SIZE)) != RMFF_HDR_SIZE ) { m_err = -1; return (nbytes); } memcpy((void *)&fourcc, buf, 4); i+=4; UNPACK4(csz,buf,i); return nbytes; } int RealMediaFF::getChunk(unsigned char *buf, size_t sz, UINT32 &fourcc, UINT32 &csz, UINT32 &alreadyconsumed) { int nbytes = 0, i = 0, readamount; csz = 0; if (!alreadyconsumed) { if ( (nbytes = getHdr(buf, sz, fourcc, csz)) != RMFF_HDR_SIZE ) { m_err = -1; alreadyconsumed += nbytes > 0 ? nbytes : 0; return nbytes; } alreadyconsumed += RMFF_HDR_SIZE; readamount = csz - RMFF_HDR_SIZE; i = RMFF_HDR_SIZE; } else readamount = csz - alreadyconsumed; if ( (nbytes = read(m_fd, (void *) &buf[i], readamount > (int)sz - i ? (int)sz - i : readamount )) != readamount ) { if (nbytes < 0) { m_err = -1; } else alreadyconsumed += nbytes; return (nbytes<0 ? i : i + nbytes); } alreadyconsumed += nbytes; return (csz); } int RealMediaFF::getRealFileHeader(File_Header_v0_v1 *hdr, const unsigned char *buf, UINT32 object_id, int sz) { int i = 0; // RealMedia header hdr->s.object_id = object_id; hdr->s.size = sz; i = RMFF_HDR_SIZE; UNPACK2(hdr->object_version, buf, i); if ( !strncmp((const char *) &hdr->s.object_id, ".RMF", 4) && (hdr->object_version == 0 || hdr->object_version == 1) ) { UNPACK4(hdr->file_version, buf, i); UNPACK4(hdr->num_headers, buf, i); } return 0; } int RealMediaFF::getRealPropertyHeader(RMProperties *props, const unsigned char *buf, UINT32 object_id, int sz) { int i = 0; // Properties props->s.object_id = object_id; props->s.size = sz; i = RMFF_HDR_SIZE; UNPACK2(props->object_version, buf, i); if ( !strncmp((const char *)&props->s.object_id,"PROP",4) && (props->object_version == 0) ) { UNPACK4(props->max_bit_rate, buf, i); UNPACK4(props->avg_bit_rate, buf, i); UNPACK4(props->max_packet_size, buf, i); UNPACK4(props->avg_packet_size, buf, i); UNPACK4(props->num_packets, buf, i); UNPACK4(props->duration, buf, i); UNPACK4(props->preroll, buf, i); UNPACK4(props->index_offset, buf, i); UNPACK4(props->data_offset, buf, i); UNPACK2(props->num_streams, buf, i); UNPACK2(props->flags, buf, i); } return 0; } int RealMediaFF::getMediaPropHeader(MediaProperties *media_hdr, const unsigned char *buf, UINT32 object_id, int sz) { int i = 0; // Properties media_hdr->s.object_id = object_id; media_hdr->s.size = sz; i = RMFF_HDR_SIZE; UNPACK2(media_hdr->object_version, buf, i); if ( !strncmp((const char *)&media_hdr->s.object_id, "MDPR", 4) && media_hdr->object_version == 0) { UNPACK2(media_hdr->stream_number, buf, i); UNPACK4(media_hdr->max_bit_rate, buf, i); UNPACK4(media_hdr->avg_bit_rate, buf, i); UNPACK4(media_hdr->max_packet_size, buf, i); UNPACK4(media_hdr->avg_packet_size, buf, i); UNPACK4(media_hdr->start_time, buf, i); UNPACK4(media_hdr->preroll, buf, i); UNPACK4(media_hdr->duration, buf, i); media_hdr->stream_name_size = buf[i]; i++; memcpy(media_hdr->stream_name, &buf[i], media_hdr->stream_name_size); media_hdr->stream_name[media_hdr->stream_name_size] = 0; i += media_hdr->stream_name_size; media_hdr->mime_type_size = buf[i]; i++; memcpy(media_hdr->mime_type, &buf[i], media_hdr->mime_type_size); i += media_hdr->mime_type_size; UNPACK4(media_hdr->type_specific_len, buf, i); if (media_hdr->type_specific_len) { media_hdr->type_specific_data = new UINT8[media_hdr->type_specific_len]; memcpy(media_hdr->type_specific_data, &buf[i], media_hdr->type_specific_len); if (!strncmp((const char *)media_hdr->mime_type, "logical-fileinfo", 16)) { media_hdr->lstr = new LogicalStream; UNPACK4(media_hdr->lstr->size, buf, i); UNPACK2(media_hdr->lstr->object_version, buf, i); if (media_hdr->lstr->object_version == 0) { UNPACK2(media_hdr->lstr->num_physical_streams, buf, i); if (media_hdr->lstr->num_physical_streams > 0) { media_hdr->lstr->physical_stream_numbers = new UINT16[ media_hdr->lstr->num_physical_streams ]; media_hdr->lstr->data_offsets = new UINT32[ media_hdr->lstr->num_physical_streams ]; for (int j=0; jlstr->num_physical_streams; j++) { UNPACK2(media_hdr->lstr->physical_stream_numbers[j], buf, i); } for (int j=0; jlstr->num_physical_streams; j++) { UNPACK4(media_hdr->lstr->data_offsets[j], buf, i); } } UNPACK2(media_hdr->lstr->num_rules, buf, i); if (media_hdr->lstr->num_rules > 0) { media_hdr->lstr->rule_to_physical_stream_number_map = new UINT16[ media_hdr->lstr->num_rules ]; for (int j=0; jlstr->num_rules; j++) { UNPACK2(media_hdr->lstr->rule_to_physical_stream_number_map[j], buf, i); } } UNPACK2(media_hdr->lstr->num_properties, buf, i); if (media_hdr->lstr->num_properties > 0) { media_hdr->lstr->properties = new NameValueProperty[ media_hdr->lstr->num_properties ]; for (int j=0; jlstr->num_properties; j++) { UNPACK4(media_hdr->lstr->properties[j].size, buf, i); UNPACK2(media_hdr->lstr->properties[j].object_version, buf, i); if (media_hdr->lstr->properties[j].object_version == 0) { media_hdr->lstr->properties[j].name_length = buf[i]; i++; if (media_hdr->lstr->properties[j].name_length) { media_hdr->lstr->properties[j].name = new UINT8[ media_hdr->lstr->properties[j].name_length + 1]; memcpy((void *)media_hdr->lstr->properties[j].name, (void *)&buf[i], media_hdr->lstr->properties[j].name_length); media_hdr->lstr->properties[j].name[ media_hdr->lstr->properties[j].name_length ] = 0; i+=media_hdr->lstr->properties[j].name_length; } UNPACK4(media_hdr->lstr->properties[j].type, buf, i); UNPACK2(media_hdr->lstr->properties[j].value_length, buf, i); if (media_hdr->lstr->properties[j].value_length) { media_hdr->lstr->properties[j].value_data = new UINT8[ media_hdr->lstr->properties[j].value_length + 1]; memcpy((void *)media_hdr->lstr->properties[j].value_data, (void *)&buf[i], media_hdr->lstr->properties[j].value_length); media_hdr->lstr->properties[j].value_data[ media_hdr->lstr->properties[j].value_length ] = 0; i+=media_hdr->lstr->properties[j].value_length; } } } } } else media_hdr->lstr = 0; } } else media_hdr->type_specific_data = 0; } else { m_err = -1; return m_err; } return 0; } int RealMediaFF::getContentDescription(ContentDescription *cont, const unsigned char *buf, UINT32 object_id, int sz) { int i = 0; // Properties cont->s.object_id = object_id; cont->s.size = sz; i = RMFF_HDR_SIZE; UNPACK2(cont->object_version, buf, i); if ( !strncmp((const char *)&cont->s.object_id, "CONT", 4) && cont->object_version == 0) { UNPACK2(cont->title_len, buf, i); cont->title = new UINT8[cont->title_len + 1]; memcpy((void *)cont->title, (void *)&buf[i], cont->title_len); i+=cont->title_len; m_title = (char *)cont->title; m_title[cont->title_len] = 0; UNPACK2(cont->author_len, buf, i); cont->author = new UINT8[cont->author_len + 1]; memcpy((void *)cont->author, (void *)&buf[i], cont->author_len); i+=cont->author_len; m_author = (char *)cont->author; m_author[cont->author_len] = 0; UNPACK2(cont->copyright_len, buf, i); cont->copyright = new UINT8[cont->copyright_len + 1]; memcpy((void *)cont->copyright, (void *)&buf[i], cont->copyright_len); i+=cont->copyright_len; m_copyright = (char *)cont->copyright; m_copyright[cont->copyright_len] = 0; UNPACK2(cont->comment_len, buf, i); cont->comment = new UINT8[cont->comment_len + 1]; memcpy((void *)cont->comment, (void *)&buf[i], cont->comment_len); i+=cont->comment_len; m_comment = (char *)cont->comment; m_comment[cont->comment_len] = 0; } else { m_err = -1; return m_err; } return 0; } int RealMediaFF::seekChunk(UINT32 object_id) { if (!m_err) { off_t s, tot; UINT32 oid = 0, sz = 0; unsigned char buf[255]; int nbytes = 0; if ( (s = lseek(m_fd, 0, SEEK_SET)) != 0) return -1; tot = 0; while( (nbytes = getHdr(buf, 255, oid, sz)) == RMFF_HDR_SIZE && memcmp((void *)&oid, (void *)&object_id, 4) ) { tot += sz; if (sz > (unsigned) RMFF_HDR_SIZE) { if ( (s = lseek(m_fd, sz - RMFF_HDR_SIZE, SEEK_CUR)) != tot ) return -1; } else return -1; // bail in this case, since the chuck sz includes the header size } if ( (s = lseek(m_fd, -RMFF_HDR_SIZE, SEEK_CUR)) != tot ) return -1; return s; } return -1; } int RealMediaFF::getMDProperties(MDProperties *props, const unsigned char *buf) { int i = 0; int start = i; UNPACK4(props->size, buf, i); UNPACK4(props->type, buf, i); UNPACK4(props->flags, buf, i); UNPACK4(props->value_offset, buf, i); UNPACK4(props->subproperties_offset, buf, i); UNPACK4(props->num_subproperties, buf, i); UNPACK4(props->name_length, buf, i); props->name = new UINT8[ props->name_length + 1 ]; memcpy((void *)props->name, (void *)&buf[i], props->name_length); props->name[ props->name_length ] = 0; i+=props->name_length; i = start + props->value_offset; UNPACK4(props->value_length, buf, i); props->value = new UINT8[ props->value_length ]; memcpy( (void *) props->value, (void *)&buf[i], props->value_length ); if ( (props->type == MPT_ULONG) || (props->type == MPT_FLAG && props->value_length == 4) ) { // wOOt! the Year is a ULONG, and its stored little endian?! my guess is this is a bug in // RealPlayer 10 for Windows (where I created my test files) // This hack is intended to ensure that we at least interpret the Year properly. if (!strcmp((char *)props->name, "Year")) { if ( *(unsigned long *)props->value > 65536 ) { *(unsigned long *)(props->value) = ntohl(*(unsigned long *)(props->value)); m_flipYearInMetadataSection = true; } else m_flipYearInMetadataSection = false; } else *(unsigned long *)(props->value) = ntohl(*(unsigned long *)(props->value)); } i += props->value_length; i = start + props->subproperties_offset; props->subproperties_list = new PropListEntry[ props->num_subproperties ]; for (int j=0; j<(int)props->num_subproperties; j++) { UNPACK4(props->subproperties_list[j].offset, buf, i); UNPACK4(props->subproperties_list[j].num_props_for_name, buf, i); } props->subproperties = new MDProperties[ props->num_subproperties ]; for (int j=0; j<(int)props->num_subproperties; j++) { i = start + props->subproperties_list[j].offset; getMDProperties(&props->subproperties[j], &buf[i]); } return 0; } int RealMediaFF::initMetadataSection() { UINT32 object_id; off_t s; int nbytes; unsigned char buf[65536]; UINT32 consumed; memcpy((void *)&object_id, "RMMD", 4); if ( (s = seekChunk(object_id)) < 0 ) { m_err = -1; return m_err; } m_md = new MetadataSection; consumed = 0; nbytes = getChunk(buf, 65536, m_md->s.object_id, m_md->s.size, consumed); if (nbytes < 0 || m_md->s.size != consumed || memcmp((void *)&m_md->s.object_id, "RMMD", 4)) { //std::cerr << "SERIOUS ERROR - not able to find the chunk I just seek'd to!\n"; m_err = -1; return m_err; } // Properties int i = RMFF_HDR_SIZE; memcpy((void *)&m_md->object_id, (void *)&buf[i], 4); i+=4; UNPACK4(m_md->object_version, buf, i); if ( !strncmp((const char *)&m_md->s.object_id, "RMMD", 4) ) { if (!getMDProperties(&m_md->properties, &buf[i])) saveHeader(m_md); } else { m_err = -1; return m_err; } return 0; } #ifdef TESTING void RealMediaFF::printRealFileHeader(std::ostream &os) { char object_id[5]; if (m_hdr) { strncpy(object_id, (const char *)&m_hdr->s.object_id, 4); object_id[4]=0; os << "HDR object_id: " << object_id << std::endl; os << "HDR size: " << m_hdr->s.size << std::endl; os << "HDR object version: " << m_hdr->object_version << std::endl; os << "HDR file version: " << m_hdr->file_version << std::endl; os << "HDR num headers: " << m_hdr->num_headers << std::endl; } } void RealMediaFF::printRealPropHeader(std::ostream &os) { char object_id[5]; if (m_props) { strncpy(object_id, (const char *)&m_props->s.object_id, 4); object_id[4]=0; os << "PROPS object_id: " << object_id << std::endl; os << "PROPS size: " << m_props->s.size << std::endl; os << "PROPS object_version: " << m_props->object_version << std::endl; os << "PROPS max_bit_rate: " << m_props->max_bit_rate << std::endl; os << "PROPS avg_bit_rate: " << m_props->avg_bit_rate << std::endl; os << "PROPS max_packet_size: " << m_props->max_packet_size << std::endl; os << "PROPS avg_packet_size: " << m_props->avg_packet_size << std::endl; os << "PROPS num_packets: " << m_props->num_packets << std::endl; os << "PROPS duration: " << m_props->duration << std::endl; os << "PROPS preroll: " << m_props->preroll << std::endl; os << "PROPS index_offset: " << m_props->index_offset << std::endl; os << "PROPS data_offset: " << m_props->data_offset << std::endl; os << "PROPS num_streams: " << m_props->num_streams << std::endl; os << "PROPS flags: " << m_props->flags << std::endl; } } void RealMediaFF::printMediaPropHeaders(std::ostream &os) { int i = 0; char object_id[5]; MediaProperties *media_hdr = (MediaProperties *)m_head; while (media_hdr) { strncpy(object_id, (const char *)&media_hdr->s.object_id, 4); object_id[4]=0; if (!strncmp(object_id, "MDPR", 4)) { os << "MEDIA HDR" <s.size << std::endl; os << "MEDIA HDR" <max_bit_rate << std::endl; os << "MEDIA HDR" <avg_bit_rate << std::endl; os << "MEDIA HDR" <max_packet_size << std::endl; os << "MEDIA HDR" <avg_packet_size << std::endl; os << "MEDIA HDR" <start_time << std::endl; os << "MEDIA HDR" <preroll << std::endl; os << "MEDIA HDR" <duration << std::endl; os << "MEDIA HDR" <stream_name << std::endl; os << "MEDIA HDR" <mime_type << std::endl; if (media_hdr->lstr) { os << "MEDIA HDR" <lstr->size << std::endl; os << "MEDIA HDR" <lstr->num_physical_streams << std::endl; os << "MEDIA HDR" <lstr->num_rules << std::endl; os << "MEDIA HDR" <lstr->num_properties << std::endl; for (int j=0; media_hdr->lstr->properties && jlstr->num_properties; j++) { if (media_hdr->lstr->properties[j].name) os << "MEDIA HDR" <lstr->properties[j].name << std::endl; os << "MEDIA HDR" <lstr->properties[j].type << std::endl; os << "MEDIA HDR" <lstr->properties[j].value_length << std::endl; if (media_hdr->lstr->properties[j].value_data) { if (media_hdr->lstr->properties[j].type == 0) os << "MEDIA HDR" <lstr->properties[j].value_data << std::endl; else if (media_hdr->lstr->properties[j].type == 2) os << "MEDIA HDR" <lstr->properties[j].value_data << std::endl; else os << "MEDIA HDR" <fwd; } } void RealMediaFF::printContentDescription(std::ostream &os) { char object_id[5]; if (m_contenthdr) { strncpy(object_id, (const char *)&m_contenthdr->s.object_id, 4); object_id[4]=0; os << "CONT object_id: " << object_id << std::endl; os << "CONT title(" << m_contenthdr->title_len << "):\t\t<" << m_contenthdr->title << ">" << std::endl; os << "CONT author(" << m_contenthdr->author_len << "):\t\t<" << m_contenthdr->author << ">" << std::endl; os << "CONT copyright(" << m_contenthdr->copyright_len << "):\t\t<" << m_contenthdr->copyright << ">" << std::endl; os << "CONT comment(" << m_contenthdr->comment_len << "):\t\t<" << m_contenthdr->comment << ">" << std::endl; } } void RealMediaFF::printID3v1Tag(std::ostream &os) { if (m_id3v1tag) { os << "ID3 tag : " << ID3v1::Tag::fileIdentifier() << std::endl; os << "ID3 title : " << m_id3v1tag->tag()->title() << std::endl; os << "ID3 artist : " << m_id3v1tag->tag()->artist() << std::endl; os << "ID3 album : " << m_id3v1tag->tag()->album() << std::endl; os << "ID3 year : " << m_id3v1tag->tag()->year() << std::endl; os << "ID3 comment : " << m_id3v1tag->tag()->comment() << std::endl; os << "ID3 track : " << m_id3v1tag->tag()->track() << std::endl; os << "ID3 genre : " << m_id3v1tag->tag()->genre() << std::endl; } } void RealMediaFF::printMDProperties(std::ostream &os, char *nam, MDProperties *props) { char name[8192]; strcpy(name, nam); os << "MDP subproperties for: " << name << std::endl; os << "MD properties.size: " << props->size << std::endl; os << "MD properties.type: " << props->type << std::endl; os << "MD properties.flags: " << props->flags << std::endl; os << "MD properties.value_offset: " << props->value_offset << std::endl; os << "MD properties.subproperties_offset: " << props->subproperties_offset << std::endl; os << "MD properties.num_subproperties: " << props->num_subproperties << std::endl; os << "MD properties.name_length: " << props->name_length << std::endl; os << "MD properties.name: " << (char *)props->name << std::endl; os << "MD properties.value_length: " << props->value_length << std::endl; switch (props->type) { case MPT_TEXT: case MPT_TEXTLIST: case MPT_URL: case MPT_DATE: case MPT_FILENAME: os << "MD properties.value: " << (char *)props->value << std::endl; break; case MPT_FLAG: if (props->value_length == 4) os << "MD properties.value: " << *(unsigned long *)props->value << std::endl; else os << "MD properties.value: " << *props->value << std::endl; break; case MPT_ULONG: os << "MD properties.value: " << *(unsigned long *)props->value << std::endl; break; case MPT_BINARY: os << "MD properties.value: " << std::endl; break; case MPT_GROUPING: os << "MD properties.value: " << std::endl; break; case MPT_REFERENCE: os << "MD properties.value: " << std::endl; break; } if (props->num_subproperties) { strcat(name, (char *)props->name); strcat(name, "/"); } for (int j=0; jnum_subproperties; j++) { os << "MD properties.sub_properties_list[" << j << "].offset: " << props->subproperties_list[j].offset << std::endl; os << "MD properties.sub_properties_list[" << j << "].num_props_for_name: " << props->subproperties_list[j].num_props_for_name << std::endl; os << std::endl; printMDProperties(os, name, &props->subproperties[j]); } } void RealMediaFF::printMetadataSection(std::ostream &os) { char name[8192]; char oid[5]; memcpy((void *)oid, (void *)&m_md->s.object_id, 4); oid[4] = 0; os << "MetadataSection: "; os << "MS object_id: " << oid << std::endl; os << "MS SIZE: " << m_md->s.size << std::endl; os << "MD object_id: " << (char *)&m_md->object_id << std::endl; os << "MD object_version: " << m_md->object_version << std::endl; os << std::endl; strcpy(name, ""); printMDProperties(os, name, &m_md->properties); } std::ostream &RealMediaFF::operator<<(std::ostream &os) { if (m_readProperties) { printRealFileHeader(os); printRealPropHeader(os); printMediaPropHeaders(os); printContentDescription(os); printMetadataSection(os); } printID3v1Tag(os); return os; } std::ostream &operator<<(std::ostream &os, RealMediaFF &rmff) { rmff.operator<<(os); return os; } int main(int argc, char *argv[]) { char *m_filen; if (argc > 1) m_filen = argv[1]; else m_filen = "./Drown.ra"; RealMediaFF rmff(m_filen); if (!rmff.err()) std::cout << rmff; /* UINT32 oid = 0; memcpy( (void *)&oid, (void *) ".RMF", 4); off_t pos = rmff.seekChunk(oid); std::cout << "POS=" << pos << std::endl; memcpy( (void *)&oid, (void *) "MDPR", 4); pos = rmff.seekChunk(oid); std::cout << "POS=" << pos << std::endl; memcpy( (void *)&oid, (void *) "RMMD", 4); pos = rmff.seekChunk(oid); std::cout << "POS=" << pos << std::endl; */ } #endif