/* * mpegtspacketizer.c - * Copyright (C) 2007, 2008 Alessandro Decina, Zaheer Merali * * Authors: * Zaheer Merali * Alessandro Decina * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #include #include "mpegtspacketizer.h" #include "gstmpegdesc.h" GST_DEBUG_CATEGORY_STATIC (mpegts_packetizer_debug); #define GST_CAT_DEFAULT mpegts_packetizer_debug static GQuark QUARK_PAT; static GQuark QUARK_TRANSPORT_STREAM_ID; static GQuark QUARK_PROGRAM_NUMBER; static GQuark QUARK_PID; static GQuark QUARK_PROGRAMS; static GQuark QUARK_PMT; static GQuark QUARK_PCR_PID; static GQuark QUARK_VERSION_NUMBER; static GQuark QUARK_DESCRIPTORS; static GQuark QUARK_STREAM_TYPE; static GQuark QUARK_STREAMS; static GQuark QUARK_NIT; static GQuark QUARK_NETWORK_ID; static GQuark QUARK_CURRENT_NEXT_INDICATOR; static GQuark QUARK_ACTUAL_NETWORK; static GQuark QUARK_NETWORK_NAME; static GQuark QUARK_TRANSPORT_STREAM_ID; static GQuark QUARK_ORIGINAL_NETWORK_ID; static GQuark QUARK_TRANSPORTS; static GQuark QUARK_SDT; static GQuark QUARK_ACTUAL_TRANSPORT_STREAM; static GQuark QUARK_SERVICES; static GQuark QUARK_EIT; static GQuark QUARK_SERVICE_ID; static GQuark QUARK_PRESENT_FOLLOWING; static GQuark QUARK_SEGMENT_LAST_SECTION_NUMBER; static GQuark QUARK_LAST_TABLE_ID; static GQuark QUARK_EVENTS; static void _init_local (void); G_DEFINE_TYPE_EXTENDED (MpegTSPacketizer, mpegts_packetizer, G_TYPE_OBJECT, 0, _init_local ()); static void mpegts_packetizer_dispose (GObject * object); static void mpegts_packetizer_finalize (GObject * object); static gchar *convert_to_utf8 (const gchar * text, gint length, guint start, const gchar * encoding, gboolean is_multibyte, GError ** error); static gchar *get_encoding (const gchar * text, guint * start_text, gboolean * is_multibyte); static gchar *get_encoding_and_convert (const gchar * text, guint length); #define CONTINUITY_UNSET 255 #define MAX_CONTINUITY 15 #define VERSION_NUMBER_UNSET 255 #define TABLE_ID_UNSET 0xFF static gint mpegts_packetizer_stream_subtable_compare (gconstpointer a, gconstpointer b) { MpegTSPacketizerStreamSubtable *asub, *bsub; asub = (MpegTSPacketizerStreamSubtable *) a; bsub = (MpegTSPacketizerStreamSubtable *) b; if (asub->table_id == bsub->table_id && asub->subtable_extension == bsub->subtable_extension) return 0; return -1; } static MpegTSPacketizerStreamSubtable * mpegts_packetizer_stream_subtable_new (guint8 table_id, guint16 subtable_extension) { MpegTSPacketizerStreamSubtable *subtable; subtable = g_new0 (MpegTSPacketizerStreamSubtable, 1); subtable->version_number = VERSION_NUMBER_UNSET; subtable->table_id = table_id; subtable->subtable_extension = subtable_extension; return subtable; } static MpegTSPacketizerStream * mpegts_packetizer_stream_new () { MpegTSPacketizerStream *stream; stream = (MpegTSPacketizerStream *) g_new0 (MpegTSPacketizerStream, 1); stream->section_adapter = gst_adapter_new (); stream->continuity_counter = CONTINUITY_UNSET; stream->subtables = NULL; stream->section_table_id = TABLE_ID_UNSET; return stream; } static void mpegts_packetizer_stream_free (MpegTSPacketizerStream * stream) { gst_adapter_clear (stream->section_adapter); g_object_unref (stream->section_adapter); g_slist_foreach (stream->subtables, (GFunc) g_free, NULL); g_slist_free (stream->subtables); g_free (stream); } static void mpegts_packetizer_clear_section (MpegTSPacketizer * packetizer, MpegTSPacketizerStream * stream) { gst_adapter_clear (stream->section_adapter); stream->continuity_counter = CONTINUITY_UNSET; stream->section_length = 0; stream->section_table_id = TABLE_ID_UNSET; } static void mpegts_packetizer_class_init (MpegTSPacketizerClass * klass) { GObjectClass *gobject_class; gobject_class = G_OBJECT_CLASS (klass); gobject_class->dispose = mpegts_packetizer_dispose; gobject_class->finalize = mpegts_packetizer_finalize; } static void mpegts_packetizer_init (MpegTSPacketizer * packetizer) { packetizer->adapter = gst_adapter_new (); packetizer->streams = g_new0 (MpegTSPacketizerStream *, 8192); packetizer->know_packet_size = FALSE; } static void mpegts_packetizer_dispose (GObject * object) { MpegTSPacketizer *packetizer = GST_MPEGTS_PACKETIZER (object); if (!packetizer->disposed) { if (packetizer->know_packet_size && packetizer->caps != NULL) { gst_caps_unref (packetizer->caps); packetizer->caps = NULL; packetizer->know_packet_size = FALSE; } if (packetizer->streams) { int i; for (i = 0; i < 8192; i++) { if (packetizer->streams[i]) mpegts_packetizer_stream_free (packetizer->streams[i]); } g_free (packetizer->streams); } gst_adapter_clear (packetizer->adapter); g_object_unref (packetizer->adapter); packetizer->disposed = TRUE; } if (G_OBJECT_CLASS (mpegts_packetizer_parent_class)->dispose) G_OBJECT_CLASS (mpegts_packetizer_parent_class)->dispose (object); } static void mpegts_packetizer_finalize (GObject * object) { if (G_OBJECT_CLASS (mpegts_packetizer_parent_class)->finalize) G_OBJECT_CLASS (mpegts_packetizer_parent_class)->finalize (object); } static gboolean mpegts_packetizer_parse_adaptation_field_control (MpegTSPacketizer * packetizer, MpegTSPacketizerPacket * packet) { guint8 length; length = *packet->data; packet->data += 1; if (packet->adaptation_field_control == 0x02) { /* no payload, adaptation field of 183 bytes */ if (length != 183) { GST_DEBUG ("PID %d afc == 0x%x and length %d != 183", packet->pid, packet->adaptation_field_control, length); } } else if (length > 182) { GST_DEBUG ("PID %d afc == 0x%01x and length %d > 182", packet->pid, packet->adaptation_field_control, length); } /* skip the adaptation field body for now */ if (packet->data + length > packet->data_end) { GST_DEBUG ("PID %d afc length %d overflows the buffer current %d max %d", packet->pid, length, (gint) (packet->data - packet->data_start), (gint) (packet->data_end - packet->data_start)); return FALSE; } packet->data += length; return TRUE; } static gboolean mpegts_packetizer_parse_packet (MpegTSPacketizer * packetizer, MpegTSPacketizerPacket * packet) { guint8 *data; data = GST_BUFFER_DATA (packet->buffer); /* skip sync_byte */ data++; packet->payload_unit_start_indicator = (*data >> 6) & 0x01; packet->pid = GST_READ_UINT16_BE (data) & 0x1FFF; data += 2; packet->adaptation_field_control = (*data >> 4) & 0x03; packet->continuity_counter = *data & 0x0F; data += 1; packet->data = data; if (packet->adaptation_field_control & 0x02) if (!mpegts_packetizer_parse_adaptation_field_control (packetizer, packet)) return FALSE; if (packet->adaptation_field_control & 0x01) packet->payload = packet->data; else packet->payload = NULL; return TRUE; } static gboolean mpegts_packetizer_parse_section_header (MpegTSPacketizer * packetizer, MpegTSPacketizerStream * stream, MpegTSPacketizerSection * section) { guint8 tmp; guint8 *data; MpegTSPacketizerStreamSubtable *subtable; GSList *subtable_list = NULL; section->complete = TRUE; /* get the section buffer, pass the ownership to the caller */ section->buffer = gst_adapter_take_buffer (stream->section_adapter, 3 + stream->section_length); data = GST_BUFFER_DATA (section->buffer); section->table_id = *data++; /* if table_id is 0 (pat) then ignore the subtable extension */ if ((data[0] & 0x80) == 0 || section->table_id == 0) section->subtable_extension = 0; else section->subtable_extension = GST_READ_UINT16_BE (data + 2); subtable = mpegts_packetizer_stream_subtable_new (section->table_id, section->subtable_extension); subtable_list = g_slist_find_custom (stream->subtables, subtable, mpegts_packetizer_stream_subtable_compare); if (subtable_list) { g_free (subtable); subtable = (MpegTSPacketizerStreamSubtable *) (subtable_list->data); } else { stream->subtables = g_slist_prepend (stream->subtables, subtable); } section->section_length = GST_READ_UINT16_BE (data) & 0x0FFF; data += 2; /* skip to the version byte */ data += 2; tmp = *data++; section->version_number = (tmp >> 1) & 0x1F; section->current_next_indicator = tmp & 0x01; if (!section->current_next_indicator) goto not_applicable; if (section->version_number == subtable->version_number) goto not_applicable; subtable->version_number = section->version_number; stream->section_table_id = section->table_id; return TRUE; not_applicable: GST_LOG ("not applicable pid %d table_id %d subtable_extension %d, current_next %d version %d", section->pid, section->table_id, section->subtable_extension, section->current_next_indicator, section->version_number); section->complete = FALSE; gst_buffer_unref (section->buffer); return TRUE; } static gboolean mpegts_packetizer_parse_descriptors (MpegTSPacketizer * packetizer, guint8 ** buffer, guint8 * buffer_end, GValueArray * descriptors) { guint8 tag, length; guint8 *data; GValue value = { 0 }; GString *desc; data = *buffer; while (data < buffer_end) { tag = *data++; length = *data++; if (data + length > buffer_end) { GST_WARNING ("invalid descriptor length %d now at %d max %d", length, (gint) (data - *buffer), (gint) (buffer_end - *buffer)); goto error; } /* include tag and length */ desc = g_string_new_len ((gchar *) data - 2, length + 2); data += length; /* G_TYPE_GSTING is a GBoxed type and is used so properly marshalled from python */ g_value_init (&value, G_TYPE_GSTRING); g_value_take_boxed (&value, desc); g_value_array_append (descriptors, &value); g_value_unset (&value); } if (data != buffer_end) { GST_WARNING ("descriptors size %d expected %d", (gint) (data - *buffer), (gint) (buffer_end - *buffer)); goto error; } *buffer = data; return TRUE; error: return FALSE; } GstStructure * mpegts_packetizer_parse_pat (MpegTSPacketizer * packetizer, MpegTSPacketizerSection * section) { GstStructure *pat_info = NULL; guint8 *data, *end; guint transport_stream_id; guint8 tmp; guint program_number; guint pmt_pid; GValue entries = { 0 }; GValue value = { 0 }; GstStructure *entry = NULL; gchar *struct_name; data = GST_BUFFER_DATA (section->buffer); section->table_id = *data++; section->section_length = GST_READ_UINT16_BE (data) & 0x0FFF; data += 2; transport_stream_id = GST_READ_UINT16_BE (data); data += 2; tmp = *data++; section->version_number = (tmp >> 1) & 0x1F; section->current_next_indicator = tmp & 0x01; /* skip section_number and last_section_number */ data += 2; pat_info = gst_structure_id_new (QUARK_PAT, QUARK_TRANSPORT_STREAM_ID, G_TYPE_UINT, transport_stream_id, NULL); g_value_init (&entries, GST_TYPE_LIST); /* stop at the CRC */ end = GST_BUFFER_DATA (section->buffer) + GST_BUFFER_SIZE (section->buffer); while (data < end - 4) { program_number = GST_READ_UINT16_BE (data); data += 2; pmt_pid = GST_READ_UINT16_BE (data) & 0x1FFF; data += 2; struct_name = g_strdup_printf ("program-%d", program_number); entry = gst_structure_new (struct_name, NULL); g_free (struct_name); gst_structure_id_set (entry, QUARK_PROGRAM_NUMBER, G_TYPE_UINT, program_number, QUARK_PID, G_TYPE_UINT, pmt_pid, NULL); g_value_init (&value, GST_TYPE_STRUCTURE); g_value_take_boxed (&value, entry); gst_value_list_append_value (&entries, &value); g_value_unset (&value); } gst_structure_id_set_value (pat_info, QUARK_PROGRAMS, &entries); g_value_unset (&entries); if (data != end - 4) { /* FIXME: check the CRC before parsing the packet */ GST_ERROR ("at the end of PAT data != end - 4"); gst_structure_free (pat_info); return NULL; } return pat_info; } GstStructure * mpegts_packetizer_parse_pmt (MpegTSPacketizer * packetizer, MpegTSPacketizerSection * section) { GstStructure *pmt = NULL; guint8 *data, *end; guint16 program_number; guint8 tmp; guint pcr_pid; guint program_info_length; guint8 stream_type; guint16 pid; guint stream_info_length; GValueArray *descriptors; GValue stream_value = { 0 }; GValue programs = { 0 }; GstStructure *stream_info = NULL; gchar *struct_name; /* fixed header + CRC == 16 */ if (GST_BUFFER_SIZE (section->buffer) < 16) { GST_WARNING ("PID %d invalid PMT size %d", section->pid, section->section_length); goto error; } data = GST_BUFFER_DATA (section->buffer); end = data + GST_BUFFER_SIZE (section->buffer); section->table_id = *data++; section->section_length = GST_READ_UINT16_BE (data) & 0x0FFF; data += 2; program_number = GST_READ_UINT16_BE (data); data += 2; tmp = *data++; section->version_number = (tmp >> 1) & 0x1F; section->current_next_indicator = tmp & 0x01; /* skip section_number and last_section_number */ data += 2; pcr_pid = GST_READ_UINT16_BE (data) & 0x1FFF; data += 2; program_info_length = GST_READ_UINT16_BE (data) & 0x0FFF; data += 2; pmt = gst_structure_id_new (QUARK_PMT, QUARK_PROGRAM_NUMBER, G_TYPE_UINT, program_number, QUARK_PCR_PID, G_TYPE_UINT, pcr_pid, QUARK_VERSION_NUMBER, G_TYPE_UINT, section->version_number, NULL); if (program_info_length) { /* check that the buffer is large enough to contain at least * program_info_length bytes + CRC */ if (data + program_info_length + 4 > end) { GST_WARNING ("PID %d invalid program info length %d left %d", section->pid, program_info_length, (gint) (end - data)); goto error; } descriptors = g_value_array_new (0); if (!mpegts_packetizer_parse_descriptors (packetizer, &data, data + program_info_length, descriptors)) { g_value_array_free (descriptors); goto error; } gst_structure_id_set (pmt, QUARK_DESCRIPTORS, G_TYPE_VALUE_ARRAY, descriptors, NULL); g_value_array_free (descriptors); } g_value_init (&programs, GST_TYPE_LIST); /* parse entries, cycle until there's space for another entry (at least 5 * bytes) plus the CRC */ while (data <= end - 4 - 5) { stream_type = *data++; pid = GST_READ_UINT16_BE (data) & 0x1FFF; data += 2; stream_info_length = GST_READ_UINT16_BE (data) & 0x0FFF; data += 2; if (data + stream_info_length + 4 > end) { GST_WARNING ("PID %d invalid stream info length %d left %d", section->pid, stream_info_length, (gint) (end - data)); g_value_unset (&programs); goto error; } struct_name = g_strdup_printf ("pid-%d", pid); stream_info = gst_structure_new (struct_name, NULL); g_free (struct_name); gst_structure_id_set (stream_info, QUARK_PID, G_TYPE_UINT, pid, QUARK_STREAM_TYPE, G_TYPE_UINT, stream_type, NULL); if (stream_info_length) { /* check for AC3 descriptor */ GstMPEGDescriptor *desc = gst_mpeg_descriptor_parse (data, stream_info_length); if (desc != NULL) { guint8 *desc_data; if (gst_mpeg_descriptor_find (desc, DESC_DVB_AC3)) { gst_structure_set (stream_info, "has-ac3", G_TYPE_BOOLEAN, TRUE, NULL); } desc_data = gst_mpeg_descriptor_find (desc, DESC_DVB_DATA_BROADCAST_ID); if (desc_data) { guint16 data_broadcast_id; data_broadcast_id = DESC_DVB_DATA_BROADCAST_ID_data_broadcast_id (desc_data); gst_structure_set (stream_info, "data-broadcast-id", G_TYPE_UINT, data_broadcast_id, NULL); } desc_data = gst_mpeg_descriptor_find (desc, DESC_DVB_DATA_BROADCAST); if (desc_data) { GstStructure *databroadcast_info; guint16 data_broadcast_id; guint8 component_tag; data_broadcast_id = DESC_DVB_DATA_BROADCAST_data_broadcast_id (desc_data); component_tag = DESC_DVB_DATA_BROADCAST_component_tag (desc_data); databroadcast_info = gst_structure_new ("data-broadcast", "id", G_TYPE_UINT, data_broadcast_id, "component-tag", component_tag, NULL); gst_structure_set (stream_info, "data-broadcast", GST_TYPE_STRUCTURE, databroadcast_info, NULL); } desc_data = gst_mpeg_descriptor_find (desc, DESC_DVB_CAROUSEL_IDENTIFIER); if (desc_data) { guint32 carousel_id; carousel_id = DESC_DVB_CAROUSEL_IDENTIFIER_carousel_id (desc_data); gst_structure_set (stream_info, "carousel-id", G_TYPE_UINT, carousel_id, NULL); } desc_data = gst_mpeg_descriptor_find (desc, DESC_DVB_STREAM_IDENTIFIER); if (desc_data) { guint8 component_tag; component_tag = DESC_DVB_STREAM_IDENTIFIER_component_tag (desc_data); gst_structure_set (stream_info, "component-tag", G_TYPE_UINT, component_tag, NULL); } gst_mpeg_descriptor_free (desc); } descriptors = g_value_array_new (0); if (!mpegts_packetizer_parse_descriptors (packetizer, &data, data + stream_info_length, descriptors)) { g_value_unset (&programs); gst_structure_free (stream_info); g_value_array_free (descriptors); goto error; } gst_structure_id_set (stream_info, QUARK_DESCRIPTORS, G_TYPE_VALUE_ARRAY, descriptors, NULL); g_value_array_free (descriptors); } g_value_init (&stream_value, GST_TYPE_STRUCTURE); g_value_take_boxed (&stream_value, stream_info); gst_value_list_append_value (&programs, &stream_value); g_value_unset (&stream_value); } gst_structure_id_set_value (pmt, QUARK_STREAMS, &programs); g_value_unset (&programs); g_assert (data == end - 4); return pmt; error: if (pmt) gst_structure_free (pmt); return NULL; } GstStructure * mpegts_packetizer_parse_nit (MpegTSPacketizer * packetizer, MpegTSPacketizerSection * section) { GstStructure *nit = NULL, *transport = NULL, *delivery_structure = NULL; guint8 *data, *end, *entry_begin; guint16 network_id, transport_stream_id, original_network_id; guint tmp; guint16 descriptors_loop_length, transport_stream_loop_length; GValue transports = { 0 }; GValue transport_value = { 0 }; GValueArray *descriptors = NULL; GST_DEBUG ("NIT"); /* fixed header + CRC == 16 */ if (GST_BUFFER_SIZE (section->buffer) < 23) { GST_WARNING ("PID %d invalid NIT size %d", section->pid, section->section_length); goto error; } data = GST_BUFFER_DATA (section->buffer); end = data + GST_BUFFER_SIZE (section->buffer); section->table_id = *data++; section->section_length = GST_READ_UINT16_BE (data) & 0x0FFF; data += 2; if (data + section->section_length != end) { GST_WARNING ("PID %d invalid NIT section length %d expected %d", section->pid, section->section_length, (gint) (end - data)); goto error; } network_id = GST_READ_UINT16_BE (data); data += 2; tmp = *data++; section->version_number = (tmp >> 1) & 0x1F; section->current_next_indicator = tmp & 0x01; /* skip section_number and last_section_number */ data += 2; descriptors_loop_length = GST_READ_UINT16_BE (data) & 0x0FFF; data += 2; nit = gst_structure_id_new (QUARK_NIT, QUARK_NETWORK_ID, G_TYPE_UINT, network_id, QUARK_VERSION_NUMBER, G_TYPE_UINT, section->version_number, QUARK_CURRENT_NEXT_INDICATOR, G_TYPE_UINT, section->current_next_indicator, QUARK_ACTUAL_NETWORK, G_TYPE_BOOLEAN, section->table_id == 0x40, NULL); /* see if the buffer is large enough */ if (descriptors_loop_length) { guint8 *networkname_descriptor; GstMPEGDescriptor *mpegdescriptor; if (data + descriptors_loop_length > end - 4) { GST_WARNING ("PID %d invalid NIT descriptors loop length %d", section->pid, descriptors_loop_length); gst_structure_free (nit); goto error; } mpegdescriptor = gst_mpeg_descriptor_parse (data, descriptors_loop_length); networkname_descriptor = gst_mpeg_descriptor_find (mpegdescriptor, DESC_DVB_NETWORK_NAME); if (networkname_descriptor != NULL) { gchar *networkname_tmp; /* No need to bounds check this value as it comes from the descriptor length itself */ guint8 networkname_length = DESC_DVB_NETWORK_NAME_length (networkname_descriptor); gchar *networkname = (gchar *) DESC_DVB_NETWORK_NAME_text (networkname_descriptor); networkname_tmp = get_encoding_and_convert (networkname, networkname_length); gst_structure_id_set (nit, QUARK_NETWORK_NAME, G_TYPE_STRING, networkname_tmp, NULL); g_free (networkname_tmp); } gst_mpeg_descriptor_free (mpegdescriptor); descriptors = g_value_array_new (0); if (!mpegts_packetizer_parse_descriptors (packetizer, &data, data + descriptors_loop_length, descriptors)) { gst_structure_free (nit); g_value_array_free (descriptors); goto error; } gst_structure_id_set (nit, QUARK_DESCRIPTORS, G_TYPE_VALUE_ARRAY, descriptors, NULL); g_value_array_free (descriptors); } transport_stream_loop_length = GST_READ_UINT16_BE (data) & 0x0FFF; data += 2; g_value_init (&transports, GST_TYPE_LIST); /* read up to the CRC */ while (transport_stream_loop_length - 4 > 0) { gchar *transport_name; entry_begin = data; if (transport_stream_loop_length < 10) { /* each entry must be at least 6 bytes (+ 4bytes CRC) */ GST_WARNING ("PID %d invalid NIT entry size %d", section->pid, transport_stream_loop_length); goto error; } transport_stream_id = GST_READ_UINT16_BE (data); data += 2; original_network_id = GST_READ_UINT16_BE (data); data += 2; descriptors_loop_length = GST_READ_UINT16_BE (data) & 0x0FFF; data += 2; transport_name = g_strdup_printf ("transport-%d", transport_stream_id); transport = gst_structure_new (transport_name, NULL); g_free (transport_name); gst_structure_id_set (transport, QUARK_TRANSPORT_STREAM_ID, G_TYPE_UINT, transport_stream_id, QUARK_ORIGINAL_NETWORK_ID, G_TYPE_UINT, original_network_id, NULL); if (descriptors_loop_length) { GstMPEGDescriptor *mpegdescriptor; guint8 *delivery; if (data + descriptors_loop_length > end - 4) { GST_WARNING ("PID %d invalid NIT entry %d descriptors loop length %d", section->pid, transport_stream_id, descriptors_loop_length); gst_structure_free (transport); goto error; } mpegdescriptor = gst_mpeg_descriptor_parse (data, descriptors_loop_length); if ((delivery = gst_mpeg_descriptor_find (mpegdescriptor, DESC_DVB_SATELLITE_DELIVERY_SYSTEM))) { guint8 *frequency_bcd = DESC_DVB_SATELLITE_DELIVERY_SYSTEM_frequency (delivery); guint32 frequency = 10 * ((frequency_bcd[3] & 0x0F) + 10 * ((frequency_bcd[3] & 0xF0) >> 4) + 100 * (frequency_bcd[2] & 0x0F) + 1000 * ((frequency_bcd[2] & 0xF0) >> 4) + 10000 * (frequency_bcd[1] & 0x0F) + 100000 * ((frequency_bcd[1] & 0xF0) >> 4) + 1000000 * (frequency_bcd[0] & 0x0F) + 10000000 * ((frequency_bcd[0] & 0xF0) >> 4)); guint8 *orbital_bcd = DESC_DVB_SATELLITE_DELIVERY_SYSTEM_orbital_position (delivery); gfloat orbital = (orbital_bcd[1] & 0x0F) / 10. + ((orbital_bcd[1] & 0xF0) >> 4) + 10 * (orbital_bcd[0] & 0x0F) + 100 * ((orbital_bcd[0] & 0xF0) >> 4); gboolean east = DESC_DVB_SATELLITE_DELIVERY_SYSTEM_west_east_flag (delivery); guint8 polarization = DESC_DVB_SATELLITE_DELIVERY_SYSTEM_polarization (delivery); gchar *polarization_str; guint8 modulation = DESC_DVB_SATELLITE_DELIVERY_SYSTEM_modulation (delivery); gchar *modulation_str; guint8 *symbol_rate_bcd = DESC_DVB_SATELLITE_DELIVERY_SYSTEM_symbol_rate (delivery); guint32 symbol_rate = (symbol_rate_bcd[2] & 0x0F) + 10 * ((symbol_rate_bcd[2] & 0xF0) >> 4) + 100 * (symbol_rate_bcd[1] & 0x0F) + 1000 * ((symbol_rate_bcd[1] & 0xF0) >> 4) + 10000 * (symbol_rate_bcd[0] & 0x0F) + 100000 * ((symbol_rate_bcd[0] & 0xF0) >> 4); guint8 fec_inner = DESC_DVB_SATELLITE_DELIVERY_SYSTEM_fec_inner (delivery); gchar *fec_inner_str; switch (polarization) { case 0: polarization_str = "horizontal"; break; case 1: polarization_str = "vertical"; break; case 2: polarization_str = "left"; break; case 3: polarization_str = "right"; break; default: polarization_str = ""; } switch (fec_inner) { case 0: fec_inner_str = "undefined"; break; case 1: fec_inner_str = "1/2"; break; case 2: fec_inner_str = "2/3"; break; case 3: fec_inner_str = "3/4"; break; case 4: fec_inner_str = "5/6"; break; case 5: fec_inner_str = "7/8"; break; case 6: fec_inner_str = "8/9"; break; case 0xF: fec_inner_str = "none"; break; default: fec_inner_str = "reserved"; } switch (modulation) { case 0x00: modulation_str = "undefined"; break; case 0x01: modulation_str = "QAM16"; break; case 0x02: modulation_str = "QAM32"; break; case 0x03: modulation_str = "QAM64"; break; case 0x04: modulation_str = "QAM128"; break; case 0x05: modulation_str = "QAM256"; break; default: modulation_str = "reserved"; } delivery_structure = gst_structure_new ("satellite", "orbital", G_TYPE_FLOAT, orbital, "east-or-west", G_TYPE_STRING, east ? "east" : "west", "modulation", G_TYPE_STRING, modulation_str, "frequency", G_TYPE_UINT, frequency, "polarization", G_TYPE_STRING, polarization_str, "symbol-rate", G_TYPE_UINT, symbol_rate, "inner-fec", G_TYPE_STRING, fec_inner_str, NULL); gst_structure_set (transport, "delivery", GST_TYPE_STRUCTURE, delivery_structure, NULL); } else if ((delivery = gst_mpeg_descriptor_find (mpegdescriptor, DESC_DVB_TERRESTRIAL_DELIVERY_SYSTEM))) { guint32 frequency = DESC_DVB_TERRESTRIAL_DELIVERY_SYSTEM_frequency (delivery) * 10; guint8 bandwidth = DESC_DVB_TERRESTRIAL_DELIVERY_SYSTEM_bandwidth (delivery); guint8 constellation = DESC_DVB_TERRESTRIAL_DELIVERY_SYSTEM_constellation (delivery); guint8 hierarchy = DESC_DVB_TERRESTRIAL_DELIVERY_SYSTEM_hierarchy (delivery); guint8 code_rate_hp = DESC_DVB_TERRESTRIAL_DELIVERY_SYSTEM_code_rate_hp (delivery); guint8 code_rate_lp = DESC_DVB_TERRESTRIAL_DELIVERY_SYSTEM_code_rate_lp (delivery); guint8 guard_interval = DESC_DVB_TERRESTRIAL_DELIVERY_SYSTEM_guard_interval (delivery); guint8 transmission_mode = DESC_DVB_TERRESTRIAL_DELIVERY_SYSTEM_transmission_mode (delivery); gboolean other_frequency = DESC_DVB_TERRESTRIAL_DELIVERY_SYSTEM_other_frequency (delivery); gchar *constellation_str, *code_rate_hp_str, *code_rate_lp_str, *transmission_mode_str; /* do the stuff */ /* bandwidth is 8 if 0, 7 if 1, 6 if 2, reserved otherwise */ if (bandwidth <= 2) bandwidth = 8 - bandwidth; else bandwidth = 0; switch (constellation) { case 0: constellation_str = "QPSK"; break; case 1: constellation_str = "QAM16"; break; case 2: constellation_str = "QAM64"; break; default: constellation_str = "reserved"; } /* hierarchy is 4 if 3, 2 if 2, 1 if 1, 0 if 0, reserved if > 3 */ if (hierarchy <= 3) { if (hierarchy == 3) hierarchy = 4; } else { hierarchy = 0; } switch (code_rate_hp) { case 0: code_rate_hp_str = "1/2"; break; case 1: code_rate_hp_str = "2/3"; break; case 2: code_rate_hp_str = "3/4"; break; case 3: code_rate_hp_str = "5/6"; break; case 4: code_rate_hp_str = "7/8"; break; default: code_rate_hp_str = "reserved"; } switch (code_rate_lp) { case 0: code_rate_lp_str = "1/2"; break; case 1: code_rate_lp_str = "2/3"; break; case 2: code_rate_lp_str = "3/4"; break; case 3: code_rate_lp_str = "5/6"; break; case 4: code_rate_lp_str = "7/8"; break; default: code_rate_lp_str = "reserved"; } /* guard is 32 if 0, 16 if 1, 8 if 2, 4 if 3 */ switch (guard_interval) { case 0: guard_interval = 32; break; case 1: guard_interval = 16; break; case 2: guard_interval = 8; break; case 3: guard_interval = 4; break; default: /* make it default to 32 */ guard_interval = 32; } switch (transmission_mode) { case 0: transmission_mode_str = "2k"; break; case 1: transmission_mode_str = "8k"; break; default: transmission_mode_str = "reserved"; } delivery_structure = gst_structure_new ("terrestrial", "frequency", G_TYPE_UINT, frequency, "bandwidth", G_TYPE_UINT, bandwidth, "constellation", G_TYPE_STRING, constellation_str, "hierarchy", G_TYPE_UINT, hierarchy, "code-rate-hp", G_TYPE_STRING, code_rate_hp_str, "code-rate-lp", G_TYPE_STRING, code_rate_lp_str, "guard-interval", G_TYPE_UINT, guard_interval, "transmission-mode", G_TYPE_STRING, transmission_mode_str, "other-frequency", G_TYPE_BOOLEAN, other_frequency, NULL); gst_structure_set (transport, "delivery", GST_TYPE_STRUCTURE, delivery_structure, NULL); } else if ((delivery = gst_mpeg_descriptor_find (mpegdescriptor, DESC_DVB_CABLE_DELIVERY_SYSTEM))) { guint8 *frequency_bcd = DESC_DVB_CABLE_DELIVERY_SYSTEM_frequency (delivery); /* see en 300 468 section 6.2.13.1 least significant bcd digit * is measured in 100Hz units so multiplier needs to be 100 to get * into Hz */ guint32 frequency = 100 * ((frequency_bcd[3] & 0x0F) + 10 * ((frequency_bcd[3] & 0xF0) >> 4) + 100 * (frequency_bcd[2] & 0x0F) + 1000 * ((frequency_bcd[2] & 0xF0) >> 4) + 10000 * (frequency_bcd[1] & 0x0F) + 100000 * ((frequency_bcd[1] & 0xF0) >> 4) + 1000000 * (frequency_bcd[0] & 0x0F) + 10000000 * ((frequency_bcd[0] & 0xF0) >> 4)); guint8 modulation = DESC_DVB_CABLE_DELIVERY_SYSTEM_modulation (delivery); gchar *modulation_str; guint8 *symbol_rate_bcd = DESC_DVB_CABLE_DELIVERY_SYSTEM_symbol_rate (delivery); guint32 symbol_rate = (symbol_rate_bcd[2] & 0x0F) + 10 * ((symbol_rate_bcd[2] & 0xF0) >> 4) + 100 * (symbol_rate_bcd[1] & 0x0F) + 1000 * ((symbol_rate_bcd[1] & 0xF0) >> 4) + 10000 * (symbol_rate_bcd[0] & 0x0F) + 100000 * ((symbol_rate_bcd[0] & 0xF0) >> 4); guint8 fec_inner = DESC_DVB_CABLE_DELIVERY_SYSTEM_fec_inner (delivery); gchar *fec_inner_str; switch (fec_inner) { case 0: fec_inner_str = "undefined"; break; case 1: fec_inner_str = "1/2"; break; case 2: fec_inner_str = "2/3"; break; case 3: fec_inner_str = "3/4"; break; case 4: fec_inner_str = "5/6"; break; case 5: fec_inner_str = "7/8"; break; case 6: fec_inner_str = "8/9"; break; case 0xF: fec_inner_str = "none"; break; default: fec_inner_str = "reserved"; } switch (modulation) { case 0x00: modulation_str = "undefined"; break; case 0x01: modulation_str = "QAM16"; break; case 0x02: modulation_str = "QAM32"; break; case 0x03: modulation_str = "QAM64"; break; case 0x04: modulation_str = "QAM128"; break; case 0x05: modulation_str = "QAM256"; break; default: modulation_str = "reserved"; } delivery_structure = gst_structure_new ("cable", "modulation", G_TYPE_STRING, modulation_str, "frequency", G_TYPE_UINT, frequency, "symbol-rate", G_TYPE_UINT, symbol_rate, "inner-fec", G_TYPE_STRING, fec_inner_str, NULL); gst_structure_set (transport, "delivery", GST_TYPE_STRUCTURE, delivery_structure, NULL); } /* free the temporary delivery structure */ if (delivery_structure != NULL) { gst_structure_free (delivery_structure); delivery_structure = NULL; } if ((delivery = gst_mpeg_descriptor_find (mpegdescriptor, DESC_DTG_LOGICAL_CHANNEL))) { guint8 *current_pos = delivery + 2; GValue channel_numbers = { 0 }; g_value_init (&channel_numbers, GST_TYPE_LIST); while (current_pos < delivery + DESC_LENGTH (delivery)) { GstStructure *channel; GValue channel_value = { 0 }; guint16 service_id = GST_READ_UINT16_BE (current_pos); guint16 logical_channel_number; current_pos += 2; logical_channel_number = GST_READ_UINT16_BE (current_pos) & 0x03ff; channel = gst_structure_new ("channels", "service-id", G_TYPE_UINT, service_id, "logical-channel-number", G_TYPE_UINT, logical_channel_number, NULL); g_value_init (&channel_value, GST_TYPE_STRUCTURE); g_value_take_boxed (&channel_value, channel); gst_value_list_append_value (&channel_numbers, &channel_value); g_value_unset (&channel_value); current_pos += 2; } gst_structure_set_value (transport, "channels", &channel_numbers); g_value_unset (&channel_numbers); } if ((delivery = gst_mpeg_descriptor_find (mpegdescriptor, DESC_DVB_FREQUENCY_LIST))) { guint8 *current_pos = delivery + 2; GValue frequencies = { 0 }; guint8 type; type = *current_pos & 0x03; current_pos++; if (type) { const gchar *fieldname = NULL; g_value_init (&frequencies, GST_TYPE_LIST); while (current_pos < delivery + DESC_LENGTH (delivery) - 3) { guint32 freq = 0; guint8 *frequency_bcd = current_pos; GValue frequency = { 0 }; switch (type) { case 0x01: /* satellite */ freq = 10 * ((frequency_bcd[3] & 0x0F) + 10 * ((frequency_bcd[3] & 0xF0) >> 4) + 100 * (frequency_bcd[2] & 0x0F) + 1000 * ((frequency_bcd[2] & 0xF0) >> 4) + 10000 * (frequency_bcd[1] & 0x0F) + 100000 * ((frequency_bcd[1] & 0xF0) >> 4) + 1000000 * (frequency_bcd[0] & 0x0F) + 10000000 * ((frequency_bcd[0] & 0xF0) >> 4)); break; case 0x02: /* cable */ freq = 100 * ((frequency_bcd[3] & 0x0F) + 10 * ((frequency_bcd[3] & 0xF0) >> 4) + 100 * (frequency_bcd[2] & 0x0F) + 1000 * ((frequency_bcd[2] & 0xF0) >> 4) + 10000 * (frequency_bcd[1] & 0x0F) + 100000 * ((frequency_bcd[1] & 0xF0) >> 4) + 1000000 * (frequency_bcd[0] & 0x0F) + 10000000 * ((frequency_bcd[0] & 0xF0) >> 4)); break; case 0x03: /* terrestrial */ freq = GST_READ_UINT32_BE (current_pos) * 10; break; } g_value_init (&frequency, G_TYPE_UINT); g_value_set_uint (&frequency, freq); gst_value_list_append_value (&frequencies, &frequency); g_value_unset (&frequency); current_pos += 4; } switch (type) { case 0x01: fieldname = "frequency-list-satellite"; break; case 0x02: fieldname = "frequency-list-cable"; break; case 0x03: fieldname = "frequency-list-terrestrial"; break; } gst_structure_set_value (transport, fieldname, &frequencies); g_value_unset (&frequencies); } } gst_mpeg_descriptor_free (mpegdescriptor); descriptors = g_value_array_new (0); if (!mpegts_packetizer_parse_descriptors (packetizer, &data, data + descriptors_loop_length, descriptors)) { gst_structure_free (transport); g_value_array_free (descriptors); goto error; } gst_structure_id_set (transport, QUARK_DESCRIPTORS, G_TYPE_VALUE_ARRAY, descriptors, NULL); g_value_array_free (descriptors); } g_value_init (&transport_value, GST_TYPE_STRUCTURE); g_value_take_boxed (&transport_value, transport); gst_value_list_append_value (&transports, &transport_value); g_value_unset (&transport_value); transport_stream_loop_length -= data - entry_begin; } if (data != end - 4) { GST_WARNING ("PID %d invalid NIT parsed %d length %d", section->pid, (gint) (data - GST_BUFFER_DATA (section->buffer)), GST_BUFFER_SIZE (section->buffer)); goto error; } gst_structure_id_set_value (nit, QUARK_TRANSPORTS, &transports); g_value_unset (&transports); GST_DEBUG ("NIT %" GST_PTR_FORMAT, nit); return nit; error: if (nit) gst_structure_free (nit); if (GST_VALUE_HOLDS_LIST (&transports)) g_value_unset (&transports); return NULL; } GstStructure * mpegts_packetizer_parse_sdt (MpegTSPacketizer * packetizer, MpegTSPacketizerSection * section) { GstStructure *sdt = NULL, *service = NULL; guint8 *data, *end, *entry_begin; guint16 transport_stream_id, original_network_id, service_id; guint tmp; guint sdt_info_length; gboolean EIT_schedule, EIT_present_following; guint8 running_status; gboolean scrambled; guint descriptors_loop_length; GValue services = { 0 }; GValueArray *descriptors = NULL; GValue service_value = { 0 }; GST_DEBUG ("SDT"); /* fixed header + CRC == 16 */ if (GST_BUFFER_SIZE (section->buffer) < 14) { GST_WARNING ("PID %d invalid SDT size %d", section->pid, section->section_length); goto error; } data = GST_BUFFER_DATA (section->buffer); end = data + GST_BUFFER_SIZE (section->buffer); section->table_id = *data++; section->section_length = GST_READ_UINT16_BE (data) & 0x0FFF; data += 2; if (data + section->section_length != end) { GST_WARNING ("PID %d invalid SDT section length %d expected %d", section->pid, section->section_length, (gint) (end - data)); goto error; } transport_stream_id = GST_READ_UINT16_BE (data); data += 2; tmp = *data++; section->version_number = (tmp >> 1) & 0x1F; section->current_next_indicator = tmp & 0x01; /* skip section_number and last_section_number */ data += 2; original_network_id = GST_READ_UINT16_BE (data); data += 2; /* skip reserved byte */ data += 1; sdt = gst_structure_id_new (QUARK_SDT, QUARK_TRANSPORT_STREAM_ID, G_TYPE_UINT, transport_stream_id, QUARK_VERSION_NUMBER, G_TYPE_UINT, section->version_number, QUARK_CURRENT_NEXT_INDICATOR, G_TYPE_UINT, section->current_next_indicator, QUARK_ORIGINAL_NETWORK_ID, G_TYPE_UINT, original_network_id, QUARK_ACTUAL_TRANSPORT_STREAM, G_TYPE_BOOLEAN, section->table_id == 0x42, NULL); sdt_info_length = section->section_length - 8; g_value_init (&services, GST_TYPE_LIST); /* read up to the CRC */ while (sdt_info_length - 4 > 0) { gchar *service_name; entry_begin = data; if (sdt_info_length < 9) { /* each entry must be at least 5 bytes (+4 bytes for the CRC) */ GST_WARNING ("PID %d invalid SDT entry size %d", section->pid, sdt_info_length); goto error; } service_id = GST_READ_UINT16_BE (data); data += 2; EIT_schedule = ((*data & 0x02) == 2); EIT_present_following = (*data & 0x01) == 1; data += 1; tmp = GST_READ_UINT16_BE (data); running_status = (*data >> 5) & 0x07; scrambled = (*data >> 4) & 0x01; descriptors_loop_length = tmp & 0x0FFF; data += 2; /* TODO send tag event down relevant pad for channel name and provider */ service_name = g_strdup_printf ("service-%d", service_id); service = gst_structure_new (service_name, NULL); g_free (service_name); if (descriptors_loop_length) { guint8 *service_descriptor; GstMPEGDescriptor *mpegdescriptor; if (data + descriptors_loop_length > end - 4) { GST_WARNING ("PID %d invalid SDT entry %d descriptors loop length %d", section->pid, service_id, descriptors_loop_length); gst_structure_free (service); goto error; } mpegdescriptor = gst_mpeg_descriptor_parse (data, descriptors_loop_length); service_descriptor = gst_mpeg_descriptor_find (mpegdescriptor, DESC_DVB_SERVICE); if (service_descriptor != NULL) { gchar *servicename_tmp, *serviceprovider_name_tmp; guint8 serviceprovider_name_length = DESC_DVB_SERVICE_provider_name_length (service_descriptor); gchar *serviceprovider_name = (gchar *) DESC_DVB_SERVICE_provider_name_text (service_descriptor); guint8 servicename_length = DESC_DVB_SERVICE_name_length (service_descriptor); gchar *servicename = (gchar *) DESC_DVB_SERVICE_name_text (service_descriptor); if (servicename_length + serviceprovider_name_length + 2 <= DESC_LENGTH (service_descriptor)) { gchar *running_status_tmp; switch (running_status) { case 0: running_status_tmp = "undefined"; break; case 1: running_status_tmp = "not running"; break; case 2: running_status_tmp = "starts in a few seconds"; break; case 3: running_status_tmp = "pausing"; break; case 4: running_status_tmp = "running"; break; default: running_status_tmp = "reserved"; } servicename_tmp = get_encoding_and_convert (servicename, servicename_length); serviceprovider_name_tmp = get_encoding_and_convert (serviceprovider_name, serviceprovider_name_length); gst_structure_set (service, "name", G_TYPE_STRING, servicename_tmp, "provider-name", G_TYPE_STRING, serviceprovider_name_tmp, "scrambled", G_TYPE_BOOLEAN, scrambled, "running-status", G_TYPE_STRING, running_status_tmp, NULL); g_free (servicename_tmp); g_free (serviceprovider_name_tmp); } } gst_mpeg_descriptor_free (mpegdescriptor); descriptors = g_value_array_new (0); if (!mpegts_packetizer_parse_descriptors (packetizer, &data, data + descriptors_loop_length, descriptors)) { gst_structure_free (service); g_value_array_free (descriptors); goto error; } gst_structure_id_set (service, QUARK_DESCRIPTORS, G_TYPE_VALUE_ARRAY, descriptors, NULL); g_value_array_free (descriptors); } g_value_init (&service_value, GST_TYPE_STRUCTURE); g_value_take_boxed (&service_value, service); gst_value_list_append_value (&services, &service_value); g_value_unset (&service_value); sdt_info_length -= data - entry_begin; } if (data != end - 4) { GST_WARNING ("PID %d invalid SDT parsed %d length %d", section->pid, (gint) (data - GST_BUFFER_DATA (section->buffer)), GST_BUFFER_SIZE (section->buffer)); goto error; } gst_structure_id_set_value (sdt, QUARK_SERVICES, &services); g_value_unset (&services); return sdt; error: if (sdt) gst_structure_free (sdt); if (GST_VALUE_HOLDS_LIST (&services)) g_value_unset (&services); return NULL; } GstStructure * mpegts_packetizer_parse_eit (MpegTSPacketizer * packetizer, MpegTSPacketizerSection * section) { GstStructure *eit = NULL, *event = NULL; guint service_id, last_table_id, segment_last_section_number; guint transport_stream_id, original_network_id; gboolean free_ca_mode; guint event_id, running_status; guint64 start_and_duration; guint16 mjd; guint year, month, day, hour, minute, second; guint duration; guint8 *data, *end, *duration_ptr, *utc_ptr; guint16 descriptors_loop_length; GValue events = { 0 }; GValue event_value = { 0 }; GValueArray *descriptors = NULL; gchar *event_name; guint tmp; /* fixed header + CRC == 16 */ if (GST_BUFFER_SIZE (section->buffer) < 18) { GST_WARNING ("PID %d invalid EIT size %d", section->pid, section->section_length); goto error; } data = GST_BUFFER_DATA (section->buffer); end = data + GST_BUFFER_SIZE (section->buffer); section->table_id = *data++; section->section_length = GST_READ_UINT16_BE (data) & 0x0FFF; data += 2; if (data + section->section_length != end) { GST_WARNING ("PID %d invalid EIT section length %d expected %d", section->pid, section->section_length, (gint) (end - data)); goto error; } service_id = GST_READ_UINT16_BE (data); data += 2; tmp = *data++; section->version_number = (tmp >> 1) & 0x1F; section->current_next_indicator = tmp & 0x01; /* skip section_number and last_section_number */ data += 2; transport_stream_id = GST_READ_UINT16_BE (data); data += 2; original_network_id = GST_READ_UINT16_BE (data); data += 2; segment_last_section_number = *data; data += 1; last_table_id = *data; data += 1; eit = gst_structure_id_new (QUARK_EIT, QUARK_VERSION_NUMBER, G_TYPE_UINT, section->version_number, QUARK_CURRENT_NEXT_INDICATOR, G_TYPE_UINT, section->current_next_indicator, QUARK_SERVICE_ID, G_TYPE_UINT, service_id, QUARK_ACTUAL_TRANSPORT_STREAM, G_TYPE_BOOLEAN, (section->table_id == 0x4E || (section->table_id >= 0x50 && section->table_id <= 0x5F)), QUARK_PRESENT_FOLLOWING, G_TYPE_BOOLEAN, (section->table_id == 0x4E || section->table_id == 0x4F), QUARK_TRANSPORT_STREAM_ID, G_TYPE_UINT, transport_stream_id, QUARK_ORIGINAL_NETWORK_ID, G_TYPE_UINT, original_network_id, QUARK_SEGMENT_LAST_SECTION_NUMBER, G_TYPE_UINT, segment_last_section_number, QUARK_LAST_TABLE_ID, G_TYPE_UINT, last_table_id, NULL); g_value_init (&events, GST_TYPE_LIST); while (data < end - 4) { /* 12 is the minimum entry size + CRC */ if (end - data < 12 + 4) { GST_WARNING ("PID %d invalid EIT entry length %d", section->pid, (gint) (end - 4 - data)); gst_structure_free (eit); goto error; } event_id = GST_READ_UINT16_BE (data); data += 2; start_and_duration = GST_READ_UINT64_BE (data); duration_ptr = data + 5; utc_ptr = data + 2; mjd = GST_READ_UINT16_BE (data); if (mjd == G_MAXUINT16) { year = 1900; month = day = hour = minute = second = 0; } else { /* See EN 300 468 Annex C */ year = (guint32) (((mjd - 15078.2) / 365.25)); month = (guint8) ((mjd - 14956.1 - (guint) (year * 365.25)) / 30.6001); day = mjd - 14956 - (guint) (year * 365.25) - (guint) (month * 30.6001); if (month == 14 || month == 15) { year++; month = month - 1 - 12; } else { month--; } year += 1900; hour = ((utc_ptr[0] & 0xF0) >> 4) * 10 + (utc_ptr[0] & 0x0F); minute = ((utc_ptr[1] & 0xF0) >> 4) * 10 + (utc_ptr[1] & 0x0F); second = ((utc_ptr[2] & 0xF0) >> 4) * 10 + (utc_ptr[2] & 0x0F); } duration = (((duration_ptr[0] & 0xF0) >> 4) * 10 + (duration_ptr[0] & 0x0F)) * 60 * 60 + (((duration_ptr[1] & 0xF0) >> 4) * 10 + (duration_ptr[1] & 0x0F)) * 60 + ((duration_ptr[2] & 0xF0) >> 4) * 10 + (duration_ptr[2] & 0x0F); data += 8; running_status = *data >> 5; free_ca_mode = (*data >> 4) & 0x01; descriptors_loop_length = GST_READ_UINT16_BE (data) & 0x0FFF; data += 2; /* TODO: send tag event down relevant pad saying what is currently playing */ event_name = g_strdup_printf ("event-%d", event_id); event = gst_structure_new (event_name, "event-id", G_TYPE_UINT, event_id, "year", G_TYPE_UINT, year, "month", G_TYPE_UINT, month, "day", G_TYPE_UINT, day, "hour", G_TYPE_UINT, hour, "minute", G_TYPE_UINT, minute, "second", G_TYPE_UINT, second, "duration", G_TYPE_UINT, duration, "running-status", G_TYPE_UINT, running_status, "free-ca-mode", G_TYPE_BOOLEAN, free_ca_mode, NULL); g_free (event_name); if (descriptors_loop_length) { guint8 *event_descriptor; GArray *component_descriptors; GArray *extended_event_descriptors; GstMPEGDescriptor *mpegdescriptor; if (data + descriptors_loop_length > end - 4) { GST_WARNING ("PID %d invalid EIT descriptors loop length %d", section->pid, descriptors_loop_length); gst_structure_free (event); goto error; } mpegdescriptor = gst_mpeg_descriptor_parse (data, descriptors_loop_length); event_descriptor = gst_mpeg_descriptor_find (mpegdescriptor, DESC_DVB_SHORT_EVENT); if (event_descriptor != NULL) { gchar *eventname_tmp, *eventdescription_tmp; guint8 eventname_length = DESC_DVB_SHORT_EVENT_name_length (event_descriptor); gchar *eventname = (gchar *) DESC_DVB_SHORT_EVENT_name_text (event_descriptor); guint8 eventdescription_length = DESC_DVB_SHORT_EVENT_description_length (event_descriptor); gchar *eventdescription = (gchar *) DESC_DVB_SHORT_EVENT_description_text (event_descriptor); if (eventname_length + eventdescription_length + 2 <= DESC_LENGTH (event_descriptor)) { eventname_tmp = get_encoding_and_convert (eventname, eventname_length), eventdescription_tmp = get_encoding_and_convert (eventdescription, eventdescription_length); gst_structure_set (event, "name", G_TYPE_STRING, eventname_tmp, NULL); gst_structure_set (event, "description", G_TYPE_STRING, eventdescription_tmp, NULL); g_free (eventname_tmp); g_free (eventdescription_tmp); } } extended_event_descriptors = gst_mpeg_descriptor_find_all (mpegdescriptor, DESC_DVB_EXTENDED_EVENT); if (extended_event_descriptors) { int i; guint8 *extended_descriptor; /*GValue extended_items = { 0 }; */ gchar *extended_text = NULL; /*g_value_init (&extended_items, GST_TYPE_LIST); */ for (i = 0; i < extended_event_descriptors->len; i++) { extended_descriptor = g_array_index (extended_event_descriptors, guint8 *, i); if (DESC_DVB_EXTENDED_EVENT_descriptor_number (extended_descriptor) == i) { if (extended_text) { gchar *tmp; gchar *old_extended_text = extended_text; tmp = get_encoding_and_convert ((gchar *) DESC_DVB_EXTENDED_EVENT_text (extended_descriptor), DESC_DVB_EXTENDED_EVENT_text_length (extended_descriptor)); extended_text = g_strdup_printf ("%s%s", extended_text, tmp); g_free (old_extended_text); g_free (tmp); } else { extended_text = get_encoding_and_convert ((gchar *) DESC_DVB_EXTENDED_EVENT_text (extended_descriptor), DESC_DVB_EXTENDED_EVENT_text_length (extended_descriptor)); } } } if (extended_text) { gst_structure_set (event, "extended-text", G_TYPE_STRING, extended_text, NULL); g_free (extended_text); } g_array_free (extended_event_descriptors, TRUE); } component_descriptors = gst_mpeg_descriptor_find_all (mpegdescriptor, DESC_DVB_COMPONENT); if (component_descriptors) { int i; guint8 *comp_descriptor; GValue components = { 0 }; g_value_init (&components, GST_TYPE_LIST); /* FIXME: do the component descriptor parsing less verbosely * and better...a task for 0.10.6 */ for (i = 0; i < component_descriptors->len; i++) { GstStructure *component = NULL; GValue component_value = { 0 }; gint widescreen = 0; /* 0 for 4:3, 1 for 16:9, 2 for > 16:9 */ gint freq = 25; /* 25 or 30 measured in Hertz */ gboolean highdef = FALSE; gboolean panvectors = FALSE; gchar *comptype = ""; comp_descriptor = g_array_index (component_descriptors, guint8 *, i); switch (DESC_DVB_COMPONENT_stream_content (comp_descriptor)) { case 0x01: /* video */ switch (DESC_DVB_COMPONENT_type (comp_descriptor)) { case 0x01: widescreen = 0; freq = 25; break; case 0x02: widescreen = 1; panvectors = TRUE; freq = 25; break; case 0x03: widescreen = 1; panvectors = FALSE; freq = 25; break; case 0x04: widescreen = 2; freq = 25; break; case 0x05: widescreen = 0; freq = 30; break; case 0x06: widescreen = 1; panvectors = TRUE; freq = 30; break; case 0x07: widescreen = 1; panvectors = FALSE; freq = 30; break; case 0x08: widescreen = 2; freq = 30; break; case 0x09: widescreen = 0; highdef = TRUE; freq = 25; break; case 0x0A: widescreen = 1; highdef = TRUE; panvectors = TRUE; freq = 25; break; case 0x0B: widescreen = 1; highdef = TRUE; panvectors = FALSE; freq = 25; break; case 0x0C: widescreen = 2; highdef = TRUE; freq = 25; break; case 0x0D: widescreen = 0; highdef = TRUE; freq = 30; break; case 0x0E: widescreen = 1; highdef = TRUE; panvectors = TRUE; freq = 30; break; case 0x0F: widescreen = 1; highdef = TRUE; panvectors = FALSE; freq = 30; break; case 0x10: widescreen = 2; highdef = TRUE; freq = 30; break; } component = gst_structure_new ("video", "high-definition", G_TYPE_BOOLEAN, TRUE, "frequency", G_TYPE_INT, freq, "tag", G_TYPE_INT, DESC_DVB_COMPONENT_tag (comp_descriptor), NULL); if (widescreen == 0) { gst_structure_set (component, "aspect-ratio", G_TYPE_STRING, "4:3", NULL); } else if (widescreen == 2) { gst_structure_set (component, "aspect-ratio", G_TYPE_STRING, "> 16:9", NULL); } else { gst_structure_set (component, "aspect-ratio", G_TYPE_STRING, "16:9", "pan-vectors", G_TYPE_BOOLEAN, panvectors, NULL); } break; case 0x02: /* audio */ comptype = "undefined"; switch (DESC_DVB_COMPONENT_type (comp_descriptor)) { case 0x01: comptype = "single channel mono"; break; case 0x02: comptype = "dual channel mono"; break; case 0x03: comptype = "stereo"; break; case 0x04: comptype = "multi-channel multi-lingual"; break; case 0x05: comptype = "surround"; break; case 0x40: comptype = "audio description for the visually impaired"; break; case 0x41: comptype = "audio for the hard of hearing"; break; } component = gst_structure_new ("audio", "type", G_TYPE_STRING, comptype, "tag", G_TYPE_INT, DESC_DVB_COMPONENT_tag (comp_descriptor), NULL); break; case 0x03: /* subtitles/teletext/vbi */ comptype = "reserved"; switch (DESC_DVB_COMPONENT_type (comp_descriptor)) { case 0x01: comptype = "EBU Teletext subtitles"; break; case 0x02: comptype = "associated EBU Teletext"; break; case 0x03: comptype = "VBI data"; break; case 0x10: comptype = "Normal DVB subtitles"; break; case 0x11: comptype = "Normal DVB subtitles for 4:3"; break; case 0x12: comptype = "Normal DVB subtitles for 16:9"; break; case 0x13: comptype = "Normal DVB subtitles for 2.21:1"; break; case 0x20: comptype = "Hard of hearing DVB subtitles"; break; case 0x21: comptype = "Hard of hearing DVB subtitles for 4:3"; break; case 0x22: comptype = "Hard of hearing DVB subtitles for 16:9"; break; case 0x23: comptype = "Hard of hearing DVB subtitles for 2.21:1"; break; } component = gst_structure_new ("teletext", "type", G_TYPE_STRING, comptype, "tag", G_TYPE_INT, DESC_DVB_COMPONENT_tag (comp_descriptor), NULL); break; } if (component) { g_value_init (&component_value, GST_TYPE_STRUCTURE); g_value_take_boxed (&component_value, component); gst_value_list_append_value (&components, &component_value); g_value_unset (&component_value); component = NULL; } } gst_structure_set_value (event, "components", &components); g_value_unset (&components); g_array_free (component_descriptors, TRUE); } gst_mpeg_descriptor_free (mpegdescriptor); descriptors = g_value_array_new (0); if (!mpegts_packetizer_parse_descriptors (packetizer, &data, data + descriptors_loop_length, descriptors)) { gst_structure_free (event); g_value_array_free (descriptors); goto error; } gst_structure_id_set (event, QUARK_DESCRIPTORS, G_TYPE_VALUE_ARRAY, descriptors, NULL); g_value_array_free (descriptors); } g_value_init (&event_value, GST_TYPE_STRUCTURE); g_value_take_boxed (&event_value, event); gst_value_list_append_value (&events, &event_value); g_value_unset (&event_value); } if (data != end - 4) { GST_WARNING ("PID %d invalid EIT parsed %d length %d", section->pid, (gint) (data - GST_BUFFER_DATA (section->buffer)), GST_BUFFER_SIZE (section->buffer)); goto error; } gst_structure_id_set_value (eit, QUARK_EVENTS, &events); g_value_unset (&events); GST_DEBUG ("EIT %" GST_PTR_FORMAT, eit); return eit; error: if (eit) gst_structure_free (eit); if (GST_VALUE_HOLDS_LIST (&events)) g_value_unset (&events); return NULL; } void mpegts_packetizer_clear (MpegTSPacketizer * packetizer) { if (packetizer->know_packet_size) { packetizer->know_packet_size = FALSE; packetizer->packet_size = 0; if (packetizer->caps != NULL) { gst_caps_unref (packetizer->caps); packetizer->caps = NULL; } } if (packetizer->streams) { int i; for (i = 0; i < 8192; i++) { if (packetizer->streams[i]) { mpegts_packetizer_stream_free (packetizer->streams[i]); packetizer->streams[i] = NULL; } } } gst_adapter_clear (packetizer->adapter); } void mpegts_packetizer_remove_stream (MpegTSPacketizer * packetizer, gint16 pid) { MpegTSPacketizerStream *stream = packetizer->streams[pid]; if (stream) { GST_INFO ("Removing stream for PID %d", pid); mpegts_packetizer_stream_free (stream); packetizer->streams[pid] = NULL; } } MpegTSPacketizer * mpegts_packetizer_new () { MpegTSPacketizer *packetizer; packetizer = GST_MPEGTS_PACKETIZER (g_object_new (GST_TYPE_MPEGTS_PACKETIZER, NULL)); return packetizer; } void mpegts_packetizer_push (MpegTSPacketizer * packetizer, GstBuffer * buffer) { gst_adapter_push (packetizer->adapter, buffer); } void mpegts_try_discover_packet_size (MpegTSPacketizer * packetizer) { guint8 *dest; int i, pos, j; const guint psizes[] = { MPEGTS_NORMAL_PACKETSIZE, MPEGTS_M2TS_PACKETSIZE, MPEGTS_DVB_ASI_PACKETSIZE, MPEGTS_ATSC_PACKETSIZE }; /* wait for 3 sync bytes */ /* so first return if there is not enough data for 4 * max packetsize */ if (gst_adapter_available_fast (packetizer->adapter) < MPEGTS_MAX_PACKETSIZE * 4) return; /* check for sync bytes */ dest = g_malloc (MPEGTS_MAX_PACKETSIZE * 4); gst_adapter_copy (packetizer->adapter, dest, 0, MPEGTS_MAX_PACKETSIZE * 4); /* find first sync byte */ pos = -1; for (i = 0; i < MPEGTS_MAX_PACKETSIZE; i++) { if (dest[i] == 0x47) { for (j = 0; j < 4; j++) { guint packetsize = psizes[j]; /* check each of the packet size possibilities in turn */ if (dest[i] == 0x47 && dest[i + packetsize] == 0x47 && dest[i + packetsize * 2] == 0x47 && dest[i + packetsize * 3] == 0x47) { gchar *str; packetizer->know_packet_size = TRUE; packetizer->packet_size = packetsize; str = g_strdup_printf ("video/mpegts, systemstream=(boolean)true, packetsize=%d", packetsize); packetizer->caps = gst_caps_from_string ((const gchar *) str); g_free (str); pos = i; break; } } break; } } GST_DEBUG ("have packetsize detected: %d of %u bytes", packetizer->know_packet_size, packetizer->packet_size); /* flush to sync byte */ if (pos > 0) gst_adapter_flush (packetizer->adapter, pos); g_free (dest); } gboolean mpegts_packetizer_has_packets (MpegTSPacketizer * packetizer) { if (G_UNLIKELY (packetizer->know_packet_size == FALSE)) { mpegts_try_discover_packet_size (packetizer); if (!packetizer->know_packet_size) return FALSE; } return gst_adapter_available (packetizer->adapter) >= packetizer->packet_size; } MpegTSPacketizerPacketReturn mpegts_packetizer_next_packet (MpegTSPacketizer * packetizer, MpegTSPacketizerPacket * packet) { guint8 sync_byte; guint avail; packet->buffer = NULL; if (G_UNLIKELY (!packetizer->know_packet_size)) { mpegts_try_discover_packet_size (packetizer); if (!packetizer->know_packet_size) return PACKET_NEED_MORE; } while ((avail = gst_adapter_available (packetizer->adapter)) >= packetizer->packet_size) { sync_byte = *gst_adapter_peek (packetizer->adapter, 1); if (G_UNLIKELY (sync_byte != 0x47)) { GST_DEBUG ("lost sync %02x", sync_byte); gst_adapter_flush (packetizer->adapter, 1); continue; } packet->buffer = gst_adapter_take_buffer (packetizer->adapter, packetizer->packet_size); packet->data_start = GST_BUFFER_DATA (packet->buffer); packet->data_end = GST_BUFFER_DATA (packet->buffer) + GST_BUFFER_SIZE (packet->buffer); return mpegts_packetizer_parse_packet (packetizer, packet); } return PACKET_NEED_MORE; } void mpegts_packetizer_clear_packet (MpegTSPacketizer * packetizer, MpegTSPacketizerPacket * packet) { if (packet->buffer) gst_buffer_unref (packet->buffer); memset (packet, 0, sizeof (MpegTSPacketizerPacket)); } gboolean mpegts_packetizer_push_section (MpegTSPacketizer * packetizer, MpegTSPacketizerPacket * packet, MpegTSPacketizerSection * section) { gboolean res = FALSE; MpegTSPacketizerStream *stream; guint8 pointer, table_id; guint16 subtable_extension; guint section_length; GstBuffer *sub_buf; guint8 *data; data = packet->data; section->pid = packet->pid; if (packet->payload_unit_start_indicator == 1) { pointer = *data++; if (data + pointer > packet->data_end) { GST_WARNING ("PID %d PSI section pointer points past the end " "of the buffer", packet->pid); goto out; } data += pointer; } /* create a sub buffer from the start of the section (table_id and * section_length included) to the end */ sub_buf = gst_buffer_create_sub (packet->buffer, data - GST_BUFFER_DATA (packet->buffer), packet->data_end - data); stream = packetizer->streams[packet->pid]; if (stream == NULL) { stream = mpegts_packetizer_stream_new (); packetizer->streams[packet->pid] = stream; } if (packet->payload_unit_start_indicator) { table_id = *data++; /* subtable_extension should be read from 4th and 5th bytes only if * section_syntax_indicator is 1 */ if ((data[0] & 0x80) == 0) subtable_extension = 0; else subtable_extension = GST_READ_UINT16_BE (data + 2); GST_DEBUG ("pid: %d table_id %d sub_table_extension %d", packet->pid, table_id, subtable_extension); section_length = GST_READ_UINT16_BE (data) & 0x0FFF; if (stream->continuity_counter != CONTINUITY_UNSET) { GST_DEBUG ("PID %d table_id %d sub_table_extension %d payload_unit_start_indicator set but section " "not complete (last_continuity: %d continuity: %d sec len %d buffer %d avail %d", packet->pid, table_id, subtable_extension, stream->continuity_counter, packet->continuity_counter, section_length, GST_BUFFER_SIZE (sub_buf), gst_adapter_available (stream->section_adapter)); mpegts_packetizer_clear_section (packetizer, stream); } else { GST_DEBUG ("pusi set and new stream section is %d long and data we have is: %d", section_length, (gint) (packet->data_end - packet->data)); } stream->continuity_counter = packet->continuity_counter; stream->section_length = section_length; stream->section_table_id = table_id; gst_adapter_push (stream->section_adapter, sub_buf); res = TRUE; } else if (stream->continuity_counter != CONTINUITY_UNSET && (packet->continuity_counter == stream->continuity_counter + 1 || (stream->continuity_counter == MAX_CONTINUITY && packet->continuity_counter == 0))) { stream->continuity_counter = packet->continuity_counter; gst_adapter_push (stream->section_adapter, sub_buf); res = TRUE; } else { if (stream->continuity_counter == CONTINUITY_UNSET) GST_DEBUG ("PID %d waiting for pusi", packet->pid); else GST_DEBUG ("PID %d section discontinuity " "(last_continuity: %d continuity: %d", packet->pid, stream->continuity_counter, packet->continuity_counter); mpegts_packetizer_clear_section (packetizer, stream); gst_buffer_unref (sub_buf); } if (res) { /* we pushed some data in the section adapter, see if the section is * complete now */ /* >= as sections can be padded and padding is not included in * section_length */ if (gst_adapter_available (stream->section_adapter) >= stream->section_length + 3) { res = mpegts_packetizer_parse_section_header (packetizer, stream, section); /* flush stuffing bytes */ mpegts_packetizer_clear_section (packetizer, stream); } else { /* section not complete yet */ section->complete = FALSE; } } else { GST_WARNING ("section not complete"); section->complete = FALSE; } out: packet->data = data; return res; } static void _init_local () { GST_DEBUG_CATEGORY_INIT (mpegts_packetizer_debug, "mpegtspacketizer", 0, "MPEG transport stream parser"); QUARK_PAT = g_quark_from_string ("pat"); QUARK_TRANSPORT_STREAM_ID = g_quark_from_string ("transport-stream-id"); QUARK_PROGRAM_NUMBER = g_quark_from_string ("program-number"); QUARK_PID = g_quark_from_string ("pid"); QUARK_PROGRAMS = g_quark_from_string ("programs"); QUARK_PMT = g_quark_from_string ("pmt"); QUARK_PCR_PID = g_quark_from_string ("pcr-pid"); QUARK_VERSION_NUMBER = g_quark_from_string ("version-number"); QUARK_DESCRIPTORS = g_quark_from_string ("descriptors"); QUARK_STREAM_TYPE = g_quark_from_string ("stream-type"); QUARK_STREAMS = g_quark_from_string ("streams"); QUARK_NIT = g_quark_from_string ("nit"); QUARK_NETWORK_ID = g_quark_from_string ("network-id"); QUARK_CURRENT_NEXT_INDICATOR = g_quark_from_string ("current-next-indicator"); QUARK_ACTUAL_NETWORK = g_quark_from_string ("actual-network"); QUARK_NETWORK_NAME = g_quark_from_string ("network-name"); QUARK_TRANSPORT_STREAM_ID = g_quark_from_string ("transport-stream-id"); QUARK_ORIGINAL_NETWORK_ID = g_quark_from_string ("original-network-id"); QUARK_TRANSPORTS = g_quark_from_string ("transports"); QUARK_SDT = g_quark_from_string ("sdt"); QUARK_ACTUAL_TRANSPORT_STREAM = g_quark_from_string ("actual-transport-stream"); QUARK_SERVICES = g_quark_from_string ("services"); QUARK_EIT = g_quark_from_string ("eit"); QUARK_SERVICE_ID = g_quark_from_string ("service-id"); QUARK_PRESENT_FOLLOWING = g_quark_from_string ("present-following"); QUARK_SEGMENT_LAST_SECTION_NUMBER = g_quark_from_string ("segment-last-section-number"); QUARK_LAST_TABLE_ID = g_quark_from_string ("last-table-id"); QUARK_EVENTS = g_quark_from_string ("events"); } /** * @text: The text you want to get the encoding from * @start_text: Location where the beginning of the actual text is stored * @is_multibyte: Location where information whether it's a multibyte encoding * or not is stored * @returns: Name of encoding or NULL of encoding could not be detected. * * The returned string should be freed with g_free () when no longer needed. */ static gchar * get_encoding (const gchar * text, guint * start_text, gboolean * is_multibyte) { gchar *encoding; guint8 firstbyte; g_return_val_if_fail (text != NULL, NULL); firstbyte = (guint8) text[0]; if (firstbyte == 0x01) { encoding = g_strdup ("iso8859-5"); *start_text = 1; *is_multibyte = FALSE; } else if (firstbyte == 0x02) { encoding = g_strdup ("iso8859-6"); *start_text = 1; *is_multibyte = FALSE; } else if (firstbyte == 0x03) { encoding = g_strdup ("iso8859-7"); *start_text = 1; *is_multibyte = FALSE; } else if (firstbyte == 0x04) { encoding = g_strdup ("iso8859-8"); *start_text = 1; *is_multibyte = FALSE; } else if (firstbyte == 0x05) { encoding = g_strdup ("iso8859-9"); *start_text = 1; *is_multibyte = FALSE; } else if (firstbyte >= 0x20) { encoding = g_strdup ("iso6937"); *start_text = 0; *is_multibyte = FALSE; } else if (firstbyte == 0x10) { guint16 table; gchar table_str[6]; text++; table = GST_READ_UINT16_BE (text); g_snprintf (table_str, 6, "%d", table); encoding = g_strconcat ("iso8859-", table_str, NULL); *start_text = 3; *is_multibyte = FALSE; } else if (firstbyte == 0x11) { encoding = g_strdup ("ISO-10646/UCS2"); *start_text = 1; *is_multibyte = TRUE; } else if (firstbyte == 0x12) { // That's korean encoding. // The spec says it's encoded in KSC 5601, but iconv only knows KSC 5636. // Couldn't find any information about either of them. encoding = NULL; *start_text = 1; *is_multibyte = TRUE; } else { // reserved encoding = NULL; *start_text = 0; *is_multibyte = FALSE; } GST_DEBUG ("Found encoding %s, first byte is 0x%02x, start_text: %u, is_multibyte: %d", encoding, firstbyte, *start_text, *is_multibyte); return encoding; } /** * @text: The text to convert. It may include pango markup ( and ) * @length: The length of the string -1 if it's nul-terminated * @start: Where to start converting in the text * @encoding: The encoding of text * @is_multibyte: Whether the encoding is a multibyte encoding * @error: The location to store the error, or NULL to ignore errors * @returns: UTF-8 encoded string * * Convert text to UTF-8. */ static gchar * convert_to_utf8 (const gchar * text, gint length, guint start, const gchar * encoding, gboolean is_multibyte, GError ** error) { gchar *new_text; GByteArray *sb; gint i; g_return_val_if_fail (text != NULL, NULL); g_return_val_if_fail (encoding != NULL, NULL); text += start; sb = g_byte_array_sized_new (length * 1.1); if (is_multibyte) { if (length == -1) { while (*text != '\0') { guint16 code = GST_READ_UINT16_BE (text); switch (code) { case 0xE086: /* emphasis on */ case 0xE087: /* emphasis off */ /* skip it */ break; case 0xE08A:{ guint8 nl[] = { 0x0A, 0x00 }; // new line g_byte_array_append (sb, nl, 2); break; } default: g_byte_array_append (sb, (guint8 *) text, 2); break; } text += 2; } } else { for (i = 0; i < length; i += 2) { guint16 code = GST_READ_UINT16_BE (text); switch (code) { case 0xE086: /* emphasis on */ case 0xE087: /* emphasis off */ /* skip it */ break; case 0xE08A:{ guint8 nl[] = { 0x0A, 0x00 }; // new line g_byte_array_append (sb, nl, 2); break; } default: g_byte_array_append (sb, (guint8 *) text, 2); break; } text += 2; } } } else { if (length == -1) { while (*text != '\0') { guint8 code = (guint8) (*text); switch (code) { case 0x86: /* emphasis on */ case 0x87: /* emphasis off */ /* skip it */ break; case 0x8A: g_byte_array_append (sb, (guint8 *) "\n", 1); break; default: g_byte_array_append (sb, &code, 1); break; } text++; } } else { for (i = 0; i < length; i++) { guint8 code = (guint8) (*text); switch (code) { case 0x86: /* emphasis on */ case 0x87: /* emphasis off */ /* skip it */ break; case 0x8A: g_byte_array_append (sb, (guint8 *) "\n", 1); break; default: g_byte_array_append (sb, &code, 1); break; } text++; } } } if (sb->len > 0) { new_text = g_convert ((gchar *) sb->data, sb->len, "utf-8", encoding, NULL, NULL, error); } else { new_text = g_strdup (""); } g_byte_array_free (sb, TRUE); return new_text; } static gchar * get_encoding_and_convert (const gchar * text, guint length) { GError *error = NULL; gchar *converted_str; gchar *encoding; guint start_text = 0; gboolean is_multibyte; g_return_val_if_fail (text != NULL, NULL); if (length == 0) return g_strdup (""); encoding = get_encoding (text, &start_text, &is_multibyte); if (encoding == NULL) { GST_WARNING ("Could not detect encoding"); converted_str = g_strndup (text, length); } else { converted_str = convert_to_utf8 (text, length - start_text, start_text, encoding, is_multibyte, &error); if (error != NULL) { GST_WARNING ("Could not convert string, encoding is %s: %s", encoding, error->message); g_error_free (error); error = NULL; /* The first part of ISO 6937 is identical to ISO 8859-9, but * they differ in the second part. Some channels don't * provide the first byte that indicates ISO 8859-9 encoding. * If decoding from ISO 6937 failed, we try ISO 8859-9 here. */ if (strcmp (encoding, "iso6937") == 0) { GST_INFO ("Trying encoding ISO 8859-9"); converted_str = convert_to_utf8 (text, length, 0, "iso8859-9", FALSE, &error); if (error != NULL) { GST_WARNING ("Could not convert string while assuming encoding ISO 8859-9: %s", error->message); g_error_free (error); goto failed; } } else { goto failed; } } g_free (encoding); } return converted_str; failed: { g_free (encoding); text += start_text; return g_strndup (text, length - start_text); } }