/* * parsechannels.c - * Copyright (C) 2008 Zaheer Abbas Merali * * Authors: * Zaheer Abbas Merali * * 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., 51 Franklin St, Fifth Floor, * Boston, MA 02110-1301, USA. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #include "parsechannels.h" #include GST_DEBUG_CATEGORY_EXTERN (dvb_base_bin_debug); #define GST_CAT_DEFAULT dvb_base_bin_debug /* TODO: * Store the channels hash table around instead of constantly parsing it * Detect when the file changed on disk */ /* this will do zap style channels.conf only for the moment */ static GHashTable * parse_channels_conf_from_file (GstElement * dvbbasebin, const gchar * filename, GError ** error) { gchar *contents; gchar **lines; gchar *line; gchar **fields; int i, parsedchannels = 0; GHashTable *res; GError *err = NULL; const gchar *terrestrial[] = { "inversion", "bandwidth", "code-rate-hp", "code-rate-lp", "modulation", "transmission-mode", "guard", "hierarchy" }; const gchar *satellite[] = { "polarity", "diseqc-source", "symbol-rate" }; const gchar *cable[] = { "inversion", "symbol-rate", "code-rate-hp", "modulation" }; GST_INFO_OBJECT (dvbbasebin, "parsing '%s'", filename); if (!g_file_get_contents (filename, &contents, NULL, &err)) goto open_fail; lines = g_strsplit (contents, "\n", 0); res = g_hash_table_new (g_str_hash, g_str_equal); i = 0; line = lines[0]; while (line != NULL) { GHashTable *params; int j, numfields; if (line[0] == '#') goto next_line; params = g_hash_table_new_full (g_str_hash, g_str_equal, g_free, g_free); fields = g_strsplit (line, ":", 0); numfields = g_strv_length (fields); switch (numfields) { case 13: /* terrestrial */ g_hash_table_insert (params, g_strdup ("type"), g_strdup ("terrestrial")); for (j = 2; j <= 9; j++) { g_hash_table_insert (params, g_strdup (terrestrial[j - 2]), g_strdup (fields[j])); } g_hash_table_insert (params, g_strdup ("frequency"), g_strdup (fields[1])); break; case 9: /* cable */ g_hash_table_insert (params, g_strdup ("type"), g_strdup ("cable")); for (j = 2; j <= 5; j++) { g_hash_table_insert (params, g_strdup (cable[j - 2]), g_strdup (fields[j])); } g_hash_table_insert (params, g_strdup ("frequency"), g_strdup (fields[1])); break; case 8: /* satellite */ g_hash_table_insert (params, g_strdup ("type"), g_strdup ("satellite")); for (j = 2; j <= 4; j++) { g_hash_table_insert (params, g_strdup (satellite[j - 2]), g_strdup (fields[j])); } /** * Some ZAP format variations store freqs in MHz * but we internally use kHz for DVB-S/S2. */ if (strlen (fields[1]) < 6) { g_hash_table_insert (params, g_strdup ("frequency"), g_strdup_printf ("%d", atoi (fields[1]) * 1000)); } else { g_hash_table_insert (params, g_strdup ("frequency"), g_strdup_printf ("%d", atoi (fields[1]))); } break; case 6: /* atsc (vsb/qam) */ g_hash_table_insert (params, g_strdup ("type"), g_strdup ("atsc")); g_hash_table_insert (params, g_strdup ("modulation"), g_strdup (fields[2])); g_hash_table_insert (params, g_strdup ("frequency"), g_strdup (fields[1])); break; default: goto not_parsed; } /* parsed */ g_hash_table_insert (params, g_strdup ("sid"), g_strdup (fields[numfields - 1])); g_hash_table_insert (res, g_strdup (fields[0]), params); parsedchannels++; not_parsed: g_strfreev (fields); next_line: line = lines[++i]; } g_strfreev (lines); g_free (contents); if (parsedchannels == 0) goto no_channels; return res; open_fail: if (err->code == G_FILE_ERROR_NOENT) { g_set_error (error, GST_RESOURCE_ERROR, GST_RESOURCE_ERROR_NOT_FOUND, _("Couldn't find DVB channel configuration file")); } else { g_set_error (error, GST_RESOURCE_ERROR, GST_RESOURCE_ERROR_READ, _("Couldn't load DVB channel configuration file: %s"), err->message); } g_clear_error (&err); return NULL; no_channels: g_set_error (error, GST_RESOURCE_ERROR, GST_RESOURCE_ERROR_FAILED, _("DVB channel configuration file doesn't contain any channels")); g_hash_table_unref (res); return NULL; } static gboolean remove_channel_from_hash (gpointer key, gpointer value, gpointer user_data) { g_free (key); if (value) g_hash_table_destroy ((GHashTable *) value); return TRUE; } static void destroy_channels_hash (GHashTable * channels) { g_hash_table_foreach_remove (channels, remove_channel_from_hash, NULL); } gboolean set_properties_for_channel (GstElement * dvbbasebin, const gchar * channel_name, GError ** error) { gboolean ret = FALSE; GHashTable *channels, *params; gchar *filename; gchar *type; const gchar *adapter; filename = g_strdup (g_getenv ("GST_DVB_CHANNELS_CONF")); if (filename == NULL) { filename = g_build_filename (g_get_user_config_dir (), "gstreamer-" GST_API_VERSION, "dvb-channels.conf", NULL); } channels = parse_channels_conf_from_file (dvbbasebin, filename, error); g_free (filename); if (!channels) goto beach; params = g_hash_table_lookup (channels, channel_name); if (!params) goto unknown_channel; g_object_set (dvbbasebin, "program-numbers", g_hash_table_lookup (params, "sid"), NULL); /* check if it is terrestrial or satellite */ adapter = g_getenv ("GST_DVB_ADAPTER"); if (adapter) g_object_set (dvbbasebin, "adapter", atoi (adapter), NULL); g_object_set (dvbbasebin, "frequency", atoi (g_hash_table_lookup (params, "frequency")), NULL); type = g_hash_table_lookup (params, "type"); if (strcmp (type, "terrestrial") == 0) { gchar *val; g_object_set (dvbbasebin, "delsys", SYS_DVBT, NULL); val = g_hash_table_lookup (params, "inversion"); if (strcmp (val, "INVERSION_OFF") == 0) g_object_set (dvbbasebin, "inversion", 0, NULL); else if (strcmp (val, "INVERSION_ON") == 0) g_object_set (dvbbasebin, "inversion", 1, NULL); else g_object_set (dvbbasebin, "inversion", 2, NULL); val = g_hash_table_lookup (params, "bandwidth"); if (strcmp (val, "BANDWIDTH_8_MHZ") == 0) g_object_set (dvbbasebin, "bandwidth", 0, NULL); else if (strcmp (val, "BANDWIDTH_7_MHZ") == 0) g_object_set (dvbbasebin, "bandwidth", 1, NULL); else if (strcmp (val, "BANDWIDTH_6_MHZ") == 0) g_object_set (dvbbasebin, "bandwidth", 2, NULL); else g_object_set (dvbbasebin, "bandwidth", 3, NULL); val = g_hash_table_lookup (params, "code-rate-hp"); if (strcmp (val, "FEC_NONE") == 0) g_object_set (dvbbasebin, "code-rate-hp", 0, NULL); else if (strcmp (val, "FEC_1_2") == 0) g_object_set (dvbbasebin, "code-rate-hp", 1, NULL); else if (strcmp (val, "FEC_2_3") == 0) g_object_set (dvbbasebin, "code-rate-hp", 2, NULL); else if (strcmp (val, "FEC_3_4") == 0) g_object_set (dvbbasebin, "code-rate-hp", 3, NULL); else if (strcmp (val, "FEC_4_5") == 0) g_object_set (dvbbasebin, "code-rate-hp", 4, NULL); else if (strcmp (val, "FEC_5_6") == 0) g_object_set (dvbbasebin, "code-rate-hp", 5, NULL); else if (strcmp (val, "FEC_6_7") == 0) g_object_set (dvbbasebin, "code-rate-hp", 6, NULL); else if (strcmp (val, "FEC_7_8") == 0) g_object_set (dvbbasebin, "code-rate-hp", 7, NULL); else if (strcmp (val, "FEC_8_9") == 0) g_object_set (dvbbasebin, "code-rate-hp", 8, NULL); else g_object_set (dvbbasebin, "code-rate-hp", 9, NULL); val = g_hash_table_lookup (params, "code-rate-lp"); if (strcmp (val, "FEC_NONE") == 0) g_object_set (dvbbasebin, "code-rate-lp", 0, NULL); else if (strcmp (val, "FEC_1_2") == 0) g_object_set (dvbbasebin, "code-rate-lp", 1, NULL); else if (strcmp (val, "FEC_2_3") == 0) g_object_set (dvbbasebin, "code-rate-lp", 2, NULL); else if (strcmp (val, "FEC_3_4") == 0) g_object_set (dvbbasebin, "code-rate-lp", 3, NULL); else if (strcmp (val, "FEC_4_5") == 0) g_object_set (dvbbasebin, "code-rate-lp", 4, NULL); else if (strcmp (val, "FEC_5_6") == 0) g_object_set (dvbbasebin, "code-rate-lp", 5, NULL); else if (strcmp (val, "FEC_6_7") == 0) g_object_set (dvbbasebin, "code-rate-lp", 6, NULL); else if (strcmp (val, "FEC_7_8") == 0) g_object_set (dvbbasebin, "code-rate-lp", 7, NULL); else if (strcmp (val, "FEC_8_9") == 0) g_object_set (dvbbasebin, "code-rate-lp", 8, NULL); else g_object_set (dvbbasebin, "code-rate-lp", 9, NULL); val = g_hash_table_lookup (params, "modulation"); if (strcmp (val, "QPSK") == 0) g_object_set (dvbbasebin, "modulation", 0, NULL); else if (strcmp (val, "QAM_16") == 0) g_object_set (dvbbasebin, "modulation", 1, NULL); else if (strcmp (val, "QAM_32") == 0) g_object_set (dvbbasebin, "modulation", 2, NULL); else if (strcmp (val, "QAM_64") == 0) g_object_set (dvbbasebin, "modulation", 3, NULL); else if (strcmp (val, "QAM_128") == 0) g_object_set (dvbbasebin, "modulation", 4, NULL); else if (strcmp (val, "QAM_256") == 0) g_object_set (dvbbasebin, "modulation", 5, NULL); else g_object_set (dvbbasebin, "modulation", 6, NULL); val = g_hash_table_lookup (params, "transmission-mode"); if (strcmp (val, "TRANSMISSION_MODE_2K") == 0) g_object_set (dvbbasebin, "trans-mode", 0, NULL); else if (strcmp (val, "TRANSMISSION_MODE_8K") == 0) g_object_set (dvbbasebin, "trans-mode", 1, NULL); else g_object_set (dvbbasebin, "trans-mode", 2, NULL); val = g_hash_table_lookup (params, "guard"); if (strcmp (val, "GUARD_INTERVAL_1_32") == 0) g_object_set (dvbbasebin, "guard", 0, NULL); else if (strcmp (val, "GUARD_INTERVAL_1_16") == 0) g_object_set (dvbbasebin, "guard", 1, NULL); else if (strcmp (val, "GUARD_INTERVAL_1_8") == 0) g_object_set (dvbbasebin, "guard", 2, NULL); else if (strcmp (val, "GUARD_INTERVAL_1_4") == 0) g_object_set (dvbbasebin, "guard", 3, NULL); else g_object_set (dvbbasebin, "guard", 4, NULL); val = g_hash_table_lookup (params, "hierarchy"); if (strcmp (val, "HIERARCHY_NONE") == 0) g_object_set (dvbbasebin, "hierarchy", 0, NULL); else if (strcmp (val, "HIERARCHY_1") == 0) g_object_set (dvbbasebin, "hierarchy", 1, NULL); else if (strcmp (val, "HIERARCHY_2") == 0) g_object_set (dvbbasebin, "hierarchy", 2, NULL); else if (strcmp (val, "HIERARCHY_4") == 0) g_object_set (dvbbasebin, "hierarchy", 3, NULL); else g_object_set (dvbbasebin, "hierarchy", 4, NULL); ret = TRUE; } else if (strcmp (type, "satellite") == 0) { gchar *val; ret = TRUE; g_object_set (dvbbasebin, "delsys", SYS_DVBS, NULL); val = g_hash_table_lookup (params, "polarity"); if (val) g_object_set (dvbbasebin, "polarity", val, NULL); else ret = FALSE; val = g_hash_table_lookup (params, "diseqc-source"); if (val) g_object_set (dvbbasebin, "diseqc-source", atoi (val), NULL); val = g_hash_table_lookup (params, "symbol-rate"); if (val) g_object_set (dvbbasebin, "symbol-rate", atoi (val), NULL); else ret = FALSE; } else if (strcmp (type, "cable") == 0) { gchar *val; g_object_set (dvbbasebin, "delsys", SYS_DVBC_ANNEX_A, NULL); ret = TRUE; val = g_hash_table_lookup (params, "symbol-rate"); if (val) g_object_set (dvbbasebin, "symbol-rate", atoi (val) / 1000, NULL); val = g_hash_table_lookup (params, "modulation"); if (strcmp (val, "QPSK") == 0) g_object_set (dvbbasebin, "modulation", 0, NULL); else if (strcmp (val, "QAM_16") == 0) g_object_set (dvbbasebin, "modulation", 1, NULL); else if (strcmp (val, "QAM_32") == 0) g_object_set (dvbbasebin, "modulation", 2, NULL); else if (strcmp (val, "QAM_64") == 0) g_object_set (dvbbasebin, "modulation", 3, NULL); else if (strcmp (val, "QAM_128") == 0) g_object_set (dvbbasebin, "modulation", 4, NULL); else if (strcmp (val, "QAM_256") == 0) g_object_set (dvbbasebin, "modulation", 5, NULL); else g_object_set (dvbbasebin, "modulation", 6, NULL); val = g_hash_table_lookup (params, "code-rate-hp"); if (strcmp (val, "FEC_NONE") == 0) g_object_set (dvbbasebin, "code-rate-hp", 0, NULL); else if (strcmp (val, "FEC_1_2") == 0) g_object_set (dvbbasebin, "code-rate-hp", 1, NULL); else if (strcmp (val, "FEC_2_3") == 0) g_object_set (dvbbasebin, "code-rate-hp", 2, NULL); else if (strcmp (val, "FEC_3_4") == 0) g_object_set (dvbbasebin, "code-rate-hp", 3, NULL); else if (strcmp (val, "FEC_4_5") == 0) g_object_set (dvbbasebin, "code-rate-hp", 4, NULL); else if (strcmp (val, "FEC_5_6") == 0) g_object_set (dvbbasebin, "code-rate-hp", 5, NULL); else if (strcmp (val, "FEC_6_7") == 0) g_object_set (dvbbasebin, "code-rate-hp", 6, NULL); else if (strcmp (val, "FEC_7_8") == 0) g_object_set (dvbbasebin, "code-rate-hp", 7, NULL); else if (strcmp (val, "FEC_8_9") == 0) g_object_set (dvbbasebin, "code-rate-hp", 8, NULL); else g_object_set (dvbbasebin, "code-rate-hp", 9, NULL); val = g_hash_table_lookup (params, "inversion"); if (strcmp (val, "INVERSION_OFF") == 0) g_object_set (dvbbasebin, "inversion", 0, NULL); else if (strcmp (val, "INVERSION_ON") == 0) g_object_set (dvbbasebin, "inversion", 1, NULL); else g_object_set (dvbbasebin, "inversion", 2, NULL); } else if (strcmp (type, "atsc") == 0) { gchar *val; ret = TRUE; g_object_set (dvbbasebin, "delsys", SYS_ATSC, NULL); val = g_hash_table_lookup (params, "modulation"); if (strcmp (val, "QAM_64") == 0) g_object_set (dvbbasebin, "modulation", 3, NULL); else if (strcmp (val, "QAM_256") == 0) g_object_set (dvbbasebin, "modulation", 5, NULL); else if (strcmp (val, "8VSB") == 0) g_object_set (dvbbasebin, "modulation", 7, NULL); else if (strcmp (val, "16VSB") == 0) g_object_set (dvbbasebin, "modulation", 8, NULL); else ret = FALSE; } destroy_channels_hash (channels); beach: return ret; unknown_channel: { /* FIXME: is channel name guaranteed to be ASCII or UTF-8? */ g_set_error (error, GST_RESOURCE_ERROR, GST_RESOURCE_ERROR_NOT_FOUND, _("Couldn't find details for DVB channel %s"), channel_name); destroy_channels_hash (channels); return FALSE; } }