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libtsfuncs
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libtsfuncs is a library for mpeg PSI parsing and generation. https://georgi.unixsol.org/programs/libtsfuncs/
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libtsfuncs/tsfuncs_nit_desc.c

tsfuncs_nit_desc.c 6.5KB
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  1. #include <stdio.h>

  2. #include <unistd.h>

  3. #include <netdb.h>

  4. #include <stdlib.h>

  5. #include <string.h>

  6. 

  7. #include "tsfuncs.h"

  8. 

  9. static void ts_nit_regenerate_packet_data(struct ts_nit *nit) {

  10. 	uint8_t *ts_packets;

  11. 	int num_packets;

  12. 	ts_nit_generate(nit, &ts_packets, &num_packets);

  13. 	memcpy(nit->section_header->packet_data, ts_packets, num_packets * TS_PACKET_SIZE);

  14. 	nit->section_header->num_packets = num_packets;

  15. 	free(ts_packets);

  16. }

  17. 

  18. static void ts_nit_init_private_variables(struct ts_nit *nit) {

  19. 	nit->section_header->data_size          = nit->section_header->section_length + 3;

  20. 	nit->section_header->packet_section_len = nit->section_header->data_size - 8 - 4;	// -8 for the section header, -4 for the CRC at the end

  21. 	ts_nit_regenerate_packet_data(nit);

  22. }

  23. 

  24. struct ts_nit *ts_nit_alloc_init(uint16_t network_id) {

  25. 	struct ts_nit *nit = ts_nit_alloc();

  26. 

  27. 	nit->ts_header.pid            = 0x10;

  28. 	nit->ts_header.pusi           = 1;

  29. 	nit->ts_header.payload_field  = 1;

  30. 	nit->ts_header.payload_offset = 4;

  31. 

  32. 	nit->section_header->table_id                 = 0x40;

  33. 	nit->section_header->version_number           = 1;

  34. 	nit->section_header->current_next_indicator   = 1;

  35. 	nit->section_header->section_syntax_indicator = 1;

  36. 	nit->section_header->private_indicator        = 1;

  37. 	nit->section_header->section_length           = 9 + 4; // Empty section, +4 (16+16) for NIT table data

  38. 	nit->section_header->ts_id_number             = network_id;

  39. 	nit->section_header->reserved1                = 3;

  40. 	nit->section_header->reserved2                = 3;

  41. 

  42. 	nit->reserved1           = 0xf;

  43. 	nit->network_info_size   = 0;		// 16 bits

  44. 	nit->reserved2           = 0xf;

  45. 	nit->ts_loop_size        = 0;		// 16 bits

  46. 

  47. 	nit->initialized = 1;

  48. 

  49. 	ts_nit_init_private_variables(nit);

  50. 

  51. 	return nit;

  52. }

  53. 

  54. int ts_nit_add_network_name_descriptor(struct ts_nit *nit, char *network_name) {

  55. 	if (!network_name || strlen(network_name) > 255)

  56. 		return 0;

  57. 

  58. 	nit->network_info_size = strlen(network_name) + 2;

  59. 

  60. 	uint8_t *descriptor = calloc(1, nit->network_info_size);

  61. 	int dpos = 0;

  62. 	descriptor[dpos + 0] = 0x40;						// Network name descriptor

  63. 	descriptor[dpos + 1] = nit->network_info_size - 2;	// -2 Because of two byte header

  64. 	dpos += 2;

  65. 	char *name = network_name;

  66. 	while (name[0]) {

  67. 		descriptor[dpos++] = name[0];

  68. 		name++;

  69. 	}

  70. 	nit->network_info = descriptor;

  71. 	nit->section_header->section_length += nit->network_info_size;

  72. 

  73. 	ts_nit_init_private_variables(nit);

  74. 	return 1;

  75. }

  76. 

  77. static int ts_nit_add_stream(struct ts_nit *nit, uint16_t ts_id, uint16_t org_net_id, uint8_t *desc, uint8_t desc_size) {

  78. 	if (nit->streams_num == nit->streams_max - 1 || desc_size == 0) {

  79. 		FREE(desc);

  80. 		return 0;

  81. 	}

  82. 

  83. 	int stream_len = 2 + 2 + 1 + 1 + desc_size;

  84. 	if (stream_len + nit->section_header->section_length > 4093) {

  85. 		ts_LOGf("NIT no space left, max 4093, current %d will become %d!\n",

  86. 			nit->section_header->section_length,

  87. 			stream_len + nit->section_header->section_length);

  88. 		free(desc);

  89. 		return 0;

  90. 	}

  91. 

  92. 	nit->ts_loop_size                   += stream_len;

  93. 	nit->section_header->section_length += stream_len;

  94. 

  95. 	struct ts_nit_stream *sinfo = calloc(1, sizeof(struct ts_nit_stream));

  96. 	sinfo->transport_stream_id = ts_id;			// 2 bytes

  97. 	sinfo->original_network_id = org_net_id;	// 2 bytes

  98. 	sinfo->reserved1           = 15;			// 1 byte

  99. 	sinfo->descriptor_size     = desc_size;		// 1 byte

  100. 	sinfo->descriptor_data     = desc;			// desc_size bytes

  101. 

  102. 	nit->streams[nit->streams_num] = sinfo;

  103. 	nit->streams_num++;

  104. 

  105. 	ts_nit_init_private_variables(nit);

  106. 

  107. 	return 1;

  108. }

  109. 

  110. // freq_type 0 == undefined

  111. // freq_type 1 == satellite

  112. // freq_type 2 == cable

  113. // freq_type 3 == terrestrial

  114. static int ts_nit_add_frequency_list_descriptor(struct ts_nit *nit, uint16_t ts_id, uint16_t org_net_id, uint8_t freq_type, uint32_t *freqs, uint8_t num_freqs) {

  115. 	uint8_t i;

  116. 	if (!num_freqs || num_freqs > 63)

  117. 		return 0;

  118. 	int desc_size = 2 + 1 + num_freqs * 4;		// 2 for header desc header, 1 for coding type, 4 for each frequency

  119. 	uint8_t *desc = calloc(1, desc_size);

  120. 	int dpos = 0;

  121. 	desc[dpos + 0] = 0x62;				// frequency_list_descriptor

  122. 	desc[dpos + 1] = desc_size - 2;		// -2 Because of two byte header

  123. 	desc[dpos + 2] = 0xfc | freq_type;	// 6 bits reserved, 2 bits freq_type

  124. 	dpos += 3;

  125. 	for(i=0;i<num_freqs;i++) {

  126. 		uint32_t freq = freqs[i];

  127. 		desc[dpos + 0] = ((freq &~ 0x00ffffff) >> 24);

  128. 		desc[dpos + 1] = ((freq &~ 0xff00ffff) >> 16);

  129. 		desc[dpos + 2] = ((freq &~ 0xffff00ff) >>  8);

  130. 		desc[dpos + 3] =  (freq &~ 0xffffff00);

  131. 		dpos += 4;

  132. 	}

  133. 	return ts_nit_add_stream(nit, ts_id, org_net_id, desc, desc_size);

  134. }

  135. 

  136. 

  137. int ts_nit_add_frequency_list_descriptor_cable(struct ts_nit *nit, uint16_t ts_id, uint16_t org_net_id, uint32_t *freqs, uint8_t num_freqs) {

  138. 	return ts_nit_add_frequency_list_descriptor(nit, ts_id, org_net_id, 2, freqs, num_freqs);

  139. }

  140. 

  141. int ts_nit_add_cable_delivery_descriptor(struct ts_nit *nit, uint16_t ts_id, uint16_t org_net_id, uint32_t freq, uint8_t modulation, uint32_t symbol_rate) {

  142. 	int desc_size = 13;

  143. 	uint8_t *desc = calloc(1, desc_size);

  144. 	desc[ 0] = 0x44;							// cable_delivey_system_descriptor

  145. 	desc[ 1] = 11;								// -2 Because of two byte header

  146. 	desc[ 2] = ((freq &~ 0x00ffffff) >> 24);	// 32 bits, frequency

  147. 	desc[ 3] = ((freq &~ 0xff00ffff) >> 16);

  148. 	desc[ 4] = ((freq &~ 0xffff00ff) >>  8);

  149. 	desc[ 5] =  (freq &~ 0xffffff00);

  150. 	desc[ 6] = 0xff;								// 8 bits reserved

  151. 	desc[ 7] = 0xf0;								// 4 bits reserved, 4 bits FEC_outer (0 == not defined)

  152. 	desc[ 8] = modulation;							// 8 bits reserved

  153. 	desc[ 9] = (symbol_rate >> 20) &~ 0xffffff00;	// 28 bits, symbol_rate

  154. 	desc[10] = (symbol_rate >> 12) &~ 0xffffff00;

  155. 	desc[11] = (symbol_rate >> 4 ) &~ 0xffffff00;

  156. 	desc[12] = (symbol_rate &~ 0xfffffff0) << 4;	// 4 bits

  157. 	desc[12] |= 0;									// 4 bits FEC_inner (0 == not defined)

  158. 	return ts_nit_add_stream(nit, ts_id, org_net_id, desc, desc_size);

  159. }

  160. 

  161. int ts_nit_add_service_list_descriptor(struct ts_nit *nit, uint16_t ts_id, uint16_t org_net_id, uint32_t *services, uint8_t num_services) {

  162. 	uint8_t i;

  163. 	if (!num_services || num_services > 85) // 85 * 3 == 255

  164. 		return 0;

  165. 	int desc_size = 2 + num_services * 3;		// 2 for header desc header, 3 for each service

  166. 	uint8_t *desc = calloc(1, desc_size);

  167. 	int dpos = 0;

  168. 	desc[dpos + 0] = 0x41;				// service_list_descriptor

  169. 	desc[dpos + 1] = desc_size - 2;		// -2 Because of two byte header

  170. 	dpos += 2;

  171. 	for(i=0;i<num_services;i++) {

  172. 		uint32_t srv = services[i];

  173. 		desc[dpos + 0] = (srv &~ 0xff00ffff) >> 16;	// service_id (16 bits)

  174. 		desc[dpos + 1] = (srv &~ 0xffff00ff) >>  8;

  175. 		desc[dpos + 2] = (srv &~ 0xffffff00);		// service_type (8 bits)

  176. 		dpos += 3;

  177. 	}

  178. 	return ts_nit_add_stream(nit, ts_id, org_net_id, desc, desc_size);

  179. }