dvb_net.c 42 KB

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  1. // SPDX-License-Identifier: GPL-2.0-or-later
  2. /*
  3. * dvb_net.c
  4. *
  5. * Copyright (C) 2001 Convergence integrated media GmbH
  6. * Ralph Metzler <ralph@convergence.de>
  7. * Copyright (C) 2002 Ralph Metzler <rjkm@metzlerbros.de>
  8. *
  9. * ULE Decapsulation code:
  10. * Copyright (C) 2003, 2004 gcs - Global Communication & Services GmbH.
  11. * and Department of Scientific Computing
  12. * Paris Lodron University of Salzburg.
  13. * Hilmar Linder <hlinder@cosy.sbg.ac.at>
  14. * and Wolfram Stering <wstering@cosy.sbg.ac.at>
  15. *
  16. * ULE Decaps according to RFC 4326.
  17. */
  18. /*
  19. * ULE ChangeLog:
  20. * Feb 2004: hl/ws v1: Implementing draft-fair-ipdvb-ule-01.txt
  21. *
  22. * Dec 2004: hl/ws v2: Implementing draft-ietf-ipdvb-ule-03.txt:
  23. * ULE Extension header handling.
  24. * Bugreports by Moritz Vieth and Hanno Tersteegen,
  25. * Fraunhofer Institute for Open Communication Systems
  26. * Competence Center for Advanced Satellite Communications.
  27. * Bugfixes and robustness improvements.
  28. * Filtering on dest MAC addresses, if present (D-Bit = 0)
  29. * DVB_ULE_DEBUG compile-time option.
  30. * Apr 2006: cp v3: Bugfixes and compliency with RFC 4326 (ULE) by
  31. * Christian Praehauser <cpraehaus@cosy.sbg.ac.at>,
  32. * Paris Lodron University of Salzburg.
  33. */
  34. /*
  35. * FIXME / TODO (dvb_net.c):
  36. *
  37. * Unloading does not work for 2.6.9 kernels: a refcount doesn't go to zero.
  38. *
  39. */
  40. #define pr_fmt(fmt) "dvb_net: " fmt
  41. #include <linux/module.h>
  42. #include <linux/kernel.h>
  43. #include <linux/netdevice.h>
  44. #include <linux/nospec.h>
  45. #include <linux/etherdevice.h>
  46. #include <linux/dvb/net.h>
  47. #include <linux/uio.h>
  48. #include <linux/uaccess.h>
  49. #include <linux/crc32.h>
  50. #include <linux/mutex.h>
  51. #include <linux/sched.h>
  52. #include <media/dvb_demux.h>
  53. #include <media/dvb_net.h>
  54. static inline __u32 iov_crc32( __u32 c, struct kvec *iov, unsigned int cnt )
  55. {
  56. unsigned int j;
  57. for (j = 0; j < cnt; j++)
  58. c = crc32_be( c, iov[j].iov_base, iov[j].iov_len );
  59. return c;
  60. }
  61. #define DVB_NET_MULTICAST_MAX 10
  62. #ifdef DVB_ULE_DEBUG
  63. /*
  64. * The code inside DVB_ULE_DEBUG keeps a history of the
  65. * last 100 TS cells processed.
  66. */
  67. static unsigned char ule_hist[100*TS_SZ] = { 0 };
  68. static unsigned char *ule_where = ule_hist, ule_dump;
  69. static void hexdump(const unsigned char *buf, unsigned short len)
  70. {
  71. print_hex_dump_debug("", DUMP_PREFIX_OFFSET, 16, 1, buf, len, true);
  72. }
  73. #endif
  74. struct dvb_net_priv {
  75. int in_use;
  76. u16 pid;
  77. struct net_device *net;
  78. struct dvb_net *host;
  79. struct dmx_demux *demux;
  80. struct dmx_section_feed *secfeed;
  81. struct dmx_section_filter *secfilter;
  82. struct dmx_ts_feed *tsfeed;
  83. int multi_num;
  84. struct dmx_section_filter *multi_secfilter[DVB_NET_MULTICAST_MAX];
  85. unsigned char multi_macs[DVB_NET_MULTICAST_MAX][6];
  86. int rx_mode;
  87. #define RX_MODE_UNI 0
  88. #define RX_MODE_MULTI 1
  89. #define RX_MODE_ALL_MULTI 2
  90. #define RX_MODE_PROMISC 3
  91. struct work_struct set_multicast_list_wq;
  92. struct work_struct restart_net_feed_wq;
  93. unsigned char feedtype; /* Either FEED_TYPE_ or FEED_TYPE_ULE */
  94. int need_pusi; /* Set to 1, if synchronization on PUSI required. */
  95. unsigned char tscc; /* TS continuity counter after sync on PUSI. */
  96. struct sk_buff *ule_skb; /* ULE SNDU decodes into this buffer. */
  97. unsigned char *ule_next_hdr; /* Pointer into skb to next ULE extension header. */
  98. unsigned short ule_sndu_len; /* ULE SNDU length in bytes, w/o D-Bit. */
  99. unsigned short ule_sndu_type; /* ULE SNDU type field, complete. */
  100. unsigned char ule_sndu_type_1; /* ULE SNDU type field, if split across 2 TS cells. */
  101. unsigned char ule_dbit; /* Whether the DestMAC address present
  102. * or not (bit is set). */
  103. unsigned char ule_bridged; /* Whether the ULE_BRIDGED extension header was found. */
  104. int ule_sndu_remain; /* Nr. of bytes still required for current ULE SNDU. */
  105. unsigned long ts_count; /* Current ts cell counter. */
  106. struct mutex mutex;
  107. };
  108. /*
  109. * Determine the packet's protocol ID. The rule here is that we
  110. * assume 802.3 if the type field is short enough to be a length.
  111. * This is normal practice and works for any 'now in use' protocol.
  112. *
  113. * stolen from eth.c out of the linux kernel, hacked for dvb-device
  114. * by Michael Holzt <kju@debian.org>
  115. */
  116. static __be16 dvb_net_eth_type_trans(struct sk_buff *skb,
  117. struct net_device *dev)
  118. {
  119. struct ethhdr *eth;
  120. unsigned char *rawp;
  121. skb_reset_mac_header(skb);
  122. skb_pull(skb,dev->hard_header_len);
  123. eth = eth_hdr(skb);
  124. if (*eth->h_dest & 1) {
  125. if(ether_addr_equal(eth->h_dest,dev->broadcast))
  126. skb->pkt_type=PACKET_BROADCAST;
  127. else
  128. skb->pkt_type=PACKET_MULTICAST;
  129. }
  130. if (ntohs(eth->h_proto) >= ETH_P_802_3_MIN)
  131. return eth->h_proto;
  132. rawp = skb->data;
  133. /*
  134. * This is a magic hack to spot IPX packets. Older Novell breaks
  135. * the protocol design and runs IPX over 802.3 without an 802.2 LLC
  136. * layer. We look for FFFF which isn't a used 802.2 SSAP/DSAP. This
  137. * won't work for fault tolerant netware but does for the rest.
  138. */
  139. if (*(unsigned short *)rawp == 0xFFFF)
  140. return htons(ETH_P_802_3);
  141. /*
  142. * Real 802.2 LLC
  143. */
  144. return htons(ETH_P_802_2);
  145. }
  146. #define TS_SZ 188
  147. #define TS_SYNC 0x47
  148. #define TS_TEI 0x80
  149. #define TS_SC 0xC0
  150. #define TS_PUSI 0x40
  151. #define TS_AF_A 0x20
  152. #define TS_AF_D 0x10
  153. /* ULE Extension Header handlers. */
  154. #define ULE_TEST 0
  155. #define ULE_BRIDGED 1
  156. #define ULE_OPTEXTHDR_PADDING 0
  157. static int ule_test_sndu( struct dvb_net_priv *p )
  158. {
  159. return -1;
  160. }
  161. static int ule_bridged_sndu( struct dvb_net_priv *p )
  162. {
  163. struct ethhdr *hdr = (struct ethhdr*) p->ule_next_hdr;
  164. if(ntohs(hdr->h_proto) < ETH_P_802_3_MIN) {
  165. int framelen = p->ule_sndu_len - ((p->ule_next_hdr+sizeof(struct ethhdr)) - p->ule_skb->data);
  166. /* A frame Type < ETH_P_802_3_MIN for a bridged frame, introduces a LLC Length field. */
  167. if(framelen != ntohs(hdr->h_proto)) {
  168. return -1;
  169. }
  170. }
  171. /* Note:
  172. * From RFC4326:
  173. * "A bridged SNDU is a Mandatory Extension Header of Type 1.
  174. * It must be the final (or only) extension header specified in the header chain of a SNDU."
  175. * The 'ule_bridged' flag will cause the extension header processing loop to terminate.
  176. */
  177. p->ule_bridged = 1;
  178. return 0;
  179. }
  180. static int ule_exthdr_padding(struct dvb_net_priv *p)
  181. {
  182. return 0;
  183. }
  184. /*
  185. * Handle ULE extension headers.
  186. * Function is called after a successful CRC32 verification of an ULE SNDU to complete its decoding.
  187. * Returns: >= 0: nr. of bytes consumed by next extension header
  188. * -1: Mandatory extension header that is not recognized or TEST SNDU; discard.
  189. */
  190. static int handle_one_ule_extension( struct dvb_net_priv *p )
  191. {
  192. /* Table of mandatory extension header handlers. The header type is the index. */
  193. static int (*ule_mandatory_ext_handlers[255])( struct dvb_net_priv *p ) =
  194. { [0] = ule_test_sndu, [1] = ule_bridged_sndu, [2] = NULL, };
  195. /* Table of optional extension header handlers. The header type is the index. */
  196. static int (*ule_optional_ext_handlers[255])( struct dvb_net_priv *p ) =
  197. { [0] = ule_exthdr_padding, [1] = NULL, };
  198. int ext_len = 0;
  199. unsigned char hlen = (p->ule_sndu_type & 0x0700) >> 8;
  200. unsigned char htype = p->ule_sndu_type & 0x00FF;
  201. if (htype >= ARRAY_SIZE(ule_mandatory_ext_handlers))
  202. return -1;
  203. /* Discriminate mandatory and optional extension headers. */
  204. if (hlen == 0) {
  205. /* Mandatory extension header */
  206. if (ule_mandatory_ext_handlers[htype]) {
  207. ext_len = ule_mandatory_ext_handlers[htype]( p );
  208. if(ext_len >= 0) {
  209. p->ule_next_hdr += ext_len;
  210. if (!p->ule_bridged) {
  211. p->ule_sndu_type = ntohs(*(__be16 *)p->ule_next_hdr);
  212. p->ule_next_hdr += 2;
  213. } else {
  214. p->ule_sndu_type = ntohs(*(__be16 *)(p->ule_next_hdr + ((p->ule_dbit ? 2 : 3) * ETH_ALEN)));
  215. /* This assures the extension handling loop will terminate. */
  216. }
  217. }
  218. // else: extension handler failed or SNDU should be discarded
  219. } else
  220. ext_len = -1; /* SNDU has to be discarded. */
  221. } else {
  222. /* Optional extension header. Calculate the length. */
  223. ext_len = hlen << 1;
  224. /* Process the optional extension header according to its type. */
  225. if (ule_optional_ext_handlers[htype])
  226. (void)ule_optional_ext_handlers[htype]( p );
  227. p->ule_next_hdr += ext_len;
  228. p->ule_sndu_type = ntohs( *(__be16 *)(p->ule_next_hdr-2) );
  229. /*
  230. * note: the length of the next header type is included in the
  231. * length of THIS optional extension header
  232. */
  233. }
  234. return ext_len;
  235. }
  236. static int handle_ule_extensions( struct dvb_net_priv *p )
  237. {
  238. int total_ext_len = 0, l;
  239. p->ule_next_hdr = p->ule_skb->data;
  240. do {
  241. l = handle_one_ule_extension( p );
  242. if (l < 0)
  243. return l; /* Stop extension header processing and discard SNDU. */
  244. total_ext_len += l;
  245. pr_debug("ule_next_hdr=%p, ule_sndu_type=%i, l=%i, total_ext_len=%i\n",
  246. p->ule_next_hdr, (int)p->ule_sndu_type,
  247. l, total_ext_len);
  248. } while (p->ule_sndu_type < ETH_P_802_3_MIN);
  249. return total_ext_len;
  250. }
  251. /* Prepare for a new ULE SNDU: reset the decoder state. */
  252. static inline void reset_ule( struct dvb_net_priv *p )
  253. {
  254. p->ule_skb = NULL;
  255. p->ule_next_hdr = NULL;
  256. p->ule_sndu_len = 0;
  257. p->ule_sndu_type = 0;
  258. p->ule_sndu_type_1 = 0;
  259. p->ule_sndu_remain = 0;
  260. p->ule_dbit = 0xFF;
  261. p->ule_bridged = 0;
  262. }
  263. /*
  264. * Decode ULE SNDUs according to draft-ietf-ipdvb-ule-03.txt from a sequence of
  265. * TS cells of a single PID.
  266. */
  267. struct dvb_net_ule_handle {
  268. struct net_device *dev;
  269. struct dvb_net_priv *priv;
  270. struct ethhdr *ethh;
  271. const u8 *buf;
  272. size_t buf_len;
  273. unsigned long skipped;
  274. const u8 *ts, *ts_end, *from_where;
  275. u8 ts_remain, how_much, new_ts;
  276. bool error;
  277. };
  278. static int dvb_net_ule_new_ts_cell(struct dvb_net_ule_handle *h)
  279. {
  280. /* We are about to process a new TS cell. */
  281. #ifdef DVB_ULE_DEBUG
  282. if (ule_where >= &ule_hist[100*TS_SZ])
  283. ule_where = ule_hist;
  284. memcpy(ule_where, h->ts, TS_SZ);
  285. if (ule_dump) {
  286. hexdump(ule_where, TS_SZ);
  287. ule_dump = 0;
  288. }
  289. ule_where += TS_SZ;
  290. #endif
  291. /*
  292. * Check TS h->error conditions: sync_byte, transport_error_indicator,
  293. * scrambling_control .
  294. */
  295. if ((h->ts[0] != TS_SYNC) || (h->ts[1] & TS_TEI) ||
  296. ((h->ts[3] & TS_SC) != 0)) {
  297. pr_warn("%lu: Invalid TS cell: SYNC %#x, TEI %u, SC %#x.\n",
  298. h->priv->ts_count, h->ts[0],
  299. (h->ts[1] & TS_TEI) >> 7,
  300. (h->ts[3] & TS_SC) >> 6);
  301. /* Drop partly decoded SNDU, reset state, resync on PUSI. */
  302. if (h->priv->ule_skb) {
  303. dev_kfree_skb(h->priv->ule_skb);
  304. /* Prepare for next SNDU. */
  305. h->dev->stats.rx_errors++;
  306. h->dev->stats.rx_frame_errors++;
  307. }
  308. reset_ule(h->priv);
  309. h->priv->need_pusi = 1;
  310. /* Continue with next TS cell. */
  311. h->ts += TS_SZ;
  312. h->priv->ts_count++;
  313. return 1;
  314. }
  315. h->ts_remain = 184;
  316. h->from_where = h->ts + 4;
  317. return 0;
  318. }
  319. static int dvb_net_ule_ts_pusi(struct dvb_net_ule_handle *h)
  320. {
  321. if (h->ts[1] & TS_PUSI) {
  322. /* Find beginning of first ULE SNDU in current TS cell. */
  323. /* Synchronize continuity counter. */
  324. h->priv->tscc = h->ts[3] & 0x0F;
  325. /* There is a pointer field here. */
  326. if (h->ts[4] > h->ts_remain) {
  327. pr_err("%lu: Invalid ULE packet (pointer field %d)\n",
  328. h->priv->ts_count, h->ts[4]);
  329. h->ts += TS_SZ;
  330. h->priv->ts_count++;
  331. return 1;
  332. }
  333. /* Skip to destination of pointer field. */
  334. h->from_where = &h->ts[5] + h->ts[4];
  335. h->ts_remain -= 1 + h->ts[4];
  336. h->skipped = 0;
  337. } else {
  338. h->skipped++;
  339. h->ts += TS_SZ;
  340. h->priv->ts_count++;
  341. return 1;
  342. }
  343. return 0;
  344. }
  345. static int dvb_net_ule_new_ts(struct dvb_net_ule_handle *h)
  346. {
  347. /* Check continuity counter. */
  348. if ((h->ts[3] & 0x0F) == h->priv->tscc)
  349. h->priv->tscc = (h->priv->tscc + 1) & 0x0F;
  350. else {
  351. /* TS discontinuity handling: */
  352. pr_warn("%lu: TS discontinuity: got %#x, expected %#x.\n",
  353. h->priv->ts_count, h->ts[3] & 0x0F,
  354. h->priv->tscc);
  355. /* Drop partly decoded SNDU, reset state, resync on PUSI. */
  356. if (h->priv->ule_skb) {
  357. dev_kfree_skb(h->priv->ule_skb);
  358. /* Prepare for next SNDU. */
  359. // reset_ule(h->priv); moved to below.
  360. h->dev->stats.rx_errors++;
  361. h->dev->stats.rx_frame_errors++;
  362. }
  363. reset_ule(h->priv);
  364. /* skip to next PUSI. */
  365. h->priv->need_pusi = 1;
  366. return 1;
  367. }
  368. /*
  369. * If we still have an incomplete payload, but PUSI is
  370. * set; some TS cells are missing.
  371. * This is only possible here, if we missed exactly 16 TS
  372. * cells (continuity counter wrap).
  373. */
  374. if (h->ts[1] & TS_PUSI) {
  375. if (!h->priv->need_pusi) {
  376. if (!(*h->from_where < (h->ts_remain-1)) ||
  377. *h->from_where != h->priv->ule_sndu_remain) {
  378. /*
  379. * Pointer field is invalid.
  380. * Drop this TS cell and any started ULE SNDU.
  381. */
  382. pr_warn("%lu: Invalid pointer field: %u.\n",
  383. h->priv->ts_count,
  384. *h->from_where);
  385. /*
  386. * Drop partly decoded SNDU, reset state,
  387. * resync on PUSI.
  388. */
  389. if (h->priv->ule_skb) {
  390. h->error = true;
  391. dev_kfree_skb(h->priv->ule_skb);
  392. }
  393. if (h->error || h->priv->ule_sndu_remain) {
  394. h->dev->stats.rx_errors++;
  395. h->dev->stats.rx_frame_errors++;
  396. h->error = false;
  397. }
  398. reset_ule(h->priv);
  399. h->priv->need_pusi = 1;
  400. return 1;
  401. }
  402. /*
  403. * Skip pointer field (we're processing a
  404. * packed payload).
  405. */
  406. h->from_where += 1;
  407. h->ts_remain -= 1;
  408. } else
  409. h->priv->need_pusi = 0;
  410. if (h->priv->ule_sndu_remain > 183) {
  411. /*
  412. * Current SNDU lacks more data than there
  413. * could be available in the current TS cell.
  414. */
  415. h->dev->stats.rx_errors++;
  416. h->dev->stats.rx_length_errors++;
  417. pr_warn("%lu: Expected %d more SNDU bytes, but got PUSI (pf %d, h->ts_remain %d). Flushing incomplete payload.\n",
  418. h->priv->ts_count,
  419. h->priv->ule_sndu_remain,
  420. h->ts[4], h->ts_remain);
  421. dev_kfree_skb(h->priv->ule_skb);
  422. /* Prepare for next SNDU. */
  423. reset_ule(h->priv);
  424. /*
  425. * Resync: go to where pointer field points to:
  426. * start of next ULE SNDU.
  427. */
  428. h->from_where += h->ts[4];
  429. h->ts_remain -= h->ts[4];
  430. }
  431. }
  432. return 0;
  433. }
  434. /*
  435. * Start a new payload with skb.
  436. * Find ULE header. It is only guaranteed that the
  437. * length field (2 bytes) is contained in the current
  438. * TS.
  439. * Check h.ts_remain has to be >= 2 here.
  440. */
  441. static int dvb_net_ule_new_payload(struct dvb_net_ule_handle *h)
  442. {
  443. if (h->ts_remain < 2) {
  444. pr_warn("Invalid payload packing: only %d bytes left in TS. Resyncing.\n",
  445. h->ts_remain);
  446. h->priv->ule_sndu_len = 0;
  447. h->priv->need_pusi = 1;
  448. h->ts += TS_SZ;
  449. return 1;
  450. }
  451. if (!h->priv->ule_sndu_len) {
  452. /* Got at least two bytes, thus extrace the SNDU length. */
  453. h->priv->ule_sndu_len = h->from_where[0] << 8 |
  454. h->from_where[1];
  455. if (h->priv->ule_sndu_len & 0x8000) {
  456. /* D-Bit is set: no dest mac present. */
  457. h->priv->ule_sndu_len &= 0x7FFF;
  458. h->priv->ule_dbit = 1;
  459. } else
  460. h->priv->ule_dbit = 0;
  461. if (h->priv->ule_sndu_len < 5) {
  462. pr_warn("%lu: Invalid ULE SNDU length %u. Resyncing.\n",
  463. h->priv->ts_count,
  464. h->priv->ule_sndu_len);
  465. h->dev->stats.rx_errors++;
  466. h->dev->stats.rx_length_errors++;
  467. h->priv->ule_sndu_len = 0;
  468. h->priv->need_pusi = 1;
  469. h->new_ts = 1;
  470. h->ts += TS_SZ;
  471. h->priv->ts_count++;
  472. return 1;
  473. }
  474. h->ts_remain -= 2; /* consume the 2 bytes SNDU length. */
  475. h->from_where += 2;
  476. }
  477. h->priv->ule_sndu_remain = h->priv->ule_sndu_len + 2;
  478. /*
  479. * State of current TS:
  480. * h->ts_remain (remaining bytes in the current TS cell)
  481. * 0 ule_type is not available now, we need the next TS cell
  482. * 1 the first byte of the ule_type is present
  483. * >=2 full ULE header present, maybe some payload data as well.
  484. */
  485. switch (h->ts_remain) {
  486. case 1:
  487. h->priv->ule_sndu_remain--;
  488. h->priv->ule_sndu_type = h->from_where[0] << 8;
  489. /* first byte of ule_type is set. */
  490. h->priv->ule_sndu_type_1 = 1;
  491. h->ts_remain -= 1;
  492. h->from_where += 1;
  493. fallthrough;
  494. case 0:
  495. h->new_ts = 1;
  496. h->ts += TS_SZ;
  497. h->priv->ts_count++;
  498. return 1;
  499. default: /* complete ULE header is present in current TS. */
  500. /* Extract ULE type field. */
  501. if (h->priv->ule_sndu_type_1) {
  502. h->priv->ule_sndu_type_1 = 0;
  503. h->priv->ule_sndu_type |= h->from_where[0];
  504. h->from_where += 1; /* points to payload start. */
  505. h->ts_remain -= 1;
  506. } else {
  507. /* Complete type is present in new TS. */
  508. h->priv->ule_sndu_type = h->from_where[0] << 8 |
  509. h->from_where[1];
  510. h->from_where += 2; /* points to payload start. */
  511. h->ts_remain -= 2;
  512. }
  513. break;
  514. }
  515. /*
  516. * Allocate the skb (decoder target buffer) with the correct size,
  517. * as follows:
  518. *
  519. * prepare for the largest case: bridged SNDU with MAC address
  520. * (dbit = 0).
  521. */
  522. h->priv->ule_skb = dev_alloc_skb(h->priv->ule_sndu_len +
  523. ETH_HLEN + ETH_ALEN);
  524. if (!h->priv->ule_skb) {
  525. pr_notice("%s: Memory squeeze, dropping packet.\n",
  526. h->dev->name);
  527. h->dev->stats.rx_dropped++;
  528. return -1;
  529. }
  530. /* This includes the CRC32 _and_ dest mac, if !dbit. */
  531. h->priv->ule_sndu_remain = h->priv->ule_sndu_len;
  532. h->priv->ule_skb->dev = h->dev;
  533. /*
  534. * Leave space for Ethernet or bridged SNDU header
  535. * (eth hdr plus one MAC addr).
  536. */
  537. skb_reserve(h->priv->ule_skb, ETH_HLEN + ETH_ALEN);
  538. return 0;
  539. }
  540. static int dvb_net_ule_should_drop(struct dvb_net_ule_handle *h)
  541. {
  542. static const u8 bc_addr[ETH_ALEN] = { [0 ... ETH_ALEN - 1] = 0xff };
  543. /*
  544. * The destination MAC address is the next data in the skb. It comes
  545. * before any extension headers.
  546. *
  547. * Check if the payload of this SNDU should be passed up the stack.
  548. */
  549. if (h->priv->rx_mode == RX_MODE_PROMISC)
  550. return 0;
  551. if (h->priv->ule_skb->data[0] & 0x01) {
  552. /* multicast or broadcast */
  553. if (!ether_addr_equal(h->priv->ule_skb->data, bc_addr)) {
  554. /* multicast */
  555. if (h->priv->rx_mode == RX_MODE_MULTI) {
  556. int i;
  557. for (i = 0; i < h->priv->multi_num &&
  558. !ether_addr_equal(h->priv->ule_skb->data,
  559. h->priv->multi_macs[i]);
  560. i++)
  561. ;
  562. if (i == h->priv->multi_num)
  563. return 1;
  564. } else if (h->priv->rx_mode != RX_MODE_ALL_MULTI)
  565. return 1; /* no broadcast; */
  566. /*
  567. * else:
  568. * all multicast mode: accept all multicast packets
  569. */
  570. }
  571. /* else: broadcast */
  572. } else if (!ether_addr_equal(h->priv->ule_skb->data, h->dev->dev_addr))
  573. return 1;
  574. return 0;
  575. }
  576. static void dvb_net_ule_check_crc(struct dvb_net_ule_handle *h,
  577. struct kvec iov[3],
  578. u32 ule_crc, u32 expected_crc)
  579. {
  580. u8 dest_addr[ETH_ALEN];
  581. if (ule_crc != expected_crc) {
  582. pr_warn("%lu: CRC32 check FAILED: %08x / %08x, SNDU len %d type %#x, ts_remain %d, next 2: %x.\n",
  583. h->priv->ts_count, ule_crc, expected_crc,
  584. h->priv->ule_sndu_len, h->priv->ule_sndu_type,
  585. h->ts_remain,
  586. h->ts_remain > 2 ?
  587. *(unsigned short *)h->from_where : 0);
  588. #ifdef DVB_ULE_DEBUG
  589. hexdump(iov[0].iov_base, iov[0].iov_len);
  590. hexdump(iov[1].iov_base, iov[1].iov_len);
  591. hexdump(iov[2].iov_base, iov[2].iov_len);
  592. if (ule_where == ule_hist) {
  593. hexdump(&ule_hist[98*TS_SZ], TS_SZ);
  594. hexdump(&ule_hist[99*TS_SZ], TS_SZ);
  595. } else if (ule_where == &ule_hist[TS_SZ]) {
  596. hexdump(&ule_hist[99*TS_SZ], TS_SZ);
  597. hexdump(ule_hist, TS_SZ);
  598. } else {
  599. hexdump(ule_where - TS_SZ - TS_SZ, TS_SZ);
  600. hexdump(ule_where - TS_SZ, TS_SZ);
  601. }
  602. ule_dump = 1;
  603. #endif
  604. h->dev->stats.rx_errors++;
  605. h->dev->stats.rx_crc_errors++;
  606. dev_kfree_skb(h->priv->ule_skb);
  607. return;
  608. }
  609. /* CRC32 verified OK. */
  610. /* CRC32 was OK, so remove it from skb. */
  611. h->priv->ule_skb->tail -= 4;
  612. h->priv->ule_skb->len -= 4;
  613. if (!h->priv->ule_dbit) {
  614. if (dvb_net_ule_should_drop(h)) {
  615. netdev_dbg(h->dev,
  616. "Dropping SNDU: MAC destination address does not match: dest addr: %pM, h->dev addr: %pM\n",
  617. h->priv->ule_skb->data, h->dev->dev_addr);
  618. dev_kfree_skb(h->priv->ule_skb);
  619. return;
  620. }
  621. skb_copy_from_linear_data(h->priv->ule_skb, dest_addr,
  622. ETH_ALEN);
  623. skb_pull(h->priv->ule_skb, ETH_ALEN);
  624. } else {
  625. /* dest_addr buffer is only valid if h->priv->ule_dbit == 0 */
  626. eth_zero_addr(dest_addr);
  627. }
  628. /* Handle ULE Extension Headers. */
  629. if (h->priv->ule_sndu_type < ETH_P_802_3_MIN) {
  630. /* There is an extension header. Handle it accordingly. */
  631. int l = handle_ule_extensions(h->priv);
  632. if (l < 0) {
  633. /*
  634. * Mandatory extension header unknown or TEST SNDU.
  635. * Drop it.
  636. */
  637. // pr_warn("Dropping SNDU, extension headers.\n" );
  638. dev_kfree_skb(h->priv->ule_skb);
  639. return;
  640. }
  641. skb_pull(h->priv->ule_skb, l);
  642. }
  643. /*
  644. * Construct/assure correct ethernet header.
  645. * Note: in bridged mode (h->priv->ule_bridged != 0)
  646. * we already have the (original) ethernet
  647. * header at the start of the payload (after
  648. * optional dest. address and any extension
  649. * headers).
  650. */
  651. if (!h->priv->ule_bridged) {
  652. skb_push(h->priv->ule_skb, ETH_HLEN);
  653. h->ethh = (struct ethhdr *)h->priv->ule_skb->data;
  654. memcpy(h->ethh->h_dest, dest_addr, ETH_ALEN);
  655. eth_zero_addr(h->ethh->h_source);
  656. h->ethh->h_proto = htons(h->priv->ule_sndu_type);
  657. }
  658. /* else: skb is in correct state; nothing to do. */
  659. h->priv->ule_bridged = 0;
  660. /* Stuff into kernel's protocol stack. */
  661. h->priv->ule_skb->protocol = dvb_net_eth_type_trans(h->priv->ule_skb,
  662. h->dev);
  663. /*
  664. * If D-bit is set (i.e. destination MAC address not present),
  665. * receive the packet anyhow.
  666. */
  667. #if 0
  668. if (h->priv->ule_dbit && skb->pkt_type == PACKET_OTHERHOST)
  669. h->priv->ule_skb->pkt_type = PACKET_HOST;
  670. #endif
  671. h->dev->stats.rx_packets++;
  672. h->dev->stats.rx_bytes += h->priv->ule_skb->len;
  673. netif_rx(h->priv->ule_skb);
  674. }
  675. static void dvb_net_ule(struct net_device *dev, const u8 *buf, size_t buf_len)
  676. {
  677. int ret;
  678. struct dvb_net_ule_handle h = {
  679. .dev = dev,
  680. .priv = netdev_priv(dev),
  681. .ethh = NULL,
  682. .buf = buf,
  683. .buf_len = buf_len,
  684. .skipped = 0L,
  685. .ts = NULL,
  686. .ts_end = NULL,
  687. .from_where = NULL,
  688. .ts_remain = 0,
  689. .how_much = 0,
  690. .new_ts = 1,
  691. .error = false,
  692. };
  693. /*
  694. * For all TS cells in current buffer.
  695. * Appearently, we are called for every single TS cell.
  696. */
  697. for (h.ts = h.buf, h.ts_end = h.buf + h.buf_len;
  698. h.ts < h.ts_end; /* no incr. */) {
  699. if (h.new_ts) {
  700. /* We are about to process a new TS cell. */
  701. if (dvb_net_ule_new_ts_cell(&h))
  702. continue;
  703. }
  704. /* Synchronize on PUSI, if required. */
  705. if (h.priv->need_pusi) {
  706. if (dvb_net_ule_ts_pusi(&h))
  707. continue;
  708. }
  709. if (h.new_ts) {
  710. if (dvb_net_ule_new_ts(&h))
  711. continue;
  712. }
  713. /* Check if new payload needs to be started. */
  714. if (h.priv->ule_skb == NULL) {
  715. ret = dvb_net_ule_new_payload(&h);
  716. if (ret < 0)
  717. return;
  718. if (ret)
  719. continue;
  720. }
  721. /* Copy data into our current skb. */
  722. h.how_much = min(h.priv->ule_sndu_remain, (int)h.ts_remain);
  723. skb_put_data(h.priv->ule_skb, h.from_where, h.how_much);
  724. h.priv->ule_sndu_remain -= h.how_much;
  725. h.ts_remain -= h.how_much;
  726. h.from_where += h.how_much;
  727. /* Check for complete payload. */
  728. if (h.priv->ule_sndu_remain <= 0) {
  729. /* Check CRC32, we've got it in our skb already. */
  730. __be16 ulen = htons(h.priv->ule_sndu_len);
  731. __be16 utype = htons(h.priv->ule_sndu_type);
  732. const u8 *tail;
  733. struct kvec iov[3] = {
  734. { &ulen, sizeof ulen },
  735. { &utype, sizeof utype },
  736. { h.priv->ule_skb->data,
  737. h.priv->ule_skb->len - 4 }
  738. };
  739. u32 ule_crc = ~0L, expected_crc;
  740. if (h.priv->ule_dbit) {
  741. /* Set D-bit for CRC32 verification,
  742. * if it was set originally. */
  743. ulen |= htons(0x8000);
  744. }
  745. ule_crc = iov_crc32(ule_crc, iov, 3);
  746. tail = skb_tail_pointer(h.priv->ule_skb);
  747. expected_crc = *(tail - 4) << 24 |
  748. *(tail - 3) << 16 |
  749. *(tail - 2) << 8 |
  750. *(tail - 1);
  751. dvb_net_ule_check_crc(&h, iov, ule_crc, expected_crc);
  752. /* Prepare for next SNDU. */
  753. reset_ule(h.priv);
  754. }
  755. /* More data in current TS (look at the bytes following the CRC32)? */
  756. if (h.ts_remain >= 2 && *((unsigned short *)h.from_where) != 0xFFFF) {
  757. /* Next ULE SNDU starts right there. */
  758. h.new_ts = 0;
  759. h.priv->ule_skb = NULL;
  760. h.priv->ule_sndu_type_1 = 0;
  761. h.priv->ule_sndu_len = 0;
  762. // pr_warn("More data in current TS: [%#x %#x %#x %#x]\n",
  763. // *(h.from_where + 0), *(h.from_where + 1),
  764. // *(h.from_where + 2), *(h.from_where + 3));
  765. // pr_warn("h.ts @ %p, stopped @ %p:\n", h.ts, h.from_where + 0);
  766. // hexdump(h.ts, 188);
  767. } else {
  768. h.new_ts = 1;
  769. h.ts += TS_SZ;
  770. h.priv->ts_count++;
  771. if (h.priv->ule_skb == NULL) {
  772. h.priv->need_pusi = 1;
  773. h.priv->ule_sndu_type_1 = 0;
  774. h.priv->ule_sndu_len = 0;
  775. }
  776. }
  777. } /* for all available TS cells */
  778. }
  779. static int dvb_net_ts_callback(const u8 *buffer1, size_t buffer1_len,
  780. const u8 *buffer2, size_t buffer2_len,
  781. struct dmx_ts_feed *feed,
  782. u32 *buffer_flags)
  783. {
  784. struct net_device *dev = feed->priv;
  785. if (buffer2)
  786. pr_warn("buffer2 not NULL: %p.\n", buffer2);
  787. if (buffer1_len > 32768)
  788. pr_warn("length > 32k: %zu.\n", buffer1_len);
  789. /* pr_info("TS callback: %u bytes, %u TS cells @ %p.\n",
  790. buffer1_len, buffer1_len / TS_SZ, buffer1); */
  791. dvb_net_ule(dev, buffer1, buffer1_len);
  792. return 0;
  793. }
  794. static void dvb_net_sec(struct net_device *dev,
  795. const u8 *pkt, int pkt_len)
  796. {
  797. u8 *eth;
  798. struct sk_buff *skb;
  799. struct net_device_stats *stats = &dev->stats;
  800. int snap = 0;
  801. /* note: pkt_len includes a 32bit checksum */
  802. if (pkt_len < 16) {
  803. pr_warn("%s: IP/MPE packet length = %d too small.\n",
  804. dev->name, pkt_len);
  805. stats->rx_errors++;
  806. stats->rx_length_errors++;
  807. return;
  808. }
  809. /* it seems some ISPs manage to screw up here, so we have to
  810. * relax the error checks... */
  811. #if 0
  812. if ((pkt[5] & 0xfd) != 0xc1) {
  813. /* drop scrambled or broken packets */
  814. #else
  815. if ((pkt[5] & 0x3c) != 0x00) {
  816. /* drop scrambled */
  817. #endif
  818. stats->rx_errors++;
  819. stats->rx_crc_errors++;
  820. return;
  821. }
  822. if (pkt[5] & 0x02) {
  823. /* handle LLC/SNAP, see rfc-1042 */
  824. if (pkt_len < 24 || memcmp(&pkt[12], "\xaa\xaa\x03\0\0\0", 6)) {
  825. stats->rx_dropped++;
  826. return;
  827. }
  828. snap = 8;
  829. }
  830. if (pkt[7]) {
  831. /* FIXME: assemble datagram from multiple sections */
  832. stats->rx_errors++;
  833. stats->rx_frame_errors++;
  834. return;
  835. }
  836. /* we have 14 byte ethernet header (ip header follows);
  837. * 12 byte MPE header; 4 byte checksum; + 2 byte alignment, 8 byte LLC/SNAP
  838. */
  839. if (!(skb = dev_alloc_skb(pkt_len - 4 - 12 + 14 + 2 - snap))) {
  840. //pr_notice("%s: Memory squeeze, dropping packet.\n", dev->name);
  841. stats->rx_dropped++;
  842. return;
  843. }
  844. skb_reserve(skb, 2); /* longword align L3 header */
  845. skb->dev = dev;
  846. /* copy L3 payload */
  847. eth = skb_put(skb, pkt_len - 12 - 4 + 14 - snap);
  848. memcpy(eth + 14, pkt + 12 + snap, pkt_len - 12 - 4 - snap);
  849. /* create ethernet header: */
  850. eth[0]=pkt[0x0b];
  851. eth[1]=pkt[0x0a];
  852. eth[2]=pkt[0x09];
  853. eth[3]=pkt[0x08];
  854. eth[4]=pkt[0x04];
  855. eth[5]=pkt[0x03];
  856. eth[6]=eth[7]=eth[8]=eth[9]=eth[10]=eth[11]=0;
  857. if (snap) {
  858. eth[12] = pkt[18];
  859. eth[13] = pkt[19];
  860. } else {
  861. /* protocol numbers are from rfc-1700 or
  862. * http://www.iana.org/assignments/ethernet-numbers
  863. */
  864. if (pkt[12] >> 4 == 6) { /* version field from IP header */
  865. eth[12] = 0x86; /* IPv6 */
  866. eth[13] = 0xdd;
  867. } else {
  868. eth[12] = 0x08; /* IPv4 */
  869. eth[13] = 0x00;
  870. }
  871. }
  872. skb->protocol = dvb_net_eth_type_trans(skb, dev);
  873. stats->rx_packets++;
  874. stats->rx_bytes+=skb->len;
  875. netif_rx(skb);
  876. }
  877. static int dvb_net_sec_callback(const u8 *buffer1, size_t buffer1_len,
  878. const u8 *buffer2, size_t buffer2_len,
  879. struct dmx_section_filter *filter, u32 *buffer_flags)
  880. {
  881. struct net_device *dev = filter->priv;
  882. /*
  883. * we rely on the DVB API definition where exactly one complete
  884. * section is delivered in buffer1
  885. */
  886. dvb_net_sec (dev, buffer1, buffer1_len);
  887. return 0;
  888. }
  889. static netdev_tx_t dvb_net_tx(struct sk_buff *skb, struct net_device *dev)
  890. {
  891. dev_kfree_skb(skb);
  892. return NETDEV_TX_OK;
  893. }
  894. static u8 mask_normal[6]={0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
  895. static u8 mask_allmulti[6]={0xff, 0xff, 0xff, 0x00, 0x00, 0x00};
  896. static u8 mac_allmulti[6]={0x01, 0x00, 0x5e, 0x00, 0x00, 0x00};
  897. static u8 mask_promisc[6]={0x00, 0x00, 0x00, 0x00, 0x00, 0x00};
  898. static int dvb_net_filter_sec_set(struct net_device *dev,
  899. struct dmx_section_filter **secfilter,
  900. const u8 *mac, u8 *mac_mask)
  901. {
  902. struct dvb_net_priv *priv = netdev_priv(dev);
  903. int ret;
  904. *secfilter=NULL;
  905. ret = priv->secfeed->allocate_filter(priv->secfeed, secfilter);
  906. if (ret<0) {
  907. pr_err("%s: could not get filter\n", dev->name);
  908. return ret;
  909. }
  910. (*secfilter)->priv=(void *) dev;
  911. memset((*secfilter)->filter_value, 0x00, DMX_MAX_FILTER_SIZE);
  912. memset((*secfilter)->filter_mask, 0x00, DMX_MAX_FILTER_SIZE);
  913. memset((*secfilter)->filter_mode, 0xff, DMX_MAX_FILTER_SIZE);
  914. (*secfilter)->filter_value[0]=0x3e;
  915. (*secfilter)->filter_value[3]=mac[5];
  916. (*secfilter)->filter_value[4]=mac[4];
  917. (*secfilter)->filter_value[8]=mac[3];
  918. (*secfilter)->filter_value[9]=mac[2];
  919. (*secfilter)->filter_value[10]=mac[1];
  920. (*secfilter)->filter_value[11]=mac[0];
  921. (*secfilter)->filter_mask[0] = 0xff;
  922. (*secfilter)->filter_mask[3] = mac_mask[5];
  923. (*secfilter)->filter_mask[4] = mac_mask[4];
  924. (*secfilter)->filter_mask[8] = mac_mask[3];
  925. (*secfilter)->filter_mask[9] = mac_mask[2];
  926. (*secfilter)->filter_mask[10] = mac_mask[1];
  927. (*secfilter)->filter_mask[11]=mac_mask[0];
  928. netdev_dbg(dev, "filter mac=%pM mask=%pM\n", mac, mac_mask);
  929. return 0;
  930. }
  931. static int dvb_net_feed_start(struct net_device *dev)
  932. {
  933. int ret = 0, i;
  934. struct dvb_net_priv *priv = netdev_priv(dev);
  935. struct dmx_demux *demux = priv->demux;
  936. const unsigned char *mac = (const unsigned char *) dev->dev_addr;
  937. netdev_dbg(dev, "rx_mode %i\n", priv->rx_mode);
  938. mutex_lock(&priv->mutex);
  939. if (priv->tsfeed || priv->secfeed || priv->secfilter || priv->multi_secfilter[0])
  940. pr_err("%s: BUG %d\n", __func__, __LINE__);
  941. priv->secfeed=NULL;
  942. priv->secfilter=NULL;
  943. priv->tsfeed = NULL;
  944. if (priv->feedtype == DVB_NET_FEEDTYPE_MPE) {
  945. netdev_dbg(dev, "alloc secfeed\n");
  946. ret=demux->allocate_section_feed(demux, &priv->secfeed,
  947. dvb_net_sec_callback);
  948. if (ret<0) {
  949. pr_err("%s: could not allocate section feed\n",
  950. dev->name);
  951. goto error;
  952. }
  953. ret = priv->secfeed->set(priv->secfeed, priv->pid, 1);
  954. if (ret<0) {
  955. pr_err("%s: could not set section feed\n", dev->name);
  956. priv->demux->release_section_feed(priv->demux, priv->secfeed);
  957. priv->secfeed=NULL;
  958. goto error;
  959. }
  960. if (priv->rx_mode != RX_MODE_PROMISC) {
  961. netdev_dbg(dev, "set secfilter\n");
  962. dvb_net_filter_sec_set(dev, &priv->secfilter, mac, mask_normal);
  963. }
  964. switch (priv->rx_mode) {
  965. case RX_MODE_MULTI:
  966. for (i = 0; i < priv->multi_num; i++) {
  967. netdev_dbg(dev, "set multi_secfilter[%d]\n", i);
  968. dvb_net_filter_sec_set(dev, &priv->multi_secfilter[i],
  969. priv->multi_macs[i], mask_normal);
  970. }
  971. break;
  972. case RX_MODE_ALL_MULTI:
  973. priv->multi_num=1;
  974. netdev_dbg(dev, "set multi_secfilter[0]\n");
  975. dvb_net_filter_sec_set(dev, &priv->multi_secfilter[0],
  976. mac_allmulti, mask_allmulti);
  977. break;
  978. case RX_MODE_PROMISC:
  979. priv->multi_num=0;
  980. netdev_dbg(dev, "set secfilter\n");
  981. dvb_net_filter_sec_set(dev, &priv->secfilter, mac, mask_promisc);
  982. break;
  983. }
  984. netdev_dbg(dev, "start filtering\n");
  985. priv->secfeed->start_filtering(priv->secfeed);
  986. } else if (priv->feedtype == DVB_NET_FEEDTYPE_ULE) {
  987. ktime_t timeout = ns_to_ktime(10 * NSEC_PER_MSEC);
  988. /* we have payloads encapsulated in TS */
  989. netdev_dbg(dev, "alloc tsfeed\n");
  990. ret = demux->allocate_ts_feed(demux, &priv->tsfeed, dvb_net_ts_callback);
  991. if (ret < 0) {
  992. pr_err("%s: could not allocate ts feed\n", dev->name);
  993. goto error;
  994. }
  995. /* Set netdevice pointer for ts decaps callback. */
  996. priv->tsfeed->priv = (void *)dev;
  997. ret = priv->tsfeed->set(priv->tsfeed,
  998. priv->pid, /* pid */
  999. TS_PACKET, /* type */
  1000. DMX_PES_OTHER, /* pes type */
  1001. timeout /* timeout */
  1002. );
  1003. if (ret < 0) {
  1004. pr_err("%s: could not set ts feed\n", dev->name);
  1005. priv->demux->release_ts_feed(priv->demux, priv->tsfeed);
  1006. priv->tsfeed = NULL;
  1007. goto error;
  1008. }
  1009. netdev_dbg(dev, "start filtering\n");
  1010. priv->tsfeed->start_filtering(priv->tsfeed);
  1011. } else
  1012. ret = -EINVAL;
  1013. error:
  1014. mutex_unlock(&priv->mutex);
  1015. return ret;
  1016. }
  1017. static int dvb_net_feed_stop(struct net_device *dev)
  1018. {
  1019. struct dvb_net_priv *priv = netdev_priv(dev);
  1020. int i, ret = 0;
  1021. mutex_lock(&priv->mutex);
  1022. if (priv->feedtype == DVB_NET_FEEDTYPE_MPE) {
  1023. if (priv->secfeed) {
  1024. if (priv->secfeed->is_filtering) {
  1025. netdev_dbg(dev, "stop secfeed\n");
  1026. priv->secfeed->stop_filtering(priv->secfeed);
  1027. }
  1028. if (priv->secfilter) {
  1029. netdev_dbg(dev, "release secfilter\n");
  1030. priv->secfeed->release_filter(priv->secfeed,
  1031. priv->secfilter);
  1032. priv->secfilter=NULL;
  1033. }
  1034. for (i=0; i<priv->multi_num; i++) {
  1035. if (priv->multi_secfilter[i]) {
  1036. netdev_dbg(dev, "release multi_filter[%d]\n",
  1037. i);
  1038. priv->secfeed->release_filter(priv->secfeed,
  1039. priv->multi_secfilter[i]);
  1040. priv->multi_secfilter[i] = NULL;
  1041. }
  1042. }
  1043. priv->demux->release_section_feed(priv->demux, priv->secfeed);
  1044. priv->secfeed = NULL;
  1045. } else
  1046. pr_err("%s: no feed to stop\n", dev->name);
  1047. } else if (priv->feedtype == DVB_NET_FEEDTYPE_ULE) {
  1048. if (priv->tsfeed) {
  1049. if (priv->tsfeed->is_filtering) {
  1050. netdev_dbg(dev, "stop tsfeed\n");
  1051. priv->tsfeed->stop_filtering(priv->tsfeed);
  1052. }
  1053. priv->demux->release_ts_feed(priv->demux, priv->tsfeed);
  1054. priv->tsfeed = NULL;
  1055. }
  1056. else
  1057. pr_err("%s: no ts feed to stop\n", dev->name);
  1058. } else
  1059. ret = -EINVAL;
  1060. mutex_unlock(&priv->mutex);
  1061. return ret;
  1062. }
  1063. static int dvb_set_mc_filter(struct net_device *dev, unsigned char *addr)
  1064. {
  1065. struct dvb_net_priv *priv = netdev_priv(dev);
  1066. if (priv->multi_num == DVB_NET_MULTICAST_MAX)
  1067. return -ENOMEM;
  1068. memcpy(priv->multi_macs[priv->multi_num], addr, ETH_ALEN);
  1069. priv->multi_num++;
  1070. return 0;
  1071. }
  1072. static void wq_set_multicast_list (struct work_struct *work)
  1073. {
  1074. struct dvb_net_priv *priv =
  1075. container_of(work, struct dvb_net_priv, set_multicast_list_wq);
  1076. struct net_device *dev = priv->net;
  1077. dvb_net_feed_stop(dev);
  1078. priv->rx_mode = RX_MODE_UNI;
  1079. netif_addr_lock_bh(dev);
  1080. if (dev->flags & IFF_PROMISC) {
  1081. netdev_dbg(dev, "promiscuous mode\n");
  1082. priv->rx_mode = RX_MODE_PROMISC;
  1083. } else if ((dev->flags & IFF_ALLMULTI)) {
  1084. netdev_dbg(dev, "allmulti mode\n");
  1085. priv->rx_mode = RX_MODE_ALL_MULTI;
  1086. } else if (!netdev_mc_empty(dev)) {
  1087. struct netdev_hw_addr *ha;
  1088. netdev_dbg(dev, "set_mc_list, %d entries\n",
  1089. netdev_mc_count(dev));
  1090. priv->rx_mode = RX_MODE_MULTI;
  1091. priv->multi_num = 0;
  1092. netdev_for_each_mc_addr(ha, dev)
  1093. dvb_set_mc_filter(dev, ha->addr);
  1094. }
  1095. netif_addr_unlock_bh(dev);
  1096. dvb_net_feed_start(dev);
  1097. }
  1098. static void dvb_net_set_multicast_list (struct net_device *dev)
  1099. {
  1100. struct dvb_net_priv *priv = netdev_priv(dev);
  1101. schedule_work(&priv->set_multicast_list_wq);
  1102. }
  1103. static void wq_restart_net_feed (struct work_struct *work)
  1104. {
  1105. struct dvb_net_priv *priv =
  1106. container_of(work, struct dvb_net_priv, restart_net_feed_wq);
  1107. struct net_device *dev = priv->net;
  1108. if (netif_running(dev)) {
  1109. dvb_net_feed_stop(dev);
  1110. dvb_net_feed_start(dev);
  1111. }
  1112. }
  1113. static int dvb_net_set_mac (struct net_device *dev, void *p)
  1114. {
  1115. struct dvb_net_priv *priv = netdev_priv(dev);
  1116. struct sockaddr *addr=p;
  1117. eth_hw_addr_set(dev, addr->sa_data);
  1118. if (netif_running(dev))
  1119. schedule_work(&priv->restart_net_feed_wq);
  1120. return 0;
  1121. }
  1122. static int dvb_net_open(struct net_device *dev)
  1123. {
  1124. struct dvb_net_priv *priv = netdev_priv(dev);
  1125. priv->in_use++;
  1126. dvb_net_feed_start(dev);
  1127. return 0;
  1128. }
  1129. static int dvb_net_stop(struct net_device *dev)
  1130. {
  1131. struct dvb_net_priv *priv = netdev_priv(dev);
  1132. priv->in_use--;
  1133. return dvb_net_feed_stop(dev);
  1134. }
  1135. static const struct header_ops dvb_header_ops = {
  1136. .create = eth_header,
  1137. .parse = eth_header_parse,
  1138. };
  1139. static const struct net_device_ops dvb_netdev_ops = {
  1140. .ndo_open = dvb_net_open,
  1141. .ndo_stop = dvb_net_stop,
  1142. .ndo_start_xmit = dvb_net_tx,
  1143. .ndo_set_rx_mode = dvb_net_set_multicast_list,
  1144. .ndo_set_mac_address = dvb_net_set_mac,
  1145. .ndo_validate_addr = eth_validate_addr,
  1146. };
  1147. static void dvb_net_setup(struct net_device *dev)
  1148. {
  1149. ether_setup(dev);
  1150. dev->header_ops = &dvb_header_ops;
  1151. dev->netdev_ops = &dvb_netdev_ops;
  1152. dev->mtu = 4096;
  1153. dev->max_mtu = 4096;
  1154. dev->flags |= IFF_NOARP;
  1155. }
  1156. static int get_if(struct dvb_net *dvbnet)
  1157. {
  1158. int i;
  1159. for (i=0; i<DVB_NET_DEVICES_MAX; i++)
  1160. if (!dvbnet->state[i])
  1161. break;
  1162. if (i == DVB_NET_DEVICES_MAX)
  1163. return -1;
  1164. dvbnet->state[i]=1;
  1165. return i;
  1166. }
  1167. static int dvb_net_add_if(struct dvb_net *dvbnet, u16 pid, u8 feedtype)
  1168. {
  1169. struct net_device *net;
  1170. struct dvb_net_priv *priv;
  1171. int result;
  1172. int if_num;
  1173. if (feedtype != DVB_NET_FEEDTYPE_MPE && feedtype != DVB_NET_FEEDTYPE_ULE)
  1174. return -EINVAL;
  1175. if ((if_num = get_if(dvbnet)) < 0)
  1176. return -EINVAL;
  1177. net = alloc_netdev(sizeof(struct dvb_net_priv), "dvb",
  1178. NET_NAME_UNKNOWN, dvb_net_setup);
  1179. if (!net)
  1180. return -ENOMEM;
  1181. if (dvbnet->dvbdev->id)
  1182. snprintf(net->name, IFNAMSIZ, "dvb%d%u%d",
  1183. dvbnet->dvbdev->adapter->num, dvbnet->dvbdev->id, if_num);
  1184. else
  1185. /* compatibility fix to keep dvb0_0 format */
  1186. snprintf(net->name, IFNAMSIZ, "dvb%d_%d",
  1187. dvbnet->dvbdev->adapter->num, if_num);
  1188. net->addr_len = 6;
  1189. eth_hw_addr_set(net, dvbnet->dvbdev->adapter->proposed_mac);
  1190. dvbnet->device[if_num] = net;
  1191. priv = netdev_priv(net);
  1192. priv->net = net;
  1193. priv->demux = dvbnet->demux;
  1194. priv->pid = pid;
  1195. priv->rx_mode = RX_MODE_UNI;
  1196. priv->need_pusi = 1;
  1197. priv->tscc = 0;
  1198. priv->feedtype = feedtype;
  1199. reset_ule(priv);
  1200. INIT_WORK(&priv->set_multicast_list_wq, wq_set_multicast_list);
  1201. INIT_WORK(&priv->restart_net_feed_wq, wq_restart_net_feed);
  1202. mutex_init(&priv->mutex);
  1203. net->base_addr = pid;
  1204. if ((result = register_netdev(net)) < 0) {
  1205. dvbnet->device[if_num] = NULL;
  1206. free_netdev(net);
  1207. return result;
  1208. }
  1209. pr_info("created network interface %s\n", net->name);
  1210. return if_num;
  1211. }
  1212. static int dvb_net_remove_if(struct dvb_net *dvbnet, unsigned long num)
  1213. {
  1214. struct net_device *net = dvbnet->device[num];
  1215. struct dvb_net_priv *priv;
  1216. if (!dvbnet->state[num])
  1217. return -EINVAL;
  1218. priv = netdev_priv(net);
  1219. if (priv->in_use)
  1220. return -EBUSY;
  1221. dvb_net_stop(net);
  1222. flush_work(&priv->set_multicast_list_wq);
  1223. flush_work(&priv->restart_net_feed_wq);
  1224. pr_info("removed network interface %s\n", net->name);
  1225. unregister_netdev(net);
  1226. dvbnet->state[num]=0;
  1227. dvbnet->device[num] = NULL;
  1228. free_netdev(net);
  1229. return 0;
  1230. }
  1231. static int dvb_net_do_ioctl(struct file *file,
  1232. unsigned int cmd, void *parg)
  1233. {
  1234. struct dvb_device *dvbdev = file->private_data;
  1235. struct dvb_net *dvbnet = dvbdev->priv;
  1236. int ret = 0;
  1237. if (((file->f_flags&O_ACCMODE)==O_RDONLY))
  1238. return -EPERM;
  1239. if (mutex_lock_interruptible(&dvbnet->ioctl_mutex))
  1240. return -ERESTARTSYS;
  1241. switch (cmd) {
  1242. case NET_ADD_IF:
  1243. {
  1244. struct dvb_net_if *dvbnetif = parg;
  1245. int result;
  1246. if (!capable(CAP_SYS_ADMIN)) {
  1247. ret = -EPERM;
  1248. goto ioctl_error;
  1249. }
  1250. if (!try_module_get(dvbdev->adapter->module)) {
  1251. ret = -EPERM;
  1252. goto ioctl_error;
  1253. }
  1254. result=dvb_net_add_if(dvbnet, dvbnetif->pid, dvbnetif->feedtype);
  1255. if (result<0) {
  1256. module_put(dvbdev->adapter->module);
  1257. ret = result;
  1258. goto ioctl_error;
  1259. }
  1260. dvbnetif->if_num=result;
  1261. break;
  1262. }
  1263. case NET_GET_IF:
  1264. {
  1265. struct net_device *netdev;
  1266. struct dvb_net_priv *priv_data;
  1267. struct dvb_net_if *dvbnetif = parg;
  1268. int if_num = dvbnetif->if_num;
  1269. if (if_num >= DVB_NET_DEVICES_MAX) {
  1270. ret = -EINVAL;
  1271. goto ioctl_error;
  1272. }
  1273. if_num = array_index_nospec(if_num, DVB_NET_DEVICES_MAX);
  1274. if (!dvbnet->state[if_num]) {
  1275. ret = -EINVAL;
  1276. goto ioctl_error;
  1277. }
  1278. netdev = dvbnet->device[if_num];
  1279. priv_data = netdev_priv(netdev);
  1280. dvbnetif->pid=priv_data->pid;
  1281. dvbnetif->feedtype=priv_data->feedtype;
  1282. break;
  1283. }
  1284. case NET_REMOVE_IF:
  1285. {
  1286. if (!capable(CAP_SYS_ADMIN)) {
  1287. ret = -EPERM;
  1288. goto ioctl_error;
  1289. }
  1290. if ((unsigned long) parg >= DVB_NET_DEVICES_MAX) {
  1291. ret = -EINVAL;
  1292. goto ioctl_error;
  1293. }
  1294. ret = dvb_net_remove_if(dvbnet, (unsigned long) parg);
  1295. if (!ret)
  1296. module_put(dvbdev->adapter->module);
  1297. break;
  1298. }
  1299. /* binary compatibility cruft */
  1300. case __NET_ADD_IF_OLD:
  1301. {
  1302. struct __dvb_net_if_old *dvbnetif = parg;
  1303. int result;
  1304. if (!capable(CAP_SYS_ADMIN)) {
  1305. ret = -EPERM;
  1306. goto ioctl_error;
  1307. }
  1308. if (!try_module_get(dvbdev->adapter->module)) {
  1309. ret = -EPERM;
  1310. goto ioctl_error;
  1311. }
  1312. result=dvb_net_add_if(dvbnet, dvbnetif->pid, DVB_NET_FEEDTYPE_MPE);
  1313. if (result<0) {
  1314. module_put(dvbdev->adapter->module);
  1315. ret = result;
  1316. goto ioctl_error;
  1317. }
  1318. dvbnetif->if_num=result;
  1319. break;
  1320. }
  1321. case __NET_GET_IF_OLD:
  1322. {
  1323. struct net_device *netdev;
  1324. struct dvb_net_priv *priv_data;
  1325. struct __dvb_net_if_old *dvbnetif = parg;
  1326. int if_num = dvbnetif->if_num;
  1327. if (if_num >= DVB_NET_DEVICES_MAX) {
  1328. ret = -EINVAL;
  1329. goto ioctl_error;
  1330. }
  1331. if_num = array_index_nospec(if_num, DVB_NET_DEVICES_MAX);
  1332. if (!dvbnet->state[if_num]) {
  1333. ret = -EINVAL;
  1334. goto ioctl_error;
  1335. }
  1336. netdev = dvbnet->device[if_num];
  1337. priv_data = netdev_priv(netdev);
  1338. dvbnetif->pid=priv_data->pid;
  1339. break;
  1340. }
  1341. default:
  1342. ret = -ENOTTY;
  1343. break;
  1344. }
  1345. ioctl_error:
  1346. mutex_unlock(&dvbnet->ioctl_mutex);
  1347. return ret;
  1348. }
  1349. static long dvb_net_ioctl(struct file *file,
  1350. unsigned int cmd, unsigned long arg)
  1351. {
  1352. return dvb_usercopy(file, cmd, arg, dvb_net_do_ioctl);
  1353. }
  1354. static int locked_dvb_net_open(struct inode *inode, struct file *file)
  1355. {
  1356. struct dvb_device *dvbdev = file->private_data;
  1357. struct dvb_net *dvbnet = dvbdev->priv;
  1358. int ret;
  1359. if (mutex_lock_interruptible(&dvbnet->remove_mutex))
  1360. return -ERESTARTSYS;
  1361. if (dvbnet->exit) {
  1362. mutex_unlock(&dvbnet->remove_mutex);
  1363. return -ENODEV;
  1364. }
  1365. ret = dvb_generic_open(inode, file);
  1366. mutex_unlock(&dvbnet->remove_mutex);
  1367. return ret;
  1368. }
  1369. static int dvb_net_close(struct inode *inode, struct file *file)
  1370. {
  1371. struct dvb_device *dvbdev = file->private_data;
  1372. struct dvb_net *dvbnet = dvbdev->priv;
  1373. mutex_lock(&dvbnet->remove_mutex);
  1374. dvb_generic_release(inode, file);
  1375. if (dvbdev->users == 1 && dvbnet->exit == 1) {
  1376. mutex_unlock(&dvbnet->remove_mutex);
  1377. wake_up(&dvbdev->wait_queue);
  1378. } else {
  1379. mutex_unlock(&dvbnet->remove_mutex);
  1380. }
  1381. return 0;
  1382. }
  1383. static const struct file_operations dvb_net_fops = {
  1384. .owner = THIS_MODULE,
  1385. .unlocked_ioctl = dvb_net_ioctl,
  1386. .open = locked_dvb_net_open,
  1387. .release = dvb_net_close,
  1388. .llseek = noop_llseek,
  1389. };
  1390. static const struct dvb_device dvbdev_net = {
  1391. .priv = NULL,
  1392. .users = 1,
  1393. .writers = 1,
  1394. #if defined(CONFIG_MEDIA_CONTROLLER_DVB)
  1395. .name = "dvb-net",
  1396. #endif
  1397. .fops = &dvb_net_fops,
  1398. };
  1399. void dvb_net_release (struct dvb_net *dvbnet)
  1400. {
  1401. int i;
  1402. mutex_lock(&dvbnet->remove_mutex);
  1403. dvbnet->exit = 1;
  1404. mutex_unlock(&dvbnet->remove_mutex);
  1405. if (dvbnet->dvbdev->users < 1)
  1406. wait_event(dvbnet->dvbdev->wait_queue,
  1407. dvbnet->dvbdev->users == 1);
  1408. dvb_unregister_device(dvbnet->dvbdev);
  1409. for (i=0; i<DVB_NET_DEVICES_MAX; i++) {
  1410. if (!dvbnet->state[i])
  1411. continue;
  1412. dvb_net_remove_if(dvbnet, i);
  1413. }
  1414. }
  1415. EXPORT_SYMBOL(dvb_net_release);
  1416. int dvb_net_init (struct dvb_adapter *adap, struct dvb_net *dvbnet,
  1417. struct dmx_demux *dmx)
  1418. {
  1419. int i;
  1420. mutex_init(&dvbnet->ioctl_mutex);
  1421. mutex_init(&dvbnet->remove_mutex);
  1422. dvbnet->demux = dmx;
  1423. for (i=0; i<DVB_NET_DEVICES_MAX; i++)
  1424. dvbnet->state[i] = 0;
  1425. return dvb_register_device(adap, &dvbnet->dvbdev, &dvbdev_net,
  1426. dvbnet, DVB_DEVICE_NET, 0);
  1427. }
  1428. EXPORT_SYMBOL(dvb_net_init);