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ipxe/src/drivers/net/ena.c

ena.c 25KB
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  1. /*

  2.  * Copyright (C) 2018 Michael Brown <mbrown@fensystems.co.uk>.

  3.  *

  4.  * This program is free software; you can redistribute it and/or

  5.  * modify it under the terms of the GNU General Public License as

  6.  * published by the Free Software Foundation; either version 2 of the

  7.  * License, or (at your option) any later version.

  8.  *

  9.  * This program is distributed in the hope that it will be useful, but

  10.  * WITHOUT ANY WARRANTY; without even the implied warranty of

  11.  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

  12.  * General Public License for more details.

  13.  *

  14.  * You should have received a copy of the GNU General Public License

  15.  * along with this program; if not, write to the Free Software

  16.  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA

  17.  * 02110-1301, USA.

  18.  *

  19.  * You can also choose to distribute this program under the terms of

  20.  * the Unmodified Binary Distribution Licence (as given in the file

  21.  * COPYING.UBDL), provided that you have satisfied its requirements.

  22.  */

  23. 

  24. FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );

  25. 

  26. #include <stdint.h>

  27. #include <string.h>

  28. #include <unistd.h>

  29. #include <errno.h>

  30. #include <byteswap.h>

  31. #include <ipxe/netdevice.h>

  32. #include <ipxe/ethernet.h>

  33. #include <ipxe/if_ether.h>

  34. #include <ipxe/iobuf.h>

  35. #include <ipxe/malloc.h>

  36. #include <ipxe/pci.h>

  37. #include "ena.h"

  38. 

  39. /** @file

  40.  *

  41.  * Amazon ENA network driver

  42.  *

  43.  */

  44. 

  45. /**

  46.  * Get direction name (for debugging)

  47.  *

  48.  * @v direction		Direction

  49.  * @ret name		Direction name

  50.  */

  51. static const char * ena_direction ( unsigned int direction ) {

  52. 

  53. 	switch ( direction ) {

  54. 	case ENA_SQ_TX:		return "TX";

  55. 	case ENA_SQ_RX:		return "RX";

  56. 	default:		return "<UNKNOWN>";

  57. 	}

  58. }

  59. 

  60. /******************************************************************************

  61.  *

  62.  * Device reset

  63.  *

  64.  ******************************************************************************

  65.  */

  66. 

  67. /**

  68.  * Reset hardware

  69.  *

  70.  * @v ena		ENA device

  71.  * @ret rc		Return status code

  72.  */

  73. static int ena_reset ( struct ena_nic *ena ) {

  74. 	uint32_t stat;

  75. 	unsigned int i;

  76. 

  77. 	/* Trigger reset */

  78. 	writel ( ENA_CTRL_RESET, ( ena->regs + ENA_CTRL ) );

  79. 

  80. 	/* Wait for reset to complete */

  81. 	for ( i = 0 ; i < ENA_RESET_MAX_WAIT_MS ; i++ ) {

  82. 

  83. 		/* Check if device is ready */

  84. 		stat = readl ( ena->regs + ENA_STAT );

  85. 		if ( stat & ENA_STAT_READY )

  86. 			return 0;

  87. 

  88. 		/* Delay */

  89. 		mdelay ( 1 );

  90. 	}

  91. 

  92. 	DBGC ( ena, "ENA %p timed out waiting for reset (status %#08x)\n",

  93. 	       ena, stat );

  94. 	return -ETIMEDOUT;

  95. }

  96. 

  97. /******************************************************************************

  98.  *

  99.  * Admin queue

  100.  *

  101.  ******************************************************************************

  102.  */

  103. 

  104. /**

  105.  * Set queue base address

  106.  *

  107.  * @v ena		ENA device

  108.  * @v offset		Register offset

  109.  * @v address		Base address

  110.  */

  111. static inline void ena_set_base ( struct ena_nic *ena, unsigned int offset,

  112. 				  void *base ) {

  113. 	physaddr_t phys = virt_to_bus ( base );

  114. 

  115. 	/* Program base address registers */

  116. 	writel ( ( phys & 0xffffffffUL ),

  117. 		 ( ena->regs + offset + ENA_BASE_LO ) );

  118. 	if ( sizeof ( phys ) > sizeof ( uint32_t ) ) {

  119. 		writel ( ( ( ( uint64_t ) phys ) >> 32 ),

  120. 			 ( ena->regs + offset + ENA_BASE_HI ) );

  121. 	} else {

  122. 		writel ( 0, ( ena->regs + offset + ENA_BASE_HI ) );

  123. 	}

  124. }

  125. 

  126. /**

  127.  * Set queue capabilities

  128.  *

  129.  * @v ena		ENA device

  130.  * @v offset		Register offset

  131.  * @v count		Number of entries

  132.  * @v size		Size of each entry

  133.  */

  134. static inline __attribute__ (( always_inline )) void

  135. ena_set_caps ( struct ena_nic *ena, unsigned int offset, unsigned int count,

  136. 	       size_t size ) {

  137. 

  138. 	/* Program capabilities register */

  139. 	writel ( ENA_CAPS ( count, size ), ( ena->regs + offset ) );

  140. }

  141. 

  142. /**

  143.  * Clear queue capabilities

  144.  *

  145.  * @v ena		ENA device

  146.  * @v offset		Register offset

  147.  */

  148. static inline __attribute__ (( always_inline )) void

  149. ena_clear_caps ( struct ena_nic *ena, unsigned int offset ) {

  150. 

  151. 	/* Clear capabilities register */

  152. 	writel ( 0, ( ena->regs + offset ) );

  153. }

  154. 

  155. /**

  156.  * Create admin queues

  157.  *

  158.  * @v ena		ENA device

  159.  * @ret rc		Return status code

  160.  */

  161. static int ena_create_admin ( struct ena_nic *ena ) {

  162. 	size_t aq_len = ( ENA_AQ_COUNT * sizeof ( ena->aq.req[0] ) );

  163. 	size_t acq_len = ( ENA_ACQ_COUNT * sizeof ( ena->acq.rsp[0] ) );

  164. 	int rc;

  165. 

  166. 	/* Allocate admin completion queue */

  167. 	ena->acq.rsp = malloc_dma ( acq_len, acq_len );

  168. 	if ( ! ena->acq.rsp ) {

  169. 		rc = -ENOMEM;

  170. 		goto err_alloc_acq;

  171. 	}

  172. 	memset ( ena->acq.rsp, 0, acq_len );

  173. 

  174. 	/* Allocate admin queue */

  175. 	ena->aq.req = malloc_dma ( aq_len, aq_len );

  176. 	if ( ! ena->aq.req ) {

  177. 		rc = -ENOMEM;

  178. 		goto err_alloc_aq;

  179. 	}

  180. 	memset ( ena->aq.req, 0, aq_len );

  181. 

  182. 	/* Program queue addresses and capabilities */

  183. 	ena_set_base ( ena, ENA_ACQ_BASE, ena->acq.rsp );

  184. 	ena_set_caps ( ena, ENA_ACQ_CAPS, ENA_ACQ_COUNT,

  185. 		       sizeof ( ena->acq.rsp[0] ) );

  186. 	ena_set_base ( ena, ENA_AQ_BASE, ena->aq.req );

  187. 	ena_set_caps ( ena, ENA_AQ_CAPS, ENA_AQ_COUNT,

  188. 		       sizeof ( ena->aq.req[0] ) );

  189. 

  190. 	DBGC ( ena, "ENA %p AQ [%08lx,%08lx) ACQ [%08lx,%08lx)\n",

  191. 	       ena, virt_to_phys ( ena->aq.req ),

  192. 	       ( virt_to_phys ( ena->aq.req ) + aq_len ),

  193. 	       virt_to_phys ( ena->acq.rsp ),

  194. 	       ( virt_to_phys ( ena->acq.rsp ) + acq_len ) );

  195. 	return 0;

  196. 

  197. 	ena_clear_caps ( ena, ENA_AQ_CAPS );

  198. 	ena_clear_caps ( ena, ENA_ACQ_CAPS );

  199. 	free_dma ( ena->aq.req, aq_len );

  200.  err_alloc_aq:

  201. 	free_dma ( ena->acq.rsp, acq_len );

  202.  err_alloc_acq:

  203. 	return rc;

  204. }

  205. 

  206. /**

  207.  * Destroy admin queues

  208.  *

  209.  * @v ena		ENA device

  210.  */

  211. static void ena_destroy_admin ( struct ena_nic *ena ) {

  212. 	size_t aq_len = ( ENA_AQ_COUNT * sizeof ( ena->aq.req[0] ) );

  213. 	size_t acq_len = ( ENA_ACQ_COUNT * sizeof ( ena->acq.rsp[0] ) );

  214. 

  215. 	/* Clear queue capabilities */

  216. 	ena_clear_caps ( ena, ENA_AQ_CAPS );

  217. 	ena_clear_caps ( ena, ENA_ACQ_CAPS );

  218. 	wmb();

  219. 

  220. 	/* Free queues */

  221. 	free_dma ( ena->aq.req, aq_len );

  222. 	free_dma ( ena->acq.rsp, acq_len );

  223. 	DBGC ( ena, "ENA %p AQ and ACQ destroyed\n", ena );

  224. }

  225. 

  226. /**

  227.  * Get next available admin queue request

  228.  *

  229.  * @v ena		ENA device

  230.  * @ret req		Admin queue request

  231.  */

  232. static union ena_aq_req * ena_admin_req ( struct ena_nic *ena ) {

  233. 	union ena_aq_req *req;

  234. 	unsigned int index;

  235. 

  236. 	/* Get next request */

  237. 	index = ( ena->aq.prod % ENA_AQ_COUNT );

  238. 	req = &ena->aq.req[index];

  239. 

  240. 	/* Initialise request */

  241. 	memset ( ( ( ( void * ) req ) + sizeof ( req->header ) ), 0,

  242. 		 ( sizeof ( *req ) - sizeof ( req->header ) ) );

  243. 	req->header.id = ena->aq.prod;

  244. 

  245. 	/* Increment producer counter */

  246. 	ena->aq.prod++;

  247. 

  248. 	return req;

  249. }

  250. 

  251. /**

  252.  * Issue admin queue request

  253.  *

  254.  * @v ena		ENA device

  255.  * @v req		Admin queue request

  256.  * @v rsp		Admin queue response to fill in

  257.  * @ret rc		Return status code

  258.  */

  259. static int ena_admin ( struct ena_nic *ena, union ena_aq_req *req,

  260. 		       union ena_acq_rsp **rsp ) {

  261. 	unsigned int index;

  262. 	unsigned int i;

  263. 	int rc;

  264. 

  265. 	/* Locate response */

  266. 	index = ( ena->acq.cons % ENA_ACQ_COUNT );

  267. 	*rsp = &ena->acq.rsp[index];

  268. 

  269. 	/* Mark request as ready */

  270. 	req->header.flags ^= ENA_AQ_PHASE;

  271. 	wmb();

  272. 	DBGC2 ( ena, "ENA %p admin request %#x:\n",

  273. 		ena, le16_to_cpu ( req->header.id ) );

  274. 	DBGC2_HDA ( ena, virt_to_phys ( req ), req, sizeof ( *req ) );

  275. 

  276. 	/* Ring doorbell */

  277. 	writel ( ena->aq.prod, ( ena->regs + ENA_AQ_DB ) );

  278. 

  279. 	/* Wait for response */

  280. 	for ( i = 0 ; i < ENA_ADMIN_MAX_WAIT_MS ; i++ ) {

  281. 

  282. 		/* Check for response */

  283. 		if ( ( (*rsp)->header.flags ^ ena->acq.phase ) & ENA_ACQ_PHASE){

  284. 			mdelay ( 1 );

  285. 			continue;

  286. 		}

  287. 		DBGC2 ( ena, "ENA %p admin response %#x:\n",

  288. 			ena, le16_to_cpu ( (*rsp)->header.id ) );

  289. 		DBGC2_HDA ( ena, virt_to_phys ( *rsp ), *rsp, sizeof ( **rsp ));

  290. 

  291. 		/* Increment consumer counter */

  292. 		ena->acq.cons++;

  293. 		if ( ( ena->acq.cons % ENA_ACQ_COUNT ) == 0 )

  294. 			ena->acq.phase ^= ENA_ACQ_PHASE;

  295. 

  296. 		/* Check command identifier */

  297. 		if ( (*rsp)->header.id != req->header.id ) {

  298. 			DBGC ( ena, "ENA %p admin response %#x mismatch:\n",

  299. 			       ena, le16_to_cpu ( (*rsp)->header.id ) );

  300. 			rc = -EILSEQ;

  301. 			goto err;

  302. 		}

  303. 

  304. 		/* Check status */

  305. 		if ( (*rsp)->header.status != 0 ) {

  306. 			DBGC ( ena, "ENA %p admin response %#x status %d:\n",

  307. 			       ena, le16_to_cpu ( (*rsp)->header.id ),

  308. 			       (*rsp)->header.status );

  309. 			rc = -EIO;

  310. 			goto err;

  311. 		}

  312. 

  313. 		/* Success */

  314. 		return 0;

  315. 	}

  316. 

  317. 	rc = -ETIMEDOUT;

  318. 	DBGC ( ena, "ENA %p timed out waiting for admin request %#x:\n",

  319. 	       ena, le16_to_cpu ( req->header.id ) );

  320.  err:

  321. 	DBGC_HDA ( ena, virt_to_phys ( req ), req, sizeof ( *req ) );

  322. 	DBGC_HDA ( ena, virt_to_phys ( *rsp ), *rsp, sizeof ( **rsp ) );

  323. 	return rc;

  324. }

  325. 

  326. /**

  327.  * Create submission queue

  328.  *

  329.  * @v ena		ENA device

  330.  * @v sq		Submission queue

  331.  * @v cq		Corresponding completion queue

  332.  * @ret rc		Return status code

  333.  */

  334. static int ena_create_sq ( struct ena_nic *ena, struct ena_sq *sq,

  335. 			   struct ena_cq *cq ) {

  336. 	union ena_aq_req *req;

  337. 	union ena_acq_rsp *rsp;

  338. 	int rc;

  339. 

  340. 	/* Allocate submission queue entries */

  341. 	sq->sqe.raw = malloc_dma ( sq->len, ENA_ALIGN );

  342. 	if ( ! sq->sqe.raw ) {

  343. 		rc = -ENOMEM;

  344. 		goto err_alloc;

  345. 	}

  346. 	memset ( sq->sqe.raw, 0, sq->len );

  347. 

  348. 	/* Construct request */

  349. 	req = ena_admin_req ( ena );

  350. 	req->header.opcode = ENA_CREATE_SQ;

  351. 	req->create_sq.direction = sq->direction;

  352. 	req->create_sq.policy = cpu_to_le16 ( ENA_SQ_HOST_MEMORY |

  353. 					      ENA_SQ_CONTIGUOUS );

  354. 	req->create_sq.cq_id = cpu_to_le16 ( cq->id );

  355. 	req->create_sq.count = cpu_to_le16 ( sq->count );

  356. 	req->create_sq.address = cpu_to_le64 ( virt_to_bus ( sq->sqe.raw ) );

  357. 

  358. 	/* Issue request */

  359. 	if ( ( rc = ena_admin ( ena, req, &rsp ) ) != 0 )

  360. 		goto err_admin;

  361. 

  362. 	/* Parse response */

  363. 	sq->id = le16_to_cpu ( rsp->create_sq.id );

  364. 	sq->doorbell = le32_to_cpu ( rsp->create_sq.doorbell );

  365. 

  366. 	/* Reset producer counter and phase */

  367. 	sq->prod = 0;

  368. 	sq->phase = ENA_SQE_PHASE;

  369. 

  370. 	DBGC ( ena, "ENA %p %s SQ%d at [%08lx,%08lx) db +%04x CQ%d\n",

  371. 	       ena, ena_direction ( sq->direction ), sq->id,

  372. 	       virt_to_phys ( sq->sqe.raw ),

  373. 	       ( virt_to_phys ( sq->sqe.raw ) + sq->len ),

  374. 	       sq->doorbell, cq->id );

  375. 	return 0;

  376. 

  377.  err_admin:

  378. 	free_dma ( sq->sqe.raw, sq->len );

  379.  err_alloc:

  380. 	return rc;

  381. }

  382. 

  383. /**

  384.  * Destroy submission queue

  385.  *

  386.  * @v ena		ENA device

  387.  * @v sq		Submission queue

  388.  * @ret rc		Return status code

  389.  */

  390. static int ena_destroy_sq ( struct ena_nic *ena, struct ena_sq *sq ) {

  391. 	union ena_aq_req *req;

  392. 	union ena_acq_rsp *rsp;

  393. 	int rc;

  394. 

  395. 	/* Construct request */

  396. 	req = ena_admin_req ( ena );

  397. 	req->header.opcode = ENA_DESTROY_SQ;

  398. 	req->destroy_sq.id = cpu_to_le16 ( sq->id );

  399. 	req->destroy_sq.direction = sq->direction;

  400. 

  401. 	/* Issue request */

  402. 	if ( ( rc = ena_admin ( ena, req, &rsp ) ) != 0 )

  403. 		return rc;

  404. 

  405. 	/* Free submission queue entries */

  406. 	free_dma ( sq->sqe.raw, sq->len );

  407. 

  408. 	DBGC ( ena, "ENA %p %s SQ%d destroyed\n",

  409. 	       ena, ena_direction ( sq->direction ), sq->id );

  410. 	return 0;

  411. }

  412. 

  413. /**

  414.  * Create completion queue

  415.  *

  416.  * @v ena		ENA device

  417.  * @v cq		Completion queue

  418.  * @ret rc		Return status code

  419.  */

  420. static int ena_create_cq ( struct ena_nic *ena, struct ena_cq *cq ) {

  421. 	union ena_aq_req *req;

  422. 	union ena_acq_rsp *rsp;

  423. 	int rc;

  424. 

  425. 	/* Allocate completion queue entries */

  426. 	cq->cqe.raw = malloc_dma ( cq->len, ENA_ALIGN );

  427. 	if ( ! cq->cqe.raw ) {

  428. 		rc = -ENOMEM;

  429. 		goto err_alloc;

  430. 	}

  431. 	memset ( cq->cqe.raw, 0, cq->len );

  432. 

  433. 	/* Construct request */

  434. 	req = ena_admin_req ( ena );

  435. 	req->header.opcode = ENA_CREATE_CQ;

  436. 	req->create_cq.size = cq->size;

  437. 	req->create_cq.count = cpu_to_le16 ( cq->requested );

  438. 	req->create_cq.address = cpu_to_le64 ( virt_to_bus ( cq->cqe.raw ) );

  439. 

  440. 	/* Issue request */

  441. 	if ( ( rc = ena_admin ( ena, req, &rsp ) ) != 0 )

  442. 		goto err_admin;

  443. 

  444. 	/* Parse response */

  445. 	cq->id = le16_to_cpu ( rsp->create_cq.id );

  446. 	cq->actual = le16_to_cpu ( rsp->create_cq.count );

  447. 	cq->doorbell = le32_to_cpu ( rsp->create_cq.doorbell );

  448. 	cq->mask = ( cq->actual - 1 );

  449. 	if ( cq->actual != cq->requested ) {

  450. 		DBGC ( ena, "ENA %p CQ%d requested %d actual %d\n",

  451. 		       ena, cq->id, cq->requested, cq->actual );

  452. 	}

  453. 

  454. 	/* Reset consumer counter and phase */

  455. 	cq->cons = 0;

  456. 	cq->phase = ENA_CQE_PHASE;

  457. 

  458. 	DBGC ( ena, "ENA %p CQ%d at [%08lx,%08lx) db +%04x\n",

  459. 	       ena, cq->id, virt_to_phys ( cq->cqe.raw ),

  460. 	       ( virt_to_phys ( cq->cqe.raw ) + cq->len ), cq->doorbell );

  461. 	return 0;

  462. 

  463.  err_admin:

  464. 	free_dma ( cq->cqe.raw, cq->len );

  465.  err_alloc:

  466. 	return rc;

  467. }

  468. 

  469. /**

  470.  * Destroy completion queue

  471.  *

  472.  * @v ena		ENA device

  473.  * @v cq		Completion queue

  474.  * @ret rc		Return status code

  475.  */

  476. static int ena_destroy_cq ( struct ena_nic *ena, struct ena_cq *cq ) {

  477. 	union ena_aq_req *req;

  478. 	union ena_acq_rsp *rsp;

  479. 	int rc;

  480. 

  481. 	/* Construct request */

  482. 	req = ena_admin_req ( ena );

  483. 	req->header.opcode = ENA_DESTROY_CQ;

  484. 	req->destroy_cq.id = cpu_to_le16 ( cq->id );

  485. 

  486. 	/* Issue request */

  487. 	if ( ( rc = ena_admin ( ena, req, &rsp ) ) != 0 )

  488. 		return rc;

  489. 

  490. 	/* Free completion queue entries */

  491. 	free_dma ( cq->cqe.raw, cq->len );

  492. 

  493. 	DBGC ( ena, "ENA %p CQ%d destroyed\n", ena, cq->id );

  494. 	return 0;

  495. }

  496. 

  497. /**

  498.  * Create queue pair

  499.  *

  500.  * @v ena		ENA device

  501.  * @v qp		Queue pair

  502.  * @ret rc		Return status code

  503.  */

  504. static int ena_create_qp ( struct ena_nic *ena, struct ena_qp *qp ) {

  505. 	int rc;

  506. 

  507. 	/* Create completion queue */

  508. 	if ( ( rc = ena_create_cq ( ena, &qp->cq ) ) != 0 )

  509. 		goto err_create_cq;

  510. 

  511. 	/* Create submission queue */

  512. 	if ( ( rc = ena_create_sq ( ena, &qp->sq, &qp->cq ) ) != 0 )

  513. 		goto err_create_sq;

  514. 

  515. 	return 0;

  516. 

  517. 	ena_destroy_sq ( ena, &qp->sq );

  518.  err_create_sq:

  519. 	ena_destroy_cq ( ena, &qp->cq );

  520.  err_create_cq:

  521. 	return rc;

  522. }

  523. 

  524. /**

  525.  * Destroy queue pair

  526.  *

  527.  * @v ena		ENA device

  528.  * @v qp		Queue pair

  529.  * @ret rc		Return status code

  530.  */

  531. static int ena_destroy_qp ( struct ena_nic *ena, struct ena_qp *qp ) {

  532. 

  533. 	/* Destroy submission queue */

  534. 	ena_destroy_sq ( ena,  &qp->sq );

  535. 

  536. 	/* Destroy completion queue */

  537. 	ena_destroy_cq ( ena, &qp->cq );

  538. 

  539. 	return 0;

  540. }

  541. 

  542. /**

  543.  * Get device attributes

  544.  *

  545.  * @v netdev		Network device

  546.  * @ret rc		Return status code

  547.  */

  548. static int ena_get_device_attributes ( struct net_device *netdev ) {

  549. 	struct ena_nic *ena = netdev->priv;

  550. 	union ena_aq_req *req;

  551. 	union ena_acq_rsp *rsp;

  552. 	union ena_feature *feature;

  553. 	int rc;

  554. 

  555. 	/* Construct request */

  556. 	req = ena_admin_req ( ena );

  557. 	req->header.opcode = ENA_GET_FEATURE;

  558. 	req->get_feature.id = ENA_DEVICE_ATTRIBUTES;

  559. 

  560. 	/* Issue request */

  561. 	if ( ( rc = ena_admin ( ena, req, &rsp ) ) != 0 )

  562. 		return rc;

  563. 

  564. 	/* Parse response */

  565. 	feature = &rsp->get_feature.feature;

  566. 	memcpy ( netdev->hw_addr, feature->device.mac, ETH_ALEN );

  567. 	netdev->max_pkt_len = le32_to_cpu ( feature->device.mtu );

  568. 

  569. 	DBGC ( ena, "ENA %p MAC %s MTU %zd\n",

  570. 	       ena, eth_ntoa ( netdev->hw_addr ), netdev->max_pkt_len );

  571. 	return 0;

  572. }

  573. 

  574. /**

  575.  * Get statistics (for debugging)

  576.  *

  577.  * @v ena		ENA device

  578.  * @ret rc		Return status code

  579.  */

  580. static int ena_get_stats ( struct ena_nic *ena ) {

  581. 	union ena_aq_req *req;

  582. 	union ena_acq_rsp *rsp;

  583. 	struct ena_get_stats_rsp *stats;

  584. 	int rc;

  585. 

  586. 	/* Do nothing unless debug messages are enabled */

  587. 	if ( ! DBG_LOG )

  588. 		return 0;

  589. 

  590. 	/* Construct request */

  591. 	req = ena_admin_req ( ena );

  592. 	req->header.opcode = ENA_GET_STATS;

  593. 	req->get_stats.type = ENA_STATS_TYPE_BASIC;

  594. 	req->get_stats.scope = ENA_STATS_SCOPE_ETH;

  595. 	req->get_stats.device = ENA_DEVICE_MINE;

  596. 

  597. 	/* Issue request */

  598. 	if ( ( rc = ena_admin ( ena, req, &rsp ) ) != 0 )

  599. 		return rc;

  600. 

  601. 	/* Parse response */

  602. 	stats = &rsp->get_stats;

  603. 	DBGC ( ena, "ENA %p TX bytes %#llx packets %#llx\n", ena,

  604. 	       ( ( unsigned long long ) le64_to_cpu ( stats->tx_bytes ) ),

  605. 	       ( ( unsigned long long ) le64_to_cpu ( stats->tx_packets ) ) );

  606. 	DBGC ( ena, "ENA %p RX bytes %#llx packets %#llx drops %#llx\n", ena,

  607. 	       ( ( unsigned long long ) le64_to_cpu ( stats->rx_bytes ) ),

  608. 	       ( ( unsigned long long ) le64_to_cpu ( stats->rx_packets ) ),

  609. 	       ( ( unsigned long long ) le64_to_cpu ( stats->rx_drops ) ) );

  610. 

  611. 	return 0;

  612. }

  613. 

  614. /******************************************************************************

  615.  *

  616.  * Network device interface

  617.  *

  618.  ******************************************************************************

  619.  */

  620. 

  621. /**

  622.  * Refill receive queue

  623.  *

  624.  * @v netdev		Network device

  625.  */

  626. static void ena_refill_rx ( struct net_device *netdev ) {

  627. 	struct ena_nic *ena = netdev->priv;

  628. 	struct io_buffer *iobuf;

  629. 	struct ena_rx_sqe *sqe;

  630. 	unsigned int index;

  631. 	physaddr_t address;

  632. 	size_t len = netdev->max_pkt_len;

  633. 	unsigned int refilled = 0;

  634. 

  635. 	/* Refill queue */

  636. 	while ( ( ena->rx.sq.prod - ena->rx.cq.cons ) < ENA_RX_COUNT ) {

  637. 

  638. 		/* Allocate I/O buffer */

  639. 		iobuf = alloc_iob ( len );

  640. 		if ( ! iobuf ) {

  641. 			/* Wait for next refill */

  642. 			break;

  643. 		}

  644. 

  645. 		/* Get next submission queue entry */

  646. 		index = ( ena->rx.sq.prod % ENA_RX_COUNT );

  647. 		sqe = &ena->rx.sq.sqe.rx[index];

  648. 

  649. 		/* Construct submission queue entry */

  650. 		address = virt_to_bus ( iobuf->data );

  651. 		sqe->len = cpu_to_le16 ( len );

  652. 		sqe->id = cpu_to_le16 ( ena->rx.sq.prod );

  653. 		sqe->address = cpu_to_le64 ( address );

  654. 		wmb();

  655. 		sqe->flags = ( ENA_SQE_FIRST | ENA_SQE_LAST | ENA_SQE_CPL |

  656. 			       ena->rx.sq.phase );

  657. 

  658. 		/* Increment producer counter */

  659. 		ena->rx.sq.prod++;

  660. 		if ( ( ena->rx.sq.prod % ENA_RX_COUNT ) == 0 )

  661. 			ena->rx.sq.phase ^= ENA_SQE_PHASE;

  662. 

  663. 		/* Record I/O buffer */

  664. 		assert ( ena->rx_iobuf[index] == NULL );

  665. 		ena->rx_iobuf[index] = iobuf;

  666. 

  667. 		DBGC2 ( ena, "ENA %p RX %d at [%08llx,%08llx)\n", ena, sqe->id,

  668. 			( ( unsigned long long ) address ),

  669. 			( ( unsigned long long ) address + len ) );

  670. 		refilled++;

  671. 	}

  672. 

  673. 	/* Ring doorbell, if applicable */

  674. 	if ( refilled ) {

  675. 		wmb();

  676. 		writel ( ena->rx.sq.prod, ( ena->regs + ena->rx.sq.doorbell ) );

  677. 	}

  678. }

  679. 

  680. /**

  681.  * Discard unused receive I/O buffers

  682.  *

  683.  * @v ena		ENA device

  684.  */

  685. static void ena_empty_rx ( struct ena_nic *ena ) {

  686. 	unsigned int i;

  687. 

  688. 	for ( i = 0 ; i < ENA_RX_COUNT ; i++ ) {

  689. 		if ( ena->rx_iobuf[i] )

  690. 			free_iob ( ena->rx_iobuf[i] );

  691. 		ena->rx_iobuf[i] = NULL;

  692. 	}

  693. }

  694. 

  695. /**

  696.  * Open network device

  697.  *

  698.  * @v netdev		Network device

  699.  * @ret rc		Return status code

  700.  */

  701. static int ena_open ( struct net_device *netdev ) {

  702. 	struct ena_nic *ena = netdev->priv;

  703. 	int rc;

  704. 

  705. 	/* Create transmit queue pair */

  706. 	if ( ( rc = ena_create_qp ( ena, &ena->tx ) ) != 0 )

  707. 		goto err_create_tx;

  708. 

  709. 	/* Create receive queue pair */

  710. 	if ( ( rc = ena_create_qp ( ena, &ena->rx ) ) != 0 )

  711. 		goto err_create_rx;

  712. 

  713. 	/* Refill receive queue */

  714. 	ena_refill_rx ( netdev );

  715. 

  716. 	return 0;

  717. 

  718. 	ena_destroy_qp ( ena, &ena->rx );

  719.  err_create_rx:

  720. 	ena_destroy_qp ( ena, &ena->tx );

  721.  err_create_tx:

  722. 	return rc;

  723. }

  724. 

  725. /**

  726.  * Close network device

  727.  *

  728.  * @v netdev		Network device

  729.  */

  730. static void ena_close ( struct net_device *netdev ) {

  731. 	struct ena_nic *ena = netdev->priv;

  732. 

  733. 	/* Dump statistics (for debugging) */

  734. 	ena_get_stats ( ena );

  735. 

  736. 	/* Destroy receive queue pair */

  737. 	ena_destroy_qp ( ena, &ena->rx );

  738. 

  739. 	/* Discard any unused receive buffers */

  740. 	ena_empty_rx ( ena );

  741. 

  742. 	/* Destroy transmit queue pair */

  743. 	ena_destroy_qp ( ena, &ena->tx );

  744. }

  745. 

  746. /**

  747.  * Transmit packet

  748.  *

  749.  * @v netdev		Network device

  750.  * @v iobuf		I/O buffer

  751.  * @ret rc		Return status code

  752.  */

  753. static int ena_transmit ( struct net_device *netdev, struct io_buffer *iobuf ) {

  754. 	struct ena_nic *ena = netdev->priv;

  755. 	struct ena_tx_sqe *sqe;

  756. 	unsigned int index;

  757. 	physaddr_t address;

  758. 	size_t len;

  759. 

  760. 	/* Get next submission queue entry */

  761. 	if ( ( ena->tx.sq.prod - ena->tx.cq.cons ) >= ENA_TX_COUNT ) {

  762. 		DBGC ( ena, "ENA %p out of transmit descriptors\n", ena );

  763. 		return -ENOBUFS;

  764. 	}

  765. 	index = ( ena->tx.sq.prod % ENA_TX_COUNT );

  766. 	sqe = &ena->tx.sq.sqe.tx[index];

  767. 

  768. 	/* Construct submission queue entry */

  769. 	address = virt_to_bus ( iobuf->data );

  770. 	len = iob_len ( iobuf );

  771. 	sqe->len = cpu_to_le16 ( len );

  772. 	sqe->id = ena->tx.sq.prod;

  773. 	sqe->address = cpu_to_le64 ( address );

  774. 	wmb();

  775. 	sqe->flags = ( ENA_SQE_FIRST | ENA_SQE_LAST | ENA_SQE_CPL |

  776. 		       ena->tx.sq.phase );

  777. 	wmb();

  778. 

  779. 	/* Increment producer counter */

  780. 	ena->tx.sq.prod++;

  781. 	if ( ( ena->tx.sq.prod % ENA_TX_COUNT ) == 0 )

  782. 		ena->tx.sq.phase ^= ENA_SQE_PHASE;

  783. 

  784. 	/* Ring doorbell */

  785. 	writel ( ena->tx.sq.prod, ( ena->regs + ena->tx.sq.doorbell ) );

  786. 

  787. 	DBGC2 ( ena, "ENA %p TX %d at [%08llx,%08llx)\n", ena, sqe->id,

  788. 		( ( unsigned long long ) address ),

  789. 		( ( unsigned long long ) address + len ) );

  790. 	return 0;

  791. }

  792. 

  793. /**

  794.  * Poll for completed transmissions

  795.  *

  796.  * @v netdev		Network device

  797.  */

  798. static void ena_poll_tx ( struct net_device *netdev ) {

  799. 	struct ena_nic *ena = netdev->priv;

  800. 	struct ena_tx_cqe *cqe;

  801. 	unsigned int index;

  802. 

  803. 	/* Check for completed packets */

  804. 	while ( ena->tx.cq.cons != ena->tx.sq.prod ) {

  805. 

  806. 		/* Get next completion queue entry */

  807. 		index = ( ena->tx.cq.cons & ena->tx.cq.mask );

  808. 		cqe = &ena->tx.cq.cqe.tx[index];

  809. 

  810. 		/* Stop if completion queue entry is empty */

  811. 		if ( ( cqe->flags ^ ena->tx.cq.phase ) & ENA_CQE_PHASE )

  812. 			return;

  813. 		DBGC2 ( ena, "ENA %p TX %d complete\n", ena,

  814. 			( le16_to_cpu ( cqe->id ) >> 2 /* Don't ask */ ) );

  815. 

  816. 		/* Increment consumer counter */

  817. 		ena->tx.cq.cons++;

  818. 		if ( ! ( ena->tx.cq.cons & ena->tx.cq.mask ) )

  819. 			ena->tx.cq.phase ^= ENA_CQE_PHASE;

  820. 

  821. 		/* Complete transmit */

  822. 		netdev_tx_complete_next ( netdev );

  823. 	}

  824. }

  825. 

  826. /**

  827.  * Poll for received packets

  828.  *

  829.  * @v netdev		Network device

  830.  */

  831. static void ena_poll_rx ( struct net_device *netdev ) {

  832. 	struct ena_nic *ena = netdev->priv;

  833. 	struct ena_rx_cqe *cqe;

  834. 	struct io_buffer *iobuf;

  835. 	unsigned int index;

  836. 	size_t len;

  837. 

  838. 	/* Check for received packets */

  839. 	while ( ena->rx.cq.cons != ena->rx.sq.prod ) {

  840. 

  841. 		/* Get next completion queue entry */

  842. 		index = ( ena->rx.cq.cons % ENA_RX_COUNT );

  843. 		cqe = &ena->rx.cq.cqe.rx[index];

  844. 

  845. 		/* Stop if completion queue entry is empty */

  846. 		if ( ( cqe->flags ^ ena->rx.cq.phase ) & ENA_CQE_PHASE )

  847. 			return;

  848. 

  849. 		/* Increment consumer counter */

  850. 		ena->rx.cq.cons++;

  851. 		if ( ! ( ena->rx.cq.cons & ena->rx.cq.mask ) )

  852. 			ena->rx.cq.phase ^= ENA_CQE_PHASE;

  853. 

  854. 		/* Populate I/O buffer */

  855. 		iobuf = ena->rx_iobuf[index];

  856. 		ena->rx_iobuf[index] = NULL;

  857. 		len = le16_to_cpu ( cqe->len );

  858. 		iob_put ( iobuf, len );

  859. 

  860. 		/* Hand off to network stack */

  861. 		DBGC2 ( ena, "ENA %p RX %d complete (length %zd)\n",

  862. 			ena, le16_to_cpu ( cqe->id ), len );

  863. 		netdev_rx ( netdev, iobuf );

  864. 	}

  865. }

  866. 

  867. /**

  868.  * Poll for completed and received packets

  869.  *

  870.  * @v netdev		Network device

  871.  */

  872. static void ena_poll ( struct net_device *netdev ) {

  873. 

  874. 	/* Poll for transmit completions */

  875. 	ena_poll_tx ( netdev );

  876. 

  877. 	/* Poll for receive completions */

  878. 	ena_poll_rx ( netdev );

  879. 

  880. 	/* Refill receive ring */

  881. 	ena_refill_rx ( netdev );

  882. }

  883. 

  884. /** ENA network device operations */

  885. static struct net_device_operations ena_operations = {

  886. 	.open		= ena_open,

  887. 	.close		= ena_close,

  888. 	.transmit	= ena_transmit,

  889. 	.poll		= ena_poll,

  890. };

  891. 

  892. /******************************************************************************

  893.  *

  894.  * PCI interface

  895.  *

  896.  ******************************************************************************

  897.  */

  898. 

  899. /**

  900.  * Probe PCI device

  901.  *

  902.  * @v pci		PCI device

  903.  * @ret rc		Return status code

  904.  */

  905. static int ena_probe ( struct pci_device *pci ) {

  906. 	struct net_device *netdev;

  907. 	struct ena_nic *ena;

  908. 	int rc;

  909. 

  910. 	/* Allocate and initialise net device */

  911. 	netdev = alloc_etherdev ( sizeof ( *ena ) );

  912. 	if ( ! netdev ) {

  913. 		rc = -ENOMEM;

  914. 		goto err_alloc;

  915. 	}

  916. 	netdev_init ( netdev, &ena_operations );

  917. 	ena = netdev->priv;

  918. 	pci_set_drvdata ( pci, netdev );

  919. 	netdev->dev = &pci->dev;

  920. 	memset ( ena, 0, sizeof ( *ena ) );

  921. 	ena->acq.phase = ENA_ACQ_PHASE;

  922. 	ena_cq_init ( &ena->tx.cq, ENA_TX_COUNT,

  923. 		      sizeof ( ena->tx.cq.cqe.tx[0] ) );

  924. 	ena_sq_init ( &ena->tx.sq, ENA_SQ_TX, ENA_TX_COUNT,

  925. 		      sizeof ( ena->tx.sq.sqe.tx[0] ) );

  926. 	ena_cq_init ( &ena->rx.cq, ENA_RX_COUNT,

  927. 		      sizeof ( ena->rx.cq.cqe.rx[0] ) );

  928. 	ena_sq_init ( &ena->rx.sq, ENA_SQ_RX, ENA_RX_COUNT,

  929. 		      sizeof ( ena->rx.sq.sqe.rx[0] ) );

  930. 

  931. 	/* Fix up PCI device */

  932. 	adjust_pci_device ( pci );

  933. 

  934. 	/* Map registers */

  935. 	ena->regs = ioremap ( pci->membase, ENA_BAR_SIZE );

  936. 	if ( ! ena->regs ) {

  937. 		rc = -ENODEV;

  938. 		goto err_ioremap;

  939. 	}

  940. 

  941. 	/* Reset the NIC */

  942. 	if ( ( rc = ena_reset ( ena ) ) != 0 )

  943. 		goto err_reset;

  944. 

  945. 	/* Create admin queues */

  946. 	if ( ( rc = ena_create_admin ( ena ) ) != 0 )

  947. 		goto err_create_admin;

  948. 

  949. 	/* Fetch MAC address */

  950. 	if ( ( rc = ena_get_device_attributes ( netdev ) ) != 0 )

  951. 		goto err_get_device_attributes;

  952. 

  953. 	/* Register network device */

  954. 	if ( ( rc = register_netdev ( netdev ) ) != 0 )

  955. 		goto err_register_netdev;

  956. 

  957. 	/* Mark as link up, since we have no way to test link state on

  958. 	 * this hardware.

  959. 	 */

  960. 	netdev_link_up ( netdev );

  961. 

  962. 	return 0;

  963. 

  964. 	unregister_netdev ( netdev );

  965.  err_register_netdev:

  966.  err_get_device_attributes:

  967. 	ena_destroy_admin ( ena );

  968.  err_create_admin:

  969. 	ena_reset ( ena );

  970.  err_reset:

  971. 	iounmap ( ena->regs );

  972.  err_ioremap:

  973. 	netdev_nullify ( netdev );

  974. 	netdev_put ( netdev );

  975.  err_alloc:

  976. 	return rc;

  977. }

  978. 

  979. /**

  980.  * Remove PCI device

  981.  *

  982.  * @v pci		PCI device

  983.  */

  984. static void ena_remove ( struct pci_device *pci ) {

  985. 	struct net_device *netdev = pci_get_drvdata ( pci );

  986. 	struct ena_nic *ena = netdev->priv;

  987. 

  988. 	/* Unregister network device */

  989. 	unregister_netdev ( netdev );

  990. 

  991. 	/* Destroy admin queues */

  992. 	ena_destroy_admin ( ena );

  993. 

  994. 	/* Reset card */

  995. 	ena_reset ( ena );

  996. 

  997. 	/* Free network device */

  998. 	iounmap ( ena->regs );

  999. 	netdev_nullify ( netdev );

  1000. 	netdev_put ( netdev );

  1001. }

  1002. 

  1003. /** ENA PCI device IDs */

  1004. static struct pci_device_id ena_nics[] = {

  1005. 	PCI_ROM ( 0x1d0f, 0xec20, "ena-vf", "ENA VF", 0 ),

  1006. 	PCI_ROM ( 0x1d0f, 0xec21, "ena-vf-llq", "ENA VF (LLQ)", 0 ),

  1007. };

  1008. 

  1009. /** ENA PCI driver */

  1010. struct pci_driver ena_driver __pci_driver = {

  1011. 	.ids = ena_nics,

  1012. 	.id_count = ( sizeof ( ena_nics ) / sizeof ( ena_nics[0] ) ),

  1013. 	.probe = ena_probe,

  1014. 	.remove = ena_remove,

  1015. };