2 * Copyright (C) 2005 - 2011 Emulex
5 * This program is free software; you can redistribute it and/or
6 * modify it under the terms of the GNU General Public License version 2
7 * as published by the Free Software Foundation. The full GNU General
8 * Public License is included in this distribution in the file called COPYING.
10 * Contact Information:
11 * linux-drivers@emulex.com
15 * Costa Mesa, CA 92626
18 #include <linux/prefetch.h>
19 #include <linux/module.h>
22 #include <asm/div64.h>
24 MODULE_VERSION(DRV_VER
);
25 MODULE_DEVICE_TABLE(pci
, be_dev_ids
);
26 MODULE_DESCRIPTION(DRV_DESC
" " DRV_VER
);
27 MODULE_AUTHOR("ServerEngines Corporation");
28 MODULE_LICENSE("GPL");
30 static unsigned int num_vfs
;
31 module_param(num_vfs
, uint
, S_IRUGO
);
32 MODULE_PARM_DESC(num_vfs
, "Number of PCI VFs to initialize");
34 static ushort rx_frag_size
= 2048;
35 module_param(rx_frag_size
, ushort
, S_IRUGO
);
36 MODULE_PARM_DESC(rx_frag_size
, "Size of a fragment that holds rcvd data.");
38 static DEFINE_PCI_DEVICE_TABLE(be_dev_ids
) = {
39 { PCI_DEVICE(BE_VENDOR_ID
, BE_DEVICE_ID1
) },
40 { PCI_DEVICE(BE_VENDOR_ID
, BE_DEVICE_ID2
) },
41 { PCI_DEVICE(BE_VENDOR_ID
, OC_DEVICE_ID1
) },
42 { PCI_DEVICE(BE_VENDOR_ID
, OC_DEVICE_ID2
) },
43 { PCI_DEVICE(EMULEX_VENDOR_ID
, OC_DEVICE_ID3
)},
44 { PCI_DEVICE(EMULEX_VENDOR_ID
, OC_DEVICE_ID4
)},
45 { PCI_DEVICE(EMULEX_VENDOR_ID
, OC_DEVICE_ID5
)},
48 MODULE_DEVICE_TABLE(pci
, be_dev_ids
);
49 /* UE Status Low CSR */
50 static const char * const ue_status_low_desc
[] = {
84 /* UE Status High CSR */
85 static const char * const ue_status_hi_desc
[] = {
120 /* Is BE in a multi-channel mode */
121 static inline bool be_is_mc(struct be_adapter
*adapter
) {
122 return (adapter
->function_mode
& FLEX10_MODE
||
123 adapter
->function_mode
& VNIC_MODE
||
124 adapter
->function_mode
& UMC_ENABLED
);
127 static void be_queue_free(struct be_adapter
*adapter
, struct be_queue_info
*q
)
129 struct be_dma_mem
*mem
= &q
->dma_mem
;
131 dma_free_coherent(&adapter
->pdev
->dev
, mem
->size
, mem
->va
,
137 static int be_queue_alloc(struct be_adapter
*adapter
, struct be_queue_info
*q
,
138 u16 len
, u16 entry_size
)
140 struct be_dma_mem
*mem
= &q
->dma_mem
;
142 memset(q
, 0, sizeof(*q
));
144 q
->entry_size
= entry_size
;
145 mem
->size
= len
* entry_size
;
146 mem
->va
= dma_alloc_coherent(&adapter
->pdev
->dev
, mem
->size
, &mem
->dma
,
150 memset(mem
->va
, 0, mem
->size
);
154 static void be_intr_set(struct be_adapter
*adapter
, bool enable
)
158 if (adapter
->eeh_err
)
161 pci_read_config_dword(adapter
->pdev
, PCICFG_MEMBAR_CTRL_INT_CTRL_OFFSET
,
163 enabled
= reg
& MEMBAR_CTRL_INT_CTRL_HOSTINTR_MASK
;
165 if (!enabled
&& enable
)
166 reg
|= MEMBAR_CTRL_INT_CTRL_HOSTINTR_MASK
;
167 else if (enabled
&& !enable
)
168 reg
&= ~MEMBAR_CTRL_INT_CTRL_HOSTINTR_MASK
;
172 pci_write_config_dword(adapter
->pdev
,
173 PCICFG_MEMBAR_CTRL_INT_CTRL_OFFSET
, reg
);
176 static void be_rxq_notify(struct be_adapter
*adapter
, u16 qid
, u16 posted
)
179 val
|= qid
& DB_RQ_RING_ID_MASK
;
180 val
|= posted
<< DB_RQ_NUM_POSTED_SHIFT
;
183 iowrite32(val
, adapter
->db
+ DB_RQ_OFFSET
);
186 static void be_txq_notify(struct be_adapter
*adapter
, u16 qid
, u16 posted
)
189 val
|= qid
& DB_TXULP_RING_ID_MASK
;
190 val
|= (posted
& DB_TXULP_NUM_POSTED_MASK
) << DB_TXULP_NUM_POSTED_SHIFT
;
193 iowrite32(val
, adapter
->db
+ DB_TXULP1_OFFSET
);
196 static void be_eq_notify(struct be_adapter
*adapter
, u16 qid
,
197 bool arm
, bool clear_int
, u16 num_popped
)
200 val
|= qid
& DB_EQ_RING_ID_MASK
;
201 val
|= ((qid
& DB_EQ_RING_ID_EXT_MASK
) <<
202 DB_EQ_RING_ID_EXT_MASK_SHIFT
);
204 if (adapter
->eeh_err
)
208 val
|= 1 << DB_EQ_REARM_SHIFT
;
210 val
|= 1 << DB_EQ_CLR_SHIFT
;
211 val
|= 1 << DB_EQ_EVNT_SHIFT
;
212 val
|= num_popped
<< DB_EQ_NUM_POPPED_SHIFT
;
213 iowrite32(val
, adapter
->db
+ DB_EQ_OFFSET
);
216 void be_cq_notify(struct be_adapter
*adapter
, u16 qid
, bool arm
, u16 num_popped
)
219 val
|= qid
& DB_CQ_RING_ID_MASK
;
220 val
|= ((qid
& DB_CQ_RING_ID_EXT_MASK
) <<
221 DB_CQ_RING_ID_EXT_MASK_SHIFT
);
223 if (adapter
->eeh_err
)
227 val
|= 1 << DB_CQ_REARM_SHIFT
;
228 val
|= num_popped
<< DB_CQ_NUM_POPPED_SHIFT
;
229 iowrite32(val
, adapter
->db
+ DB_CQ_OFFSET
);
232 static int be_mac_addr_set(struct net_device
*netdev
, void *p
)
234 struct be_adapter
*adapter
= netdev_priv(netdev
);
235 struct sockaddr
*addr
= p
;
237 u8 current_mac
[ETH_ALEN
];
238 u32 pmac_id
= adapter
->pmac_id
[0];
240 if (!is_valid_ether_addr(addr
->sa_data
))
241 return -EADDRNOTAVAIL
;
243 status
= be_cmd_mac_addr_query(adapter
, current_mac
,
244 MAC_ADDRESS_TYPE_NETWORK
, false,
245 adapter
->if_handle
, 0);
249 if (memcmp(addr
->sa_data
, current_mac
, ETH_ALEN
)) {
250 status
= be_cmd_pmac_add(adapter
, (u8
*)addr
->sa_data
,
251 adapter
->if_handle
, &adapter
->pmac_id
[0], 0);
255 be_cmd_pmac_del(adapter
, adapter
->if_handle
, pmac_id
, 0);
257 memcpy(netdev
->dev_addr
, addr
->sa_data
, netdev
->addr_len
);
260 dev_err(&adapter
->pdev
->dev
, "MAC %pM set Failed\n", addr
->sa_data
);
264 static void populate_be2_stats(struct be_adapter
*adapter
)
266 struct be_hw_stats_v0
*hw_stats
= hw_stats_from_cmd(adapter
);
267 struct be_pmem_stats
*pmem_sts
= &hw_stats
->pmem
;
268 struct be_rxf_stats_v0
*rxf_stats
= &hw_stats
->rxf
;
269 struct be_port_rxf_stats_v0
*port_stats
=
270 &rxf_stats
->port
[adapter
->port_num
];
271 struct be_drv_stats
*drvs
= &adapter
->drv_stats
;
273 be_dws_le_to_cpu(hw_stats
, sizeof(*hw_stats
));
274 drvs
->rx_pause_frames
= port_stats
->rx_pause_frames
;
275 drvs
->rx_crc_errors
= port_stats
->rx_crc_errors
;
276 drvs
->rx_control_frames
= port_stats
->rx_control_frames
;
277 drvs
->rx_in_range_errors
= port_stats
->rx_in_range_errors
;
278 drvs
->rx_frame_too_long
= port_stats
->rx_frame_too_long
;
279 drvs
->rx_dropped_runt
= port_stats
->rx_dropped_runt
;
280 drvs
->rx_ip_checksum_errs
= port_stats
->rx_ip_checksum_errs
;
281 drvs
->rx_tcp_checksum_errs
= port_stats
->rx_tcp_checksum_errs
;
282 drvs
->rx_udp_checksum_errs
= port_stats
->rx_udp_checksum_errs
;
283 drvs
->rxpp_fifo_overflow_drop
= port_stats
->rx_fifo_overflow
;
284 drvs
->rx_dropped_tcp_length
= port_stats
->rx_dropped_tcp_length
;
285 drvs
->rx_dropped_too_small
= port_stats
->rx_dropped_too_small
;
286 drvs
->rx_dropped_too_short
= port_stats
->rx_dropped_too_short
;
287 drvs
->rx_out_range_errors
= port_stats
->rx_out_range_errors
;
288 drvs
->rx_input_fifo_overflow_drop
= port_stats
->rx_input_fifo_overflow
;
289 drvs
->rx_dropped_header_too_small
=
290 port_stats
->rx_dropped_header_too_small
;
291 drvs
->rx_address_mismatch_drops
=
292 port_stats
->rx_address_mismatch_drops
+
293 port_stats
->rx_vlan_mismatch_drops
;
294 drvs
->rx_alignment_symbol_errors
=
295 port_stats
->rx_alignment_symbol_errors
;
297 drvs
->tx_pauseframes
= port_stats
->tx_pauseframes
;
298 drvs
->tx_controlframes
= port_stats
->tx_controlframes
;
300 if (adapter
->port_num
)
301 drvs
->jabber_events
= rxf_stats
->port1_jabber_events
;
303 drvs
->jabber_events
= rxf_stats
->port0_jabber_events
;
304 drvs
->rx_drops_no_pbuf
= rxf_stats
->rx_drops_no_pbuf
;
305 drvs
->rx_drops_no_erx_descr
= rxf_stats
->rx_drops_no_erx_descr
;
306 drvs
->forwarded_packets
= rxf_stats
->forwarded_packets
;
307 drvs
->rx_drops_mtu
= rxf_stats
->rx_drops_mtu
;
308 drvs
->rx_drops_no_tpre_descr
= rxf_stats
->rx_drops_no_tpre_descr
;
309 drvs
->rx_drops_too_many_frags
= rxf_stats
->rx_drops_too_many_frags
;
310 adapter
->drv_stats
.eth_red_drops
= pmem_sts
->eth_red_drops
;
313 static void populate_be3_stats(struct be_adapter
*adapter
)
315 struct be_hw_stats_v1
*hw_stats
= hw_stats_from_cmd(adapter
);
316 struct be_pmem_stats
*pmem_sts
= &hw_stats
->pmem
;
317 struct be_rxf_stats_v1
*rxf_stats
= &hw_stats
->rxf
;
318 struct be_port_rxf_stats_v1
*port_stats
=
319 &rxf_stats
->port
[adapter
->port_num
];
320 struct be_drv_stats
*drvs
= &adapter
->drv_stats
;
322 be_dws_le_to_cpu(hw_stats
, sizeof(*hw_stats
));
323 drvs
->pmem_fifo_overflow_drop
= port_stats
->pmem_fifo_overflow_drop
;
324 drvs
->rx_priority_pause_frames
= port_stats
->rx_priority_pause_frames
;
325 drvs
->rx_pause_frames
= port_stats
->rx_pause_frames
;
326 drvs
->rx_crc_errors
= port_stats
->rx_crc_errors
;
327 drvs
->rx_control_frames
= port_stats
->rx_control_frames
;
328 drvs
->rx_in_range_errors
= port_stats
->rx_in_range_errors
;
329 drvs
->rx_frame_too_long
= port_stats
->rx_frame_too_long
;
330 drvs
->rx_dropped_runt
= port_stats
->rx_dropped_runt
;
331 drvs
->rx_ip_checksum_errs
= port_stats
->rx_ip_checksum_errs
;
332 drvs
->rx_tcp_checksum_errs
= port_stats
->rx_tcp_checksum_errs
;
333 drvs
->rx_udp_checksum_errs
= port_stats
->rx_udp_checksum_errs
;
334 drvs
->rx_dropped_tcp_length
= port_stats
->rx_dropped_tcp_length
;
335 drvs
->rx_dropped_too_small
= port_stats
->rx_dropped_too_small
;
336 drvs
->rx_dropped_too_short
= port_stats
->rx_dropped_too_short
;
337 drvs
->rx_out_range_errors
= port_stats
->rx_out_range_errors
;
338 drvs
->rx_dropped_header_too_small
=
339 port_stats
->rx_dropped_header_too_small
;
340 drvs
->rx_input_fifo_overflow_drop
=
341 port_stats
->rx_input_fifo_overflow_drop
;
342 drvs
->rx_address_mismatch_drops
= port_stats
->rx_address_mismatch_drops
;
343 drvs
->rx_alignment_symbol_errors
=
344 port_stats
->rx_alignment_symbol_errors
;
345 drvs
->rxpp_fifo_overflow_drop
= port_stats
->rxpp_fifo_overflow_drop
;
346 drvs
->tx_pauseframes
= port_stats
->tx_pauseframes
;
347 drvs
->tx_controlframes
= port_stats
->tx_controlframes
;
348 drvs
->jabber_events
= port_stats
->jabber_events
;
349 drvs
->rx_drops_no_pbuf
= rxf_stats
->rx_drops_no_pbuf
;
350 drvs
->rx_drops_no_erx_descr
= rxf_stats
->rx_drops_no_erx_descr
;
351 drvs
->forwarded_packets
= rxf_stats
->forwarded_packets
;
352 drvs
->rx_drops_mtu
= rxf_stats
->rx_drops_mtu
;
353 drvs
->rx_drops_no_tpre_descr
= rxf_stats
->rx_drops_no_tpre_descr
;
354 drvs
->rx_drops_too_many_frags
= rxf_stats
->rx_drops_too_many_frags
;
355 adapter
->drv_stats
.eth_red_drops
= pmem_sts
->eth_red_drops
;
358 static void populate_lancer_stats(struct be_adapter
*adapter
)
361 struct be_drv_stats
*drvs
= &adapter
->drv_stats
;
362 struct lancer_pport_stats
*pport_stats
=
363 pport_stats_from_cmd(adapter
);
365 be_dws_le_to_cpu(pport_stats
, sizeof(*pport_stats
));
366 drvs
->rx_pause_frames
= pport_stats
->rx_pause_frames_lo
;
367 drvs
->rx_crc_errors
= pport_stats
->rx_crc_errors_lo
;
368 drvs
->rx_control_frames
= pport_stats
->rx_control_frames_lo
;
369 drvs
->rx_in_range_errors
= pport_stats
->rx_in_range_errors
;
370 drvs
->rx_frame_too_long
= pport_stats
->rx_frames_too_long_lo
;
371 drvs
->rx_dropped_runt
= pport_stats
->rx_dropped_runt
;
372 drvs
->rx_ip_checksum_errs
= pport_stats
->rx_ip_checksum_errors
;
373 drvs
->rx_tcp_checksum_errs
= pport_stats
->rx_tcp_checksum_errors
;
374 drvs
->rx_udp_checksum_errs
= pport_stats
->rx_udp_checksum_errors
;
375 drvs
->rx_dropped_tcp_length
=
376 pport_stats
->rx_dropped_invalid_tcp_length
;
377 drvs
->rx_dropped_too_small
= pport_stats
->rx_dropped_too_small
;
378 drvs
->rx_dropped_too_short
= pport_stats
->rx_dropped_too_short
;
379 drvs
->rx_out_range_errors
= pport_stats
->rx_out_of_range_errors
;
380 drvs
->rx_dropped_header_too_small
=
381 pport_stats
->rx_dropped_header_too_small
;
382 drvs
->rx_input_fifo_overflow_drop
= pport_stats
->rx_fifo_overflow
;
383 drvs
->rx_address_mismatch_drops
=
384 pport_stats
->rx_address_mismatch_drops
+
385 pport_stats
->rx_vlan_mismatch_drops
;
386 drvs
->rx_alignment_symbol_errors
= pport_stats
->rx_symbol_errors_lo
;
387 drvs
->rxpp_fifo_overflow_drop
= pport_stats
->rx_fifo_overflow
;
388 drvs
->tx_pauseframes
= pport_stats
->tx_pause_frames_lo
;
389 drvs
->tx_controlframes
= pport_stats
->tx_control_frames_lo
;
390 drvs
->jabber_events
= pport_stats
->rx_jabbers
;
391 drvs
->forwarded_packets
= pport_stats
->num_forwards_lo
;
392 drvs
->rx_drops_mtu
= pport_stats
->rx_drops_mtu_lo
;
393 drvs
->rx_drops_too_many_frags
=
394 pport_stats
->rx_drops_too_many_frags_lo
;
397 static void accumulate_16bit_val(u32
*acc
, u16 val
)
399 #define lo(x) (x & 0xFFFF)
400 #define hi(x) (x & 0xFFFF0000)
401 bool wrapped
= val
< lo(*acc
);
402 u32 newacc
= hi(*acc
) + val
;
406 ACCESS_ONCE(*acc
) = newacc
;
409 void be_parse_stats(struct be_adapter
*adapter
)
411 struct be_erx_stats_v1
*erx
= be_erx_stats_from_cmd(adapter
);
412 struct be_rx_obj
*rxo
;
415 if (adapter
->generation
== BE_GEN3
) {
416 if (lancer_chip(adapter
))
417 populate_lancer_stats(adapter
);
419 populate_be3_stats(adapter
);
421 populate_be2_stats(adapter
);
424 if (lancer_chip(adapter
))
427 /* as erx_v1 is longer than v0, ok to use v1 defn for v0 access */
428 for_all_rx_queues(adapter
, rxo
, i
) {
429 /* below erx HW counter can actually wrap around after
430 * 65535. Driver accumulates a 32-bit value
432 accumulate_16bit_val(&rx_stats(rxo
)->rx_drops_no_frags
,
433 (u16
)erx
->rx_drops_no_fragments
[rxo
->q
.id
]);
439 static struct rtnl_link_stats64
*be_get_stats64(struct net_device
*netdev
,
440 struct rtnl_link_stats64
*stats
)
442 struct be_adapter
*adapter
= netdev_priv(netdev
);
443 struct be_drv_stats
*drvs
= &adapter
->drv_stats
;
444 struct be_rx_obj
*rxo
;
445 struct be_tx_obj
*txo
;
450 for_all_rx_queues(adapter
, rxo
, i
) {
451 const struct be_rx_stats
*rx_stats
= rx_stats(rxo
);
453 start
= u64_stats_fetch_begin_bh(&rx_stats
->sync
);
454 pkts
= rx_stats(rxo
)->rx_pkts
;
455 bytes
= rx_stats(rxo
)->rx_bytes
;
456 } while (u64_stats_fetch_retry_bh(&rx_stats
->sync
, start
));
457 stats
->rx_packets
+= pkts
;
458 stats
->rx_bytes
+= bytes
;
459 stats
->multicast
+= rx_stats(rxo
)->rx_mcast_pkts
;
460 stats
->rx_dropped
+= rx_stats(rxo
)->rx_drops_no_skbs
+
461 rx_stats(rxo
)->rx_drops_no_frags
;
464 for_all_tx_queues(adapter
, txo
, i
) {
465 const struct be_tx_stats
*tx_stats
= tx_stats(txo
);
467 start
= u64_stats_fetch_begin_bh(&tx_stats
->sync
);
468 pkts
= tx_stats(txo
)->tx_pkts
;
469 bytes
= tx_stats(txo
)->tx_bytes
;
470 } while (u64_stats_fetch_retry_bh(&tx_stats
->sync
, start
));
471 stats
->tx_packets
+= pkts
;
472 stats
->tx_bytes
+= bytes
;
475 /* bad pkts received */
476 stats
->rx_errors
= drvs
->rx_crc_errors
+
477 drvs
->rx_alignment_symbol_errors
+
478 drvs
->rx_in_range_errors
+
479 drvs
->rx_out_range_errors
+
480 drvs
->rx_frame_too_long
+
481 drvs
->rx_dropped_too_small
+
482 drvs
->rx_dropped_too_short
+
483 drvs
->rx_dropped_header_too_small
+
484 drvs
->rx_dropped_tcp_length
+
485 drvs
->rx_dropped_runt
;
487 /* detailed rx errors */
488 stats
->rx_length_errors
= drvs
->rx_in_range_errors
+
489 drvs
->rx_out_range_errors
+
490 drvs
->rx_frame_too_long
;
492 stats
->rx_crc_errors
= drvs
->rx_crc_errors
;
494 /* frame alignment errors */
495 stats
->rx_frame_errors
= drvs
->rx_alignment_symbol_errors
;
497 /* receiver fifo overrun */
498 /* drops_no_pbuf is no per i/f, it's per BE card */
499 stats
->rx_fifo_errors
= drvs
->rxpp_fifo_overflow_drop
+
500 drvs
->rx_input_fifo_overflow_drop
+
501 drvs
->rx_drops_no_pbuf
;
505 void be_link_status_update(struct be_adapter
*adapter
, u8 link_status
)
507 struct net_device
*netdev
= adapter
->netdev
;
509 if (!(adapter
->flags
& BE_FLAGS_LINK_STATUS_INIT
)) {
510 netif_carrier_off(netdev
);
511 adapter
->flags
|= BE_FLAGS_LINK_STATUS_INIT
;
514 if ((link_status
& LINK_STATUS_MASK
) == LINK_UP
)
515 netif_carrier_on(netdev
);
517 netif_carrier_off(netdev
);
520 static void be_tx_stats_update(struct be_tx_obj
*txo
,
521 u32 wrb_cnt
, u32 copied
, u32 gso_segs
, bool stopped
)
523 struct be_tx_stats
*stats
= tx_stats(txo
);
525 u64_stats_update_begin(&stats
->sync
);
527 stats
->tx_wrbs
+= wrb_cnt
;
528 stats
->tx_bytes
+= copied
;
529 stats
->tx_pkts
+= (gso_segs
? gso_segs
: 1);
532 u64_stats_update_end(&stats
->sync
);
535 /* Determine number of WRB entries needed to xmit data in an skb */
536 static u32
wrb_cnt_for_skb(struct be_adapter
*adapter
, struct sk_buff
*skb
,
539 int cnt
= (skb
->len
> skb
->data_len
);
541 cnt
+= skb_shinfo(skb
)->nr_frags
;
543 /* to account for hdr wrb */
545 if (lancer_chip(adapter
) || !(cnt
& 1)) {
548 /* add a dummy to make it an even num */
552 BUG_ON(cnt
> BE_MAX_TX_FRAG_COUNT
);
556 static inline void wrb_fill(struct be_eth_wrb
*wrb
, u64 addr
, int len
)
558 wrb
->frag_pa_hi
= upper_32_bits(addr
);
559 wrb
->frag_pa_lo
= addr
& 0xFFFFFFFF;
560 wrb
->frag_len
= len
& ETH_WRB_FRAG_LEN_MASK
;
563 static inline u16
be_get_tx_vlan_tag(struct be_adapter
*adapter
,
569 vlan_tag
= vlan_tx_tag_get(skb
);
570 vlan_prio
= (vlan_tag
& VLAN_PRIO_MASK
) >> VLAN_PRIO_SHIFT
;
571 /* If vlan priority provided by OS is NOT in available bmap */
572 if (!(adapter
->vlan_prio_bmap
& (1 << vlan_prio
)))
573 vlan_tag
= (vlan_tag
& ~VLAN_PRIO_MASK
) |
574 adapter
->recommended_prio
;
579 static void wrb_fill_hdr(struct be_adapter
*adapter
, struct be_eth_hdr_wrb
*hdr
,
580 struct sk_buff
*skb
, u32 wrb_cnt
, u32 len
)
584 memset(hdr
, 0, sizeof(*hdr
));
586 AMAP_SET_BITS(struct amap_eth_hdr_wrb
, crc
, hdr
, 1);
588 if (skb_is_gso(skb
)) {
589 AMAP_SET_BITS(struct amap_eth_hdr_wrb
, lso
, hdr
, 1);
590 AMAP_SET_BITS(struct amap_eth_hdr_wrb
, lso_mss
,
591 hdr
, skb_shinfo(skb
)->gso_size
);
592 if (skb_is_gso_v6(skb
) && !lancer_chip(adapter
))
593 AMAP_SET_BITS(struct amap_eth_hdr_wrb
, lso6
, hdr
, 1);
594 if (lancer_chip(adapter
) && adapter
->sli_family
==
595 LANCER_A0_SLI_FAMILY
) {
596 AMAP_SET_BITS(struct amap_eth_hdr_wrb
, ipcs
, hdr
, 1);
598 AMAP_SET_BITS(struct amap_eth_hdr_wrb
,
600 else if (is_udp_pkt(skb
))
601 AMAP_SET_BITS(struct amap_eth_hdr_wrb
,
604 } else if (skb
->ip_summed
== CHECKSUM_PARTIAL
) {
606 AMAP_SET_BITS(struct amap_eth_hdr_wrb
, tcpcs
, hdr
, 1);
607 else if (is_udp_pkt(skb
))
608 AMAP_SET_BITS(struct amap_eth_hdr_wrb
, udpcs
, hdr
, 1);
611 if (vlan_tx_tag_present(skb
)) {
612 AMAP_SET_BITS(struct amap_eth_hdr_wrb
, vlan
, hdr
, 1);
613 vlan_tag
= be_get_tx_vlan_tag(adapter
, skb
);
614 AMAP_SET_BITS(struct amap_eth_hdr_wrb
, vlan_tag
, hdr
, vlan_tag
);
617 AMAP_SET_BITS(struct amap_eth_hdr_wrb
, event
, hdr
, 1);
618 AMAP_SET_BITS(struct amap_eth_hdr_wrb
, complete
, hdr
, 1);
619 AMAP_SET_BITS(struct amap_eth_hdr_wrb
, num_wrb
, hdr
, wrb_cnt
);
620 AMAP_SET_BITS(struct amap_eth_hdr_wrb
, len
, hdr
, len
);
623 static void unmap_tx_frag(struct device
*dev
, struct be_eth_wrb
*wrb
,
628 be_dws_le_to_cpu(wrb
, sizeof(*wrb
));
630 dma
= (u64
)wrb
->frag_pa_hi
<< 32 | (u64
)wrb
->frag_pa_lo
;
633 dma_unmap_single(dev
, dma
, wrb
->frag_len
,
636 dma_unmap_page(dev
, dma
, wrb
->frag_len
, DMA_TO_DEVICE
);
640 static int make_tx_wrbs(struct be_adapter
*adapter
, struct be_queue_info
*txq
,
641 struct sk_buff
*skb
, u32 wrb_cnt
, bool dummy_wrb
)
645 struct device
*dev
= &adapter
->pdev
->dev
;
646 struct sk_buff
*first_skb
= skb
;
647 struct be_eth_wrb
*wrb
;
648 struct be_eth_hdr_wrb
*hdr
;
649 bool map_single
= false;
652 hdr
= queue_head_node(txq
);
654 map_head
= txq
->head
;
656 if (skb
->len
> skb
->data_len
) {
657 int len
= skb_headlen(skb
);
658 busaddr
= dma_map_single(dev
, skb
->data
, len
, DMA_TO_DEVICE
);
659 if (dma_mapping_error(dev
, busaddr
))
662 wrb
= queue_head_node(txq
);
663 wrb_fill(wrb
, busaddr
, len
);
664 be_dws_cpu_to_le(wrb
, sizeof(*wrb
));
669 for (i
= 0; i
< skb_shinfo(skb
)->nr_frags
; i
++) {
670 const struct skb_frag_struct
*frag
=
671 &skb_shinfo(skb
)->frags
[i
];
672 busaddr
= skb_frag_dma_map(dev
, frag
, 0,
673 skb_frag_size(frag
), DMA_TO_DEVICE
);
674 if (dma_mapping_error(dev
, busaddr
))
676 wrb
= queue_head_node(txq
);
677 wrb_fill(wrb
, busaddr
, skb_frag_size(frag
));
678 be_dws_cpu_to_le(wrb
, sizeof(*wrb
));
680 copied
+= skb_frag_size(frag
);
684 wrb
= queue_head_node(txq
);
686 be_dws_cpu_to_le(wrb
, sizeof(*wrb
));
690 wrb_fill_hdr(adapter
, hdr
, first_skb
, wrb_cnt
, copied
);
691 be_dws_cpu_to_le(hdr
, sizeof(*hdr
));
695 txq
->head
= map_head
;
697 wrb
= queue_head_node(txq
);
698 unmap_tx_frag(dev
, wrb
, map_single
);
700 copied
-= wrb
->frag_len
;
706 static netdev_tx_t
be_xmit(struct sk_buff
*skb
,
707 struct net_device
*netdev
)
709 struct be_adapter
*adapter
= netdev_priv(netdev
);
710 struct be_tx_obj
*txo
= &adapter
->tx_obj
[skb_get_queue_mapping(skb
)];
711 struct be_queue_info
*txq
= &txo
->q
;
712 u32 wrb_cnt
= 0, copied
= 0;
713 u32 start
= txq
->head
;
714 bool dummy_wrb
, stopped
= false;
716 /* For vlan tagged pkts, BE
717 * 1) calculates checksum even when CSO is not requested
718 * 2) calculates checksum wrongly for padded pkt less than
720 * As a workaround disable TX vlan offloading in such cases.
722 if (unlikely(vlan_tx_tag_present(skb
) &&
723 (skb
->ip_summed
!= CHECKSUM_PARTIAL
|| skb
->len
<= 60))) {
724 skb
= skb_share_check(skb
, GFP_ATOMIC
);
728 skb
= __vlan_put_tag(skb
, be_get_tx_vlan_tag(adapter
, skb
));
735 wrb_cnt
= wrb_cnt_for_skb(adapter
, skb
, &dummy_wrb
);
737 copied
= make_tx_wrbs(adapter
, txq
, skb
, wrb_cnt
, dummy_wrb
);
739 int gso_segs
= skb_shinfo(skb
)->gso_segs
;
741 /* record the sent skb in the sent_skb table */
742 BUG_ON(txo
->sent_skb_list
[start
]);
743 txo
->sent_skb_list
[start
] = skb
;
745 /* Ensure txq has space for the next skb; Else stop the queue
746 * *BEFORE* ringing the tx doorbell, so that we serialze the
747 * tx compls of the current transmit which'll wake up the queue
749 atomic_add(wrb_cnt
, &txq
->used
);
750 if ((BE_MAX_TX_FRAG_COUNT
+ atomic_read(&txq
->used
)) >=
752 netif_stop_subqueue(netdev
, skb_get_queue_mapping(skb
));
756 be_txq_notify(adapter
, txq
->id
, wrb_cnt
);
758 be_tx_stats_update(txo
, wrb_cnt
, copied
, gso_segs
, stopped
);
761 dev_kfree_skb_any(skb
);
767 static int be_change_mtu(struct net_device
*netdev
, int new_mtu
)
769 struct be_adapter
*adapter
= netdev_priv(netdev
);
770 if (new_mtu
< BE_MIN_MTU
||
771 new_mtu
> (BE_MAX_JUMBO_FRAME_SIZE
-
772 (ETH_HLEN
+ ETH_FCS_LEN
))) {
773 dev_info(&adapter
->pdev
->dev
,
774 "MTU must be between %d and %d bytes\n",
776 (BE_MAX_JUMBO_FRAME_SIZE
- (ETH_HLEN
+ ETH_FCS_LEN
)));
779 dev_info(&adapter
->pdev
->dev
, "MTU changed from %d to %d bytes\n",
780 netdev
->mtu
, new_mtu
);
781 netdev
->mtu
= new_mtu
;
786 * A max of 64 (BE_NUM_VLANS_SUPPORTED) vlans can be configured in BE.
787 * If the user configures more, place BE in vlan promiscuous mode.
789 static int be_vid_config(struct be_adapter
*adapter
, bool vf
, u32 vf_num
)
791 struct be_vf_cfg
*vf_cfg
= &adapter
->vf_cfg
[vf_num
];
792 u16 vtag
[BE_NUM_VLANS_SUPPORTED
];
797 vtag
[0] = cpu_to_le16(vf_cfg
->vlan_tag
);
798 status
= be_cmd_vlan_config(adapter
, vf_cfg
->if_handle
, vtag
,
802 /* No need to further configure vids if in promiscuous mode */
803 if (adapter
->promiscuous
)
806 if (adapter
->vlans_added
> adapter
->max_vlans
)
807 goto set_vlan_promisc
;
809 /* Construct VLAN Table to give to HW */
810 for (i
= 0; i
< VLAN_N_VID
; i
++)
811 if (adapter
->vlan_tag
[i
])
812 vtag
[ntags
++] = cpu_to_le16(i
);
814 status
= be_cmd_vlan_config(adapter
, adapter
->if_handle
,
817 /* Set to VLAN promisc mode as setting VLAN filter failed */
819 dev_info(&adapter
->pdev
->dev
, "Exhausted VLAN HW filters.\n");
820 dev_info(&adapter
->pdev
->dev
, "Disabling HW VLAN filtering.\n");
821 goto set_vlan_promisc
;
827 status
= be_cmd_vlan_config(adapter
, adapter
->if_handle
,
832 static int be_vlan_add_vid(struct net_device
*netdev
, u16 vid
)
834 struct be_adapter
*adapter
= netdev_priv(netdev
);
837 if (!be_physfn(adapter
)) {
842 adapter
->vlan_tag
[vid
] = 1;
843 if (adapter
->vlans_added
<= (adapter
->max_vlans
+ 1))
844 status
= be_vid_config(adapter
, false, 0);
847 adapter
->vlans_added
++;
849 adapter
->vlan_tag
[vid
] = 0;
854 static int be_vlan_rem_vid(struct net_device
*netdev
, u16 vid
)
856 struct be_adapter
*adapter
= netdev_priv(netdev
);
859 if (!be_physfn(adapter
)) {
864 adapter
->vlan_tag
[vid
] = 0;
865 if (adapter
->vlans_added
<= adapter
->max_vlans
)
866 status
= be_vid_config(adapter
, false, 0);
869 adapter
->vlans_added
--;
871 adapter
->vlan_tag
[vid
] = 1;
876 static void be_set_rx_mode(struct net_device
*netdev
)
878 struct be_adapter
*adapter
= netdev_priv(netdev
);
881 if (netdev
->flags
& IFF_PROMISC
) {
882 be_cmd_rx_filter(adapter
, IFF_PROMISC
, ON
);
883 adapter
->promiscuous
= true;
887 /* BE was previously in promiscuous mode; disable it */
888 if (adapter
->promiscuous
) {
889 adapter
->promiscuous
= false;
890 be_cmd_rx_filter(adapter
, IFF_PROMISC
, OFF
);
892 if (adapter
->vlans_added
)
893 be_vid_config(adapter
, false, 0);
896 /* Enable multicast promisc if num configured exceeds what we support */
897 if (netdev
->flags
& IFF_ALLMULTI
||
898 netdev_mc_count(netdev
) > BE_MAX_MC
) {
899 be_cmd_rx_filter(adapter
, IFF_ALLMULTI
, ON
);
903 if (netdev_uc_count(netdev
) != adapter
->uc_macs
) {
904 struct netdev_hw_addr
*ha
;
905 int i
= 1; /* First slot is claimed by the Primary MAC */
907 for (; adapter
->uc_macs
> 0; adapter
->uc_macs
--, i
++) {
908 be_cmd_pmac_del(adapter
, adapter
->if_handle
,
909 adapter
->pmac_id
[i
], 0);
912 if (netdev_uc_count(netdev
) > adapter
->max_pmac_cnt
) {
913 be_cmd_rx_filter(adapter
, IFF_PROMISC
, ON
);
914 adapter
->promiscuous
= true;
918 netdev_for_each_uc_addr(ha
, adapter
->netdev
) {
919 adapter
->uc_macs
++; /* First slot is for Primary MAC */
920 be_cmd_pmac_add(adapter
, (u8
*)ha
->addr
,
922 &adapter
->pmac_id
[adapter
->uc_macs
], 0);
926 status
= be_cmd_rx_filter(adapter
, IFF_MULTICAST
, ON
);
928 /* Set to MCAST promisc mode if setting MULTICAST address fails */
930 dev_info(&adapter
->pdev
->dev
, "Exhausted multicast HW filters.\n");
931 dev_info(&adapter
->pdev
->dev
, "Disabling HW multicast filtering.\n");
932 be_cmd_rx_filter(adapter
, IFF_ALLMULTI
, ON
);
938 static int be_set_vf_mac(struct net_device
*netdev
, int vf
, u8
*mac
)
940 struct be_adapter
*adapter
= netdev_priv(netdev
);
941 struct be_vf_cfg
*vf_cfg
= &adapter
->vf_cfg
[vf
];
944 if (!sriov_enabled(adapter
))
947 if (!is_valid_ether_addr(mac
) || vf
>= adapter
->num_vfs
)
950 if (lancer_chip(adapter
)) {
951 status
= be_cmd_set_mac_list(adapter
, mac
, 1, vf
+ 1);
953 status
= be_cmd_pmac_del(adapter
, vf_cfg
->if_handle
,
954 vf_cfg
->pmac_id
, vf
+ 1);
956 status
= be_cmd_pmac_add(adapter
, mac
, vf_cfg
->if_handle
,
957 &vf_cfg
->pmac_id
, vf
+ 1);
961 dev_err(&adapter
->pdev
->dev
, "MAC %pM set on VF %d Failed\n",
964 memcpy(vf_cfg
->mac_addr
, mac
, ETH_ALEN
);
969 static int be_get_vf_config(struct net_device
*netdev
, int vf
,
970 struct ifla_vf_info
*vi
)
972 struct be_adapter
*adapter
= netdev_priv(netdev
);
973 struct be_vf_cfg
*vf_cfg
= &adapter
->vf_cfg
[vf
];
975 if (!sriov_enabled(adapter
))
978 if (vf
>= adapter
->num_vfs
)
982 vi
->tx_rate
= vf_cfg
->tx_rate
;
983 vi
->vlan
= vf_cfg
->vlan_tag
;
985 memcpy(&vi
->mac
, vf_cfg
->mac_addr
, ETH_ALEN
);
990 static int be_set_vf_vlan(struct net_device
*netdev
,
991 int vf
, u16 vlan
, u8 qos
)
993 struct be_adapter
*adapter
= netdev_priv(netdev
);
996 if (!sriov_enabled(adapter
))
999 if (vf
>= adapter
->num_vfs
|| vlan
> 4095)
1003 if (adapter
->vf_cfg
[vf
].vlan_tag
!= vlan
) {
1004 /* If this is new value, program it. Else skip. */
1005 adapter
->vf_cfg
[vf
].vlan_tag
= vlan
;
1007 status
= be_cmd_set_hsw_config(adapter
, vlan
,
1008 vf
+ 1, adapter
->vf_cfg
[vf
].if_handle
);
1011 /* Reset Transparent Vlan Tagging. */
1012 adapter
->vf_cfg
[vf
].vlan_tag
= 0;
1013 vlan
= adapter
->vf_cfg
[vf
].def_vid
;
1014 status
= be_cmd_set_hsw_config(adapter
, vlan
, vf
+ 1,
1015 adapter
->vf_cfg
[vf
].if_handle
);
1020 dev_info(&adapter
->pdev
->dev
,
1021 "VLAN %d config on VF %d failed\n", vlan
, vf
);
1025 static int be_set_vf_tx_rate(struct net_device
*netdev
,
1028 struct be_adapter
*adapter
= netdev_priv(netdev
);
1031 if (!sriov_enabled(adapter
))
1034 if (vf
>= adapter
->num_vfs
)
1037 if (rate
< 100 || rate
> 10000) {
1038 dev_err(&adapter
->pdev
->dev
,
1039 "tx rate must be between 100 and 10000 Mbps\n");
1043 status
= be_cmd_set_qos(adapter
, rate
/ 10, vf
+ 1);
1046 dev_err(&adapter
->pdev
->dev
,
1047 "tx rate %d on VF %d failed\n", rate
, vf
);
1049 adapter
->vf_cfg
[vf
].tx_rate
= rate
;
1053 static int be_find_vfs(struct be_adapter
*adapter
, int vf_state
)
1055 struct pci_dev
*dev
, *pdev
= adapter
->pdev
;
1056 int vfs
= 0, assigned_vfs
= 0, pos
, vf_fn
;
1059 pos
= pci_find_ext_capability(pdev
, PCI_EXT_CAP_ID_SRIOV
);
1060 pci_read_config_word(pdev
, pos
+ PCI_SRIOV_VF_OFFSET
, &offset
);
1061 pci_read_config_word(pdev
, pos
+ PCI_SRIOV_VF_STRIDE
, &stride
);
1063 dev
= pci_get_device(pdev
->vendor
, PCI_ANY_ID
, NULL
);
1065 vf_fn
= (pdev
->devfn
+ offset
+ stride
* vfs
) & 0xFFFF;
1066 if (dev
->is_virtfn
&& dev
->devfn
== vf_fn
) {
1068 if (dev
->dev_flags
& PCI_DEV_FLAGS_ASSIGNED
)
1071 dev
= pci_get_device(pdev
->vendor
, PCI_ANY_ID
, dev
);
1073 return (vf_state
== ASSIGNED
) ? assigned_vfs
: vfs
;
1076 static void be_eqd_update(struct be_adapter
*adapter
, struct be_eq_obj
*eqo
)
1078 struct be_rx_stats
*stats
= rx_stats(&adapter
->rx_obj
[eqo
->idx
]);
1079 ulong now
= jiffies
;
1080 ulong delta
= now
- stats
->rx_jiffies
;
1082 unsigned int start
, eqd
;
1084 if (!eqo
->enable_aic
) {
1089 if (eqo
->idx
>= adapter
->num_rx_qs
)
1092 stats
= rx_stats(&adapter
->rx_obj
[eqo
->idx
]);
1094 /* Wrapped around */
1095 if (time_before(now
, stats
->rx_jiffies
)) {
1096 stats
->rx_jiffies
= now
;
1100 /* Update once a second */
1105 start
= u64_stats_fetch_begin_bh(&stats
->sync
);
1106 pkts
= stats
->rx_pkts
;
1107 } while (u64_stats_fetch_retry_bh(&stats
->sync
, start
));
1109 stats
->rx_pps
= (unsigned long)(pkts
- stats
->rx_pkts_prev
) / (delta
/ HZ
);
1110 stats
->rx_pkts_prev
= pkts
;
1111 stats
->rx_jiffies
= now
;
1112 eqd
= (stats
->rx_pps
/ 110000) << 3;
1113 eqd
= min(eqd
, eqo
->max_eqd
);
1114 eqd
= max(eqd
, eqo
->min_eqd
);
1119 if (eqd
!= eqo
->cur_eqd
) {
1120 be_cmd_modify_eqd(adapter
, eqo
->q
.id
, eqd
);
1125 static void be_rx_stats_update(struct be_rx_obj
*rxo
,
1126 struct be_rx_compl_info
*rxcp
)
1128 struct be_rx_stats
*stats
= rx_stats(rxo
);
1130 u64_stats_update_begin(&stats
->sync
);
1132 stats
->rx_bytes
+= rxcp
->pkt_size
;
1134 if (rxcp
->pkt_type
== BE_MULTICAST_PACKET
)
1135 stats
->rx_mcast_pkts
++;
1137 stats
->rx_compl_err
++;
1138 u64_stats_update_end(&stats
->sync
);
1141 static inline bool csum_passed(struct be_rx_compl_info
*rxcp
)
1143 /* L4 checksum is not reliable for non TCP/UDP packets.
1144 * Also ignore ipcksm for ipv6 pkts */
1145 return (rxcp
->tcpf
|| rxcp
->udpf
) && rxcp
->l4_csum
&&
1146 (rxcp
->ip_csum
|| rxcp
->ipv6
);
1149 static struct be_rx_page_info
*get_rx_page_info(struct be_rx_obj
*rxo
,
1152 struct be_adapter
*adapter
= rxo
->adapter
;
1153 struct be_rx_page_info
*rx_page_info
;
1154 struct be_queue_info
*rxq
= &rxo
->q
;
1156 rx_page_info
= &rxo
->page_info_tbl
[frag_idx
];
1157 BUG_ON(!rx_page_info
->page
);
1159 if (rx_page_info
->last_page_user
) {
1160 dma_unmap_page(&adapter
->pdev
->dev
,
1161 dma_unmap_addr(rx_page_info
, bus
),
1162 adapter
->big_page_size
, DMA_FROM_DEVICE
);
1163 rx_page_info
->last_page_user
= false;
1166 atomic_dec(&rxq
->used
);
1167 return rx_page_info
;
1170 /* Throwaway the data in the Rx completion */
1171 static void be_rx_compl_discard(struct be_rx_obj
*rxo
,
1172 struct be_rx_compl_info
*rxcp
)
1174 struct be_queue_info
*rxq
= &rxo
->q
;
1175 struct be_rx_page_info
*page_info
;
1176 u16 i
, num_rcvd
= rxcp
->num_rcvd
;
1178 for (i
= 0; i
< num_rcvd
; i
++) {
1179 page_info
= get_rx_page_info(rxo
, rxcp
->rxq_idx
);
1180 put_page(page_info
->page
);
1181 memset(page_info
, 0, sizeof(*page_info
));
1182 index_inc(&rxcp
->rxq_idx
, rxq
->len
);
1187 * skb_fill_rx_data forms a complete skb for an ether frame
1188 * indicated by rxcp.
1190 static void skb_fill_rx_data(struct be_rx_obj
*rxo
, struct sk_buff
*skb
,
1191 struct be_rx_compl_info
*rxcp
)
1193 struct be_queue_info
*rxq
= &rxo
->q
;
1194 struct be_rx_page_info
*page_info
;
1196 u16 hdr_len
, curr_frag_len
, remaining
;
1199 page_info
= get_rx_page_info(rxo
, rxcp
->rxq_idx
);
1200 start
= page_address(page_info
->page
) + page_info
->page_offset
;
1203 /* Copy data in the first descriptor of this completion */
1204 curr_frag_len
= min(rxcp
->pkt_size
, rx_frag_size
);
1206 /* Copy the header portion into skb_data */
1207 hdr_len
= min(BE_HDR_LEN
, curr_frag_len
);
1208 memcpy(skb
->data
, start
, hdr_len
);
1209 skb
->len
= curr_frag_len
;
1210 if (curr_frag_len
<= BE_HDR_LEN
) { /* tiny packet */
1211 /* Complete packet has now been moved to data */
1212 put_page(page_info
->page
);
1214 skb
->tail
+= curr_frag_len
;
1216 skb_shinfo(skb
)->nr_frags
= 1;
1217 skb_frag_set_page(skb
, 0, page_info
->page
);
1218 skb_shinfo(skb
)->frags
[0].page_offset
=
1219 page_info
->page_offset
+ hdr_len
;
1220 skb_frag_size_set(&skb_shinfo(skb
)->frags
[0], curr_frag_len
- hdr_len
);
1221 skb
->data_len
= curr_frag_len
- hdr_len
;
1222 skb
->truesize
+= rx_frag_size
;
1223 skb
->tail
+= hdr_len
;
1225 page_info
->page
= NULL
;
1227 if (rxcp
->pkt_size
<= rx_frag_size
) {
1228 BUG_ON(rxcp
->num_rcvd
!= 1);
1232 /* More frags present for this completion */
1233 index_inc(&rxcp
->rxq_idx
, rxq
->len
);
1234 remaining
= rxcp
->pkt_size
- curr_frag_len
;
1235 for (i
= 1, j
= 0; i
< rxcp
->num_rcvd
; i
++) {
1236 page_info
= get_rx_page_info(rxo
, rxcp
->rxq_idx
);
1237 curr_frag_len
= min(remaining
, rx_frag_size
);
1239 /* Coalesce all frags from the same physical page in one slot */
1240 if (page_info
->page_offset
== 0) {
1243 skb_frag_set_page(skb
, j
, page_info
->page
);
1244 skb_shinfo(skb
)->frags
[j
].page_offset
=
1245 page_info
->page_offset
;
1246 skb_frag_size_set(&skb_shinfo(skb
)->frags
[j
], 0);
1247 skb_shinfo(skb
)->nr_frags
++;
1249 put_page(page_info
->page
);
1252 skb_frag_size_add(&skb_shinfo(skb
)->frags
[j
], curr_frag_len
);
1253 skb
->len
+= curr_frag_len
;
1254 skb
->data_len
+= curr_frag_len
;
1255 skb
->truesize
+= rx_frag_size
;
1256 remaining
-= curr_frag_len
;
1257 index_inc(&rxcp
->rxq_idx
, rxq
->len
);
1258 page_info
->page
= NULL
;
1260 BUG_ON(j
> MAX_SKB_FRAGS
);
1263 /* Process the RX completion indicated by rxcp when GRO is disabled */
1264 static void be_rx_compl_process(struct be_rx_obj
*rxo
,
1265 struct be_rx_compl_info
*rxcp
)
1267 struct be_adapter
*adapter
= rxo
->adapter
;
1268 struct net_device
*netdev
= adapter
->netdev
;
1269 struct sk_buff
*skb
;
1271 skb
= netdev_alloc_skb_ip_align(netdev
, BE_RX_SKB_ALLOC_SIZE
);
1272 if (unlikely(!skb
)) {
1273 rx_stats(rxo
)->rx_drops_no_skbs
++;
1274 be_rx_compl_discard(rxo
, rxcp
);
1278 skb_fill_rx_data(rxo
, skb
, rxcp
);
1280 if (likely((netdev
->features
& NETIF_F_RXCSUM
) && csum_passed(rxcp
)))
1281 skb
->ip_summed
= CHECKSUM_UNNECESSARY
;
1283 skb_checksum_none_assert(skb
);
1285 skb
->protocol
= eth_type_trans(skb
, netdev
);
1286 skb_record_rx_queue(skb
, rxo
- &adapter
->rx_obj
[0]);
1287 if (netdev
->features
& NETIF_F_RXHASH
)
1288 skb
->rxhash
= rxcp
->rss_hash
;
1292 __vlan_hwaccel_put_tag(skb
, rxcp
->vlan_tag
);
1294 netif_receive_skb(skb
);
1297 /* Process the RX completion indicated by rxcp when GRO is enabled */
1298 void be_rx_compl_process_gro(struct be_rx_obj
*rxo
, struct napi_struct
*napi
,
1299 struct be_rx_compl_info
*rxcp
)
1301 struct be_adapter
*adapter
= rxo
->adapter
;
1302 struct be_rx_page_info
*page_info
;
1303 struct sk_buff
*skb
= NULL
;
1304 struct be_queue_info
*rxq
= &rxo
->q
;
1305 u16 remaining
, curr_frag_len
;
1308 skb
= napi_get_frags(napi
);
1310 be_rx_compl_discard(rxo
, rxcp
);
1314 remaining
= rxcp
->pkt_size
;
1315 for (i
= 0, j
= -1; i
< rxcp
->num_rcvd
; i
++) {
1316 page_info
= get_rx_page_info(rxo
, rxcp
->rxq_idx
);
1318 curr_frag_len
= min(remaining
, rx_frag_size
);
1320 /* Coalesce all frags from the same physical page in one slot */
1321 if (i
== 0 || page_info
->page_offset
== 0) {
1322 /* First frag or Fresh page */
1324 skb_frag_set_page(skb
, j
, page_info
->page
);
1325 skb_shinfo(skb
)->frags
[j
].page_offset
=
1326 page_info
->page_offset
;
1327 skb_frag_size_set(&skb_shinfo(skb
)->frags
[j
], 0);
1329 put_page(page_info
->page
);
1331 skb_frag_size_add(&skb_shinfo(skb
)->frags
[j
], curr_frag_len
);
1332 skb
->truesize
+= rx_frag_size
;
1333 remaining
-= curr_frag_len
;
1334 index_inc(&rxcp
->rxq_idx
, rxq
->len
);
1335 memset(page_info
, 0, sizeof(*page_info
));
1337 BUG_ON(j
> MAX_SKB_FRAGS
);
1339 skb_shinfo(skb
)->nr_frags
= j
+ 1;
1340 skb
->len
= rxcp
->pkt_size
;
1341 skb
->data_len
= rxcp
->pkt_size
;
1342 skb
->ip_summed
= CHECKSUM_UNNECESSARY
;
1343 skb_record_rx_queue(skb
, rxo
- &adapter
->rx_obj
[0]);
1344 if (adapter
->netdev
->features
& NETIF_F_RXHASH
)
1345 skb
->rxhash
= rxcp
->rss_hash
;
1348 __vlan_hwaccel_put_tag(skb
, rxcp
->vlan_tag
);
1350 napi_gro_frags(napi
);
1353 static void be_parse_rx_compl_v1(struct be_eth_rx_compl
*compl,
1354 struct be_rx_compl_info
*rxcp
)
1357 AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, pktsize
, compl);
1358 rxcp
->vlanf
= AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, vtp
, compl);
1359 rxcp
->err
= AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, err
, compl);
1360 rxcp
->tcpf
= AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, tcpf
, compl);
1361 rxcp
->udpf
= AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, udpf
, compl);
1363 AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, ipcksm
, compl);
1365 AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, l4_cksm
, compl);
1367 AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, ip_version
, compl);
1369 AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, fragndx
, compl);
1371 AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, numfrags
, compl);
1373 AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, cast_enc
, compl);
1375 AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, rsshash
, rxcp
);
1377 rxcp
->vtm
= AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, vtm
,
1379 rxcp
->vlan_tag
= AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, vlan_tag
,
1382 rxcp
->port
= AMAP_GET_BITS(struct amap_eth_rx_compl_v1
, port
, compl);
1385 static void be_parse_rx_compl_v0(struct be_eth_rx_compl
*compl,
1386 struct be_rx_compl_info
*rxcp
)
1389 AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, pktsize
, compl);
1390 rxcp
->vlanf
= AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, vtp
, compl);
1391 rxcp
->err
= AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, err
, compl);
1392 rxcp
->tcpf
= AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, tcpf
, compl);
1393 rxcp
->udpf
= AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, udpf
, compl);
1395 AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, ipcksm
, compl);
1397 AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, l4_cksm
, compl);
1399 AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, ip_version
, compl);
1401 AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, fragndx
, compl);
1403 AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, numfrags
, compl);
1405 AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, cast_enc
, compl);
1407 AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, rsshash
, rxcp
);
1409 rxcp
->vtm
= AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, vtm
,
1411 rxcp
->vlan_tag
= AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, vlan_tag
,
1414 rxcp
->port
= AMAP_GET_BITS(struct amap_eth_rx_compl_v0
, port
, compl);
1417 static struct be_rx_compl_info
*be_rx_compl_get(struct be_rx_obj
*rxo
)
1419 struct be_eth_rx_compl
*compl = queue_tail_node(&rxo
->cq
);
1420 struct be_rx_compl_info
*rxcp
= &rxo
->rxcp
;
1421 struct be_adapter
*adapter
= rxo
->adapter
;
1423 /* For checking the valid bit it is Ok to use either definition as the
1424 * valid bit is at the same position in both v0 and v1 Rx compl */
1425 if (compl->dw
[offsetof(struct amap_eth_rx_compl_v1
, valid
) / 32] == 0)
1429 be_dws_le_to_cpu(compl, sizeof(*compl));
1431 if (adapter
->be3_native
)
1432 be_parse_rx_compl_v1(compl, rxcp
);
1434 be_parse_rx_compl_v0(compl, rxcp
);
1437 /* vlanf could be wrongly set in some cards.
1438 * ignore if vtm is not set */
1439 if ((adapter
->function_mode
& FLEX10_MODE
) && !rxcp
->vtm
)
1442 if (!lancer_chip(adapter
))
1443 rxcp
->vlan_tag
= swab16(rxcp
->vlan_tag
);
1445 if (adapter
->pvid
== (rxcp
->vlan_tag
& VLAN_VID_MASK
) &&
1446 !adapter
->vlan_tag
[rxcp
->vlan_tag
])
1450 /* As the compl has been parsed, reset it; we wont touch it again */
1451 compl->dw
[offsetof(struct amap_eth_rx_compl_v1
, valid
) / 32] = 0;
1453 queue_tail_inc(&rxo
->cq
);
1457 static inline struct page
*be_alloc_pages(u32 size
, gfp_t gfp
)
1459 u32 order
= get_order(size
);
1463 return alloc_pages(gfp
, order
);
1467 * Allocate a page, split it to fragments of size rx_frag_size and post as
1468 * receive buffers to BE
1470 static void be_post_rx_frags(struct be_rx_obj
*rxo
, gfp_t gfp
)
1472 struct be_adapter
*adapter
= rxo
->adapter
;
1473 struct be_rx_page_info
*page_info
= NULL
, *prev_page_info
= NULL
;
1474 struct be_queue_info
*rxq
= &rxo
->q
;
1475 struct page
*pagep
= NULL
;
1476 struct be_eth_rx_d
*rxd
;
1477 u64 page_dmaaddr
= 0, frag_dmaaddr
;
1478 u32 posted
, page_offset
= 0;
1480 page_info
= &rxo
->page_info_tbl
[rxq
->head
];
1481 for (posted
= 0; posted
< MAX_RX_POST
&& !page_info
->page
; posted
++) {
1483 pagep
= be_alloc_pages(adapter
->big_page_size
, gfp
);
1484 if (unlikely(!pagep
)) {
1485 rx_stats(rxo
)->rx_post_fail
++;
1488 page_dmaaddr
= dma_map_page(&adapter
->pdev
->dev
, pagep
,
1489 0, adapter
->big_page_size
,
1491 page_info
->page_offset
= 0;
1494 page_info
->page_offset
= page_offset
+ rx_frag_size
;
1496 page_offset
= page_info
->page_offset
;
1497 page_info
->page
= pagep
;
1498 dma_unmap_addr_set(page_info
, bus
, page_dmaaddr
);
1499 frag_dmaaddr
= page_dmaaddr
+ page_info
->page_offset
;
1501 rxd
= queue_head_node(rxq
);
1502 rxd
->fragpa_lo
= cpu_to_le32(frag_dmaaddr
& 0xFFFFFFFF);
1503 rxd
->fragpa_hi
= cpu_to_le32(upper_32_bits(frag_dmaaddr
));
1505 /* Any space left in the current big page for another frag? */
1506 if ((page_offset
+ rx_frag_size
+ rx_frag_size
) >
1507 adapter
->big_page_size
) {
1509 page_info
->last_page_user
= true;
1512 prev_page_info
= page_info
;
1513 queue_head_inc(rxq
);
1514 page_info
= &rxo
->page_info_tbl
[rxq
->head
];
1517 prev_page_info
->last_page_user
= true;
1520 atomic_add(posted
, &rxq
->used
);
1521 be_rxq_notify(adapter
, rxq
->id
, posted
);
1522 } else if (atomic_read(&rxq
->used
) == 0) {
1523 /* Let be_worker replenish when memory is available */
1524 rxo
->rx_post_starved
= true;
1528 static struct be_eth_tx_compl
*be_tx_compl_get(struct be_queue_info
*tx_cq
)
1530 struct be_eth_tx_compl
*txcp
= queue_tail_node(tx_cq
);
1532 if (txcp
->dw
[offsetof(struct amap_eth_tx_compl
, valid
) / 32] == 0)
1536 be_dws_le_to_cpu(txcp
, sizeof(*txcp
));
1538 txcp
->dw
[offsetof(struct amap_eth_tx_compl
, valid
) / 32] = 0;
1540 queue_tail_inc(tx_cq
);
1544 static u16
be_tx_compl_process(struct be_adapter
*adapter
,
1545 struct be_tx_obj
*txo
, u16 last_index
)
1547 struct be_queue_info
*txq
= &txo
->q
;
1548 struct be_eth_wrb
*wrb
;
1549 struct sk_buff
**sent_skbs
= txo
->sent_skb_list
;
1550 struct sk_buff
*sent_skb
;
1551 u16 cur_index
, num_wrbs
= 1; /* account for hdr wrb */
1552 bool unmap_skb_hdr
= true;
1554 sent_skb
= sent_skbs
[txq
->tail
];
1556 sent_skbs
[txq
->tail
] = NULL
;
1558 /* skip header wrb */
1559 queue_tail_inc(txq
);
1562 cur_index
= txq
->tail
;
1563 wrb
= queue_tail_node(txq
);
1564 unmap_tx_frag(&adapter
->pdev
->dev
, wrb
,
1565 (unmap_skb_hdr
&& skb_headlen(sent_skb
)));
1566 unmap_skb_hdr
= false;
1569 queue_tail_inc(txq
);
1570 } while (cur_index
!= last_index
);
1572 kfree_skb(sent_skb
);
1576 /* Return the number of events in the event queue */
1577 static inline int events_get(struct be_eq_obj
*eqo
)
1579 struct be_eq_entry
*eqe
;
1583 eqe
= queue_tail_node(&eqo
->q
);
1590 queue_tail_inc(&eqo
->q
);
1596 static int event_handle(struct be_eq_obj
*eqo
)
1599 int num
= events_get(eqo
);
1601 /* Deal with any spurious interrupts that come without events */
1605 if (num
|| msix_enabled(eqo
->adapter
))
1606 be_eq_notify(eqo
->adapter
, eqo
->q
.id
, rearm
, true, num
);
1609 napi_schedule(&eqo
->napi
);
1614 /* Leaves the EQ is disarmed state */
1615 static void be_eq_clean(struct be_eq_obj
*eqo
)
1617 int num
= events_get(eqo
);
1619 be_eq_notify(eqo
->adapter
, eqo
->q
.id
, false, true, num
);
1622 static void be_rx_cq_clean(struct be_rx_obj
*rxo
)
1624 struct be_rx_page_info
*page_info
;
1625 struct be_queue_info
*rxq
= &rxo
->q
;
1626 struct be_queue_info
*rx_cq
= &rxo
->cq
;
1627 struct be_rx_compl_info
*rxcp
;
1630 /* First cleanup pending rx completions */
1631 while ((rxcp
= be_rx_compl_get(rxo
)) != NULL
) {
1632 be_rx_compl_discard(rxo
, rxcp
);
1633 be_cq_notify(rxo
->adapter
, rx_cq
->id
, false, 1);
1636 /* Then free posted rx buffer that were not used */
1637 tail
= (rxq
->head
+ rxq
->len
- atomic_read(&rxq
->used
)) % rxq
->len
;
1638 for (; atomic_read(&rxq
->used
) > 0; index_inc(&tail
, rxq
->len
)) {
1639 page_info
= get_rx_page_info(rxo
, tail
);
1640 put_page(page_info
->page
);
1641 memset(page_info
, 0, sizeof(*page_info
));
1643 BUG_ON(atomic_read(&rxq
->used
));
1644 rxq
->tail
= rxq
->head
= 0;
1647 static void be_tx_compl_clean(struct be_adapter
*adapter
)
1649 struct be_tx_obj
*txo
;
1650 struct be_queue_info
*txq
;
1651 struct be_eth_tx_compl
*txcp
;
1652 u16 end_idx
, cmpl
= 0, timeo
= 0, num_wrbs
= 0;
1653 struct sk_buff
*sent_skb
;
1655 int i
, pending_txqs
;
1657 /* Wait for a max of 200ms for all the tx-completions to arrive. */
1659 pending_txqs
= adapter
->num_tx_qs
;
1661 for_all_tx_queues(adapter
, txo
, i
) {
1663 while ((txcp
= be_tx_compl_get(&txo
->cq
))) {
1665 AMAP_GET_BITS(struct amap_eth_tx_compl
,
1667 num_wrbs
+= be_tx_compl_process(adapter
, txo
,
1672 be_cq_notify(adapter
, txo
->cq
.id
, false, cmpl
);
1673 atomic_sub(num_wrbs
, &txq
->used
);
1677 if (atomic_read(&txq
->used
) == 0)
1681 if (pending_txqs
== 0 || ++timeo
> 200)
1687 for_all_tx_queues(adapter
, txo
, i
) {
1689 if (atomic_read(&txq
->used
))
1690 dev_err(&adapter
->pdev
->dev
, "%d pending tx-compls\n",
1691 atomic_read(&txq
->used
));
1693 /* free posted tx for which compls will never arrive */
1694 while (atomic_read(&txq
->used
)) {
1695 sent_skb
= txo
->sent_skb_list
[txq
->tail
];
1696 end_idx
= txq
->tail
;
1697 num_wrbs
= wrb_cnt_for_skb(adapter
, sent_skb
,
1699 index_adv(&end_idx
, num_wrbs
- 1, txq
->len
);
1700 num_wrbs
= be_tx_compl_process(adapter
, txo
, end_idx
);
1701 atomic_sub(num_wrbs
, &txq
->used
);
1706 static void be_evt_queues_destroy(struct be_adapter
*adapter
)
1708 struct be_eq_obj
*eqo
;
1711 for_all_evt_queues(adapter
, eqo
, i
) {
1714 be_cmd_q_destroy(adapter
, &eqo
->q
, QTYPE_EQ
);
1715 be_queue_free(adapter
, &eqo
->q
);
1719 static int be_evt_queues_create(struct be_adapter
*adapter
)
1721 struct be_queue_info
*eq
;
1722 struct be_eq_obj
*eqo
;
1725 adapter
->num_evt_qs
= num_irqs(adapter
);
1727 for_all_evt_queues(adapter
, eqo
, i
) {
1728 eqo
->adapter
= adapter
;
1729 eqo
->tx_budget
= BE_TX_BUDGET
;
1731 eqo
->max_eqd
= BE_MAX_EQD
;
1732 eqo
->enable_aic
= true;
1735 rc
= be_queue_alloc(adapter
, eq
, EVNT_Q_LEN
,
1736 sizeof(struct be_eq_entry
));
1740 rc
= be_cmd_eq_create(adapter
, eq
, eqo
->cur_eqd
);
1747 static void be_mcc_queues_destroy(struct be_adapter
*adapter
)
1749 struct be_queue_info
*q
;
1751 q
= &adapter
->mcc_obj
.q
;
1753 be_cmd_q_destroy(adapter
, q
, QTYPE_MCCQ
);
1754 be_queue_free(adapter
, q
);
1756 q
= &adapter
->mcc_obj
.cq
;
1758 be_cmd_q_destroy(adapter
, q
, QTYPE_CQ
);
1759 be_queue_free(adapter
, q
);
1762 /* Must be called only after TX qs are created as MCC shares TX EQ */
1763 static int be_mcc_queues_create(struct be_adapter
*adapter
)
1765 struct be_queue_info
*q
, *cq
;
1767 cq
= &adapter
->mcc_obj
.cq
;
1768 if (be_queue_alloc(adapter
, cq
, MCC_CQ_LEN
,
1769 sizeof(struct be_mcc_compl
)))
1772 /* Use the default EQ for MCC completions */
1773 if (be_cmd_cq_create(adapter
, cq
, &mcc_eqo(adapter
)->q
, true, 0))
1776 q
= &adapter
->mcc_obj
.q
;
1777 if (be_queue_alloc(adapter
, q
, MCC_Q_LEN
, sizeof(struct be_mcc_wrb
)))
1778 goto mcc_cq_destroy
;
1780 if (be_cmd_mccq_create(adapter
, q
, cq
))
1786 be_queue_free(adapter
, q
);
1788 be_cmd_q_destroy(adapter
, cq
, QTYPE_CQ
);
1790 be_queue_free(adapter
, cq
);
1795 static void be_tx_queues_destroy(struct be_adapter
*adapter
)
1797 struct be_queue_info
*q
;
1798 struct be_tx_obj
*txo
;
1801 for_all_tx_queues(adapter
, txo
, i
) {
1804 be_cmd_q_destroy(adapter
, q
, QTYPE_TXQ
);
1805 be_queue_free(adapter
, q
);
1809 be_cmd_q_destroy(adapter
, q
, QTYPE_CQ
);
1810 be_queue_free(adapter
, q
);
1814 static int be_num_txqs_want(struct be_adapter
*adapter
)
1816 if (sriov_want(adapter
) || be_is_mc(adapter
) ||
1817 lancer_chip(adapter
) || !be_physfn(adapter
) ||
1818 adapter
->generation
== BE_GEN2
)
1824 static int be_tx_cqs_create(struct be_adapter
*adapter
)
1826 struct be_queue_info
*cq
, *eq
;
1828 struct be_tx_obj
*txo
;
1831 adapter
->num_tx_qs
= be_num_txqs_want(adapter
);
1832 if (adapter
->num_tx_qs
!= MAX_TX_QS
) {
1834 netif_set_real_num_tx_queues(adapter
->netdev
,
1835 adapter
->num_tx_qs
);
1839 for_all_tx_queues(adapter
, txo
, i
) {
1841 status
= be_queue_alloc(adapter
, cq
, TX_CQ_LEN
,
1842 sizeof(struct be_eth_tx_compl
));
1846 /* If num_evt_qs is less than num_tx_qs, then more than
1847 * one txq share an eq
1849 eq
= &adapter
->eq_obj
[i
% adapter
->num_evt_qs
].q
;
1850 status
= be_cmd_cq_create(adapter
, cq
, eq
, false, 3);
1857 static int be_tx_qs_create(struct be_adapter
*adapter
)
1859 struct be_tx_obj
*txo
;
1862 for_all_tx_queues(adapter
, txo
, i
) {
1863 status
= be_queue_alloc(adapter
, &txo
->q
, TX_Q_LEN
,
1864 sizeof(struct be_eth_wrb
));
1868 status
= be_cmd_txq_create(adapter
, &txo
->q
, &txo
->cq
);
1876 static void be_rx_cqs_destroy(struct be_adapter
*adapter
)
1878 struct be_queue_info
*q
;
1879 struct be_rx_obj
*rxo
;
1882 for_all_rx_queues(adapter
, rxo
, i
) {
1885 be_cmd_q_destroy(adapter
, q
, QTYPE_CQ
);
1886 be_queue_free(adapter
, q
);
1890 static int be_rx_cqs_create(struct be_adapter
*adapter
)
1892 struct be_queue_info
*eq
, *cq
;
1893 struct be_rx_obj
*rxo
;
1896 /* We'll create as many RSS rings as there are irqs.
1897 * But when there's only one irq there's no use creating RSS rings
1899 adapter
->num_rx_qs
= (num_irqs(adapter
) > 1) ?
1900 num_irqs(adapter
) + 1 : 1;
1902 adapter
->big_page_size
= (1 << get_order(rx_frag_size
)) * PAGE_SIZE
;
1903 for_all_rx_queues(adapter
, rxo
, i
) {
1904 rxo
->adapter
= adapter
;
1906 rc
= be_queue_alloc(adapter
, cq
, RX_CQ_LEN
,
1907 sizeof(struct be_eth_rx_compl
));
1911 eq
= &adapter
->eq_obj
[i
% adapter
->num_evt_qs
].q
;
1912 rc
= be_cmd_cq_create(adapter
, cq
, eq
, false, 3);
1917 if (adapter
->num_rx_qs
!= MAX_RX_QS
)
1918 dev_info(&adapter
->pdev
->dev
,
1919 "Created only %d receive queues", adapter
->num_rx_qs
);
1924 static irqreturn_t
be_intx(int irq
, void *dev
)
1926 struct be_adapter
*adapter
= dev
;
1929 /* With INTx only one EQ is used */
1930 num_evts
= event_handle(&adapter
->eq_obj
[0]);
1937 static irqreturn_t
be_msix(int irq
, void *dev
)
1939 struct be_eq_obj
*eqo
= dev
;
1945 static inline bool do_gro(struct be_rx_compl_info
*rxcp
)
1947 return (rxcp
->tcpf
&& !rxcp
->err
) ? true : false;
1950 static int be_process_rx(struct be_rx_obj
*rxo
, struct napi_struct
*napi
,
1953 struct be_adapter
*adapter
= rxo
->adapter
;
1954 struct be_queue_info
*rx_cq
= &rxo
->cq
;
1955 struct be_rx_compl_info
*rxcp
;
1958 for (work_done
= 0; work_done
< budget
; work_done
++) {
1959 rxcp
= be_rx_compl_get(rxo
);
1963 /* Is it a flush compl that has no data */
1964 if (unlikely(rxcp
->num_rcvd
== 0))
1967 /* Discard compl with partial DMA Lancer B0 */
1968 if (unlikely(!rxcp
->pkt_size
)) {
1969 be_rx_compl_discard(rxo
, rxcp
);
1973 /* On BE drop pkts that arrive due to imperfect filtering in
1974 * promiscuous mode on some skews
1976 if (unlikely(rxcp
->port
!= adapter
->port_num
&&
1977 !lancer_chip(adapter
))) {
1978 be_rx_compl_discard(rxo
, rxcp
);
1983 be_rx_compl_process_gro(rxo
, napi
, rxcp
);
1985 be_rx_compl_process(rxo
, rxcp
);
1987 be_rx_stats_update(rxo
, rxcp
);
1991 be_cq_notify(adapter
, rx_cq
->id
, true, work_done
);
1993 if (atomic_read(&rxo
->q
.used
) < RX_FRAGS_REFILL_WM
)
1994 be_post_rx_frags(rxo
, GFP_ATOMIC
);
2000 static bool be_process_tx(struct be_adapter
*adapter
, struct be_tx_obj
*txo
,
2001 int budget
, int idx
)
2003 struct be_eth_tx_compl
*txcp
;
2004 int num_wrbs
= 0, work_done
;
2006 for (work_done
= 0; work_done
< budget
; work_done
++) {
2007 txcp
= be_tx_compl_get(&txo
->cq
);
2010 num_wrbs
+= be_tx_compl_process(adapter
, txo
,
2011 AMAP_GET_BITS(struct amap_eth_tx_compl
,
2016 be_cq_notify(adapter
, txo
->cq
.id
, true, work_done
);
2017 atomic_sub(num_wrbs
, &txo
->q
.used
);
2019 /* As Tx wrbs have been freed up, wake up netdev queue
2020 * if it was stopped due to lack of tx wrbs. */
2021 if (__netif_subqueue_stopped(adapter
->netdev
, idx
) &&
2022 atomic_read(&txo
->q
.used
) < txo
->q
.len
/ 2) {
2023 netif_wake_subqueue(adapter
->netdev
, idx
);
2026 u64_stats_update_begin(&tx_stats(txo
)->sync_compl
);
2027 tx_stats(txo
)->tx_compl
+= work_done
;
2028 u64_stats_update_end(&tx_stats(txo
)->sync_compl
);
2030 return (work_done
< budget
); /* Done */
2033 int be_poll(struct napi_struct
*napi
, int budget
)
2035 struct be_eq_obj
*eqo
= container_of(napi
, struct be_eq_obj
, napi
);
2036 struct be_adapter
*adapter
= eqo
->adapter
;
2037 int max_work
= 0, work
, i
;
2040 /* Process all TXQs serviced by this EQ */
2041 for (i
= eqo
->idx
; i
< adapter
->num_tx_qs
; i
+= adapter
->num_evt_qs
) {
2042 tx_done
= be_process_tx(adapter
, &adapter
->tx_obj
[i
],
2048 /* This loop will iterate twice for EQ0 in which
2049 * completions of the last RXQ (default one) are also processed
2050 * For other EQs the loop iterates only once
2052 for (i
= eqo
->idx
; i
< adapter
->num_rx_qs
; i
+= adapter
->num_evt_qs
) {
2053 work
= be_process_rx(&adapter
->rx_obj
[i
], napi
, budget
);
2054 max_work
= max(work
, max_work
);
2057 if (is_mcc_eqo(eqo
))
2058 be_process_mcc(adapter
);
2060 if (max_work
< budget
) {
2061 napi_complete(napi
);
2062 be_eq_notify(adapter
, eqo
->q
.id
, true, false, 0);
2064 /* As we'll continue in polling mode, count and clear events */
2065 be_eq_notify(adapter
, eqo
->q
.id
, false, false, events_get(eqo
));
2070 void be_detect_dump_ue(struct be_adapter
*adapter
)
2072 u32 ue_lo
= 0, ue_hi
= 0, ue_lo_mask
= 0, ue_hi_mask
= 0;
2073 u32 sliport_status
= 0, sliport_err1
= 0, sliport_err2
= 0;
2076 if (adapter
->eeh_err
|| adapter
->ue_detected
)
2079 if (lancer_chip(adapter
)) {
2080 sliport_status
= ioread32(adapter
->db
+ SLIPORT_STATUS_OFFSET
);
2081 if (sliport_status
& SLIPORT_STATUS_ERR_MASK
) {
2082 sliport_err1
= ioread32(adapter
->db
+
2083 SLIPORT_ERROR1_OFFSET
);
2084 sliport_err2
= ioread32(adapter
->db
+
2085 SLIPORT_ERROR2_OFFSET
);
2088 pci_read_config_dword(adapter
->pdev
,
2089 PCICFG_UE_STATUS_LOW
, &ue_lo
);
2090 pci_read_config_dword(adapter
->pdev
,
2091 PCICFG_UE_STATUS_HIGH
, &ue_hi
);
2092 pci_read_config_dword(adapter
->pdev
,
2093 PCICFG_UE_STATUS_LOW_MASK
, &ue_lo_mask
);
2094 pci_read_config_dword(adapter
->pdev
,
2095 PCICFG_UE_STATUS_HI_MASK
, &ue_hi_mask
);
2097 ue_lo
= (ue_lo
& (~ue_lo_mask
));
2098 ue_hi
= (ue_hi
& (~ue_hi_mask
));
2101 if (ue_lo
|| ue_hi
||
2102 sliport_status
& SLIPORT_STATUS_ERR_MASK
) {
2103 adapter
->ue_detected
= true;
2104 adapter
->eeh_err
= true;
2105 dev_err(&adapter
->pdev
->dev
,
2106 "Unrecoverable error in the card\n");
2110 for (i
= 0; ue_lo
; ue_lo
>>= 1, i
++) {
2112 dev_err(&adapter
->pdev
->dev
,
2113 "UE: %s bit set\n", ue_status_low_desc
[i
]);
2117 for (i
= 0; ue_hi
; ue_hi
>>= 1, i
++) {
2119 dev_err(&adapter
->pdev
->dev
,
2120 "UE: %s bit set\n", ue_status_hi_desc
[i
]);
2124 if (sliport_status
& SLIPORT_STATUS_ERR_MASK
) {
2125 dev_err(&adapter
->pdev
->dev
,
2126 "sliport status 0x%x\n", sliport_status
);
2127 dev_err(&adapter
->pdev
->dev
,
2128 "sliport error1 0x%x\n", sliport_err1
);
2129 dev_err(&adapter
->pdev
->dev
,
2130 "sliport error2 0x%x\n", sliport_err2
);
2134 static void be_msix_disable(struct be_adapter
*adapter
)
2136 if (msix_enabled(adapter
)) {
2137 pci_disable_msix(adapter
->pdev
);
2138 adapter
->num_msix_vec
= 0;
2142 static uint
be_num_rss_want(struct be_adapter
*adapter
)
2144 if ((adapter
->function_caps
& BE_FUNCTION_CAPS_RSS
) &&
2145 !sriov_want(adapter
) && be_physfn(adapter
) &&
2147 return (adapter
->be3_native
) ? BE3_MAX_RSS_QS
: BE2_MAX_RSS_QS
;
2152 static void be_msix_enable(struct be_adapter
*adapter
)
2154 #define BE_MIN_MSIX_VECTORS 1
2155 int i
, status
, num_vec
, num_roce_vec
= 0;
2157 /* If RSS queues are not used, need a vec for default RX Q */
2158 num_vec
= min(be_num_rss_want(adapter
), num_online_cpus());
2159 if (be_roce_supported(adapter
)) {
2160 num_roce_vec
= min_t(u32
, MAX_ROCE_MSIX_VECTORS
,
2161 (num_online_cpus() + 1));
2162 num_roce_vec
= min(num_roce_vec
, MAX_ROCE_EQS
);
2163 num_vec
+= num_roce_vec
;
2164 num_vec
= min(num_vec
, MAX_MSIX_VECTORS
);
2166 num_vec
= max(num_vec
, BE_MIN_MSIX_VECTORS
);
2168 for (i
= 0; i
< num_vec
; i
++)
2169 adapter
->msix_entries
[i
].entry
= i
;
2171 status
= pci_enable_msix(adapter
->pdev
, adapter
->msix_entries
, num_vec
);
2174 } else if (status
>= BE_MIN_MSIX_VECTORS
) {
2176 if (pci_enable_msix(adapter
->pdev
, adapter
->msix_entries
,
2182 if (be_roce_supported(adapter
)) {
2183 if (num_vec
> num_roce_vec
) {
2184 adapter
->num_msix_vec
= num_vec
- num_roce_vec
;
2185 adapter
->num_msix_roce_vec
=
2186 num_vec
- adapter
->num_msix_vec
;
2188 adapter
->num_msix_vec
= num_vec
;
2189 adapter
->num_msix_roce_vec
= 0;
2192 adapter
->num_msix_vec
= num_vec
;
2196 static inline int be_msix_vec_get(struct be_adapter
*adapter
,
2197 struct be_eq_obj
*eqo
)
2199 return adapter
->msix_entries
[eqo
->idx
].vector
;
2202 static int be_msix_register(struct be_adapter
*adapter
)
2204 struct net_device
*netdev
= adapter
->netdev
;
2205 struct be_eq_obj
*eqo
;
2208 for_all_evt_queues(adapter
, eqo
, i
) {
2209 sprintf(eqo
->desc
, "%s-q%d", netdev
->name
, i
);
2210 vec
= be_msix_vec_get(adapter
, eqo
);
2211 status
= request_irq(vec
, be_msix
, 0, eqo
->desc
, eqo
);
2218 for (i
--, eqo
= &adapter
->eq_obj
[i
]; i
>= 0; i
--, eqo
--)
2219 free_irq(be_msix_vec_get(adapter
, eqo
), eqo
);
2220 dev_warn(&adapter
->pdev
->dev
, "MSIX Request IRQ failed - err %d\n",
2222 be_msix_disable(adapter
);
2226 static int be_irq_register(struct be_adapter
*adapter
)
2228 struct net_device
*netdev
= adapter
->netdev
;
2231 if (msix_enabled(adapter
)) {
2232 status
= be_msix_register(adapter
);
2235 /* INTx is not supported for VF */
2236 if (!be_physfn(adapter
))
2241 netdev
->irq
= adapter
->pdev
->irq
;
2242 status
= request_irq(netdev
->irq
, be_intx
, IRQF_SHARED
, netdev
->name
,
2245 dev_err(&adapter
->pdev
->dev
,
2246 "INTx request IRQ failed - err %d\n", status
);
2250 adapter
->isr_registered
= true;
2254 static void be_irq_unregister(struct be_adapter
*adapter
)
2256 struct net_device
*netdev
= adapter
->netdev
;
2257 struct be_eq_obj
*eqo
;
2260 if (!adapter
->isr_registered
)
2264 if (!msix_enabled(adapter
)) {
2265 free_irq(netdev
->irq
, adapter
);
2270 for_all_evt_queues(adapter
, eqo
, i
)
2271 free_irq(be_msix_vec_get(adapter
, eqo
), eqo
);
2274 adapter
->isr_registered
= false;
2277 static void be_rx_qs_destroy(struct be_adapter
*adapter
)
2279 struct be_queue_info
*q
;
2280 struct be_rx_obj
*rxo
;
2283 for_all_rx_queues(adapter
, rxo
, i
) {
2286 be_cmd_rxq_destroy(adapter
, q
);
2287 /* After the rxq is invalidated, wait for a grace time
2288 * of 1ms for all dma to end and the flush compl to
2292 be_rx_cq_clean(rxo
);
2294 be_queue_free(adapter
, q
);
2298 static int be_close(struct net_device
*netdev
)
2300 struct be_adapter
*adapter
= netdev_priv(netdev
);
2301 struct be_eq_obj
*eqo
;
2304 be_roce_dev_close(adapter
);
2306 be_async_mcc_disable(adapter
);
2308 if (!lancer_chip(adapter
))
2309 be_intr_set(adapter
, false);
2311 for_all_evt_queues(adapter
, eqo
, i
) {
2312 napi_disable(&eqo
->napi
);
2313 if (msix_enabled(adapter
))
2314 synchronize_irq(be_msix_vec_get(adapter
, eqo
));
2316 synchronize_irq(netdev
->irq
);
2320 be_irq_unregister(adapter
);
2322 /* Wait for all pending tx completions to arrive so that
2323 * all tx skbs are freed.
2325 be_tx_compl_clean(adapter
);
2327 be_rx_qs_destroy(adapter
);
2331 static int be_rx_qs_create(struct be_adapter
*adapter
)
2333 struct be_rx_obj
*rxo
;
2337 for_all_rx_queues(adapter
, rxo
, i
) {
2338 rc
= be_queue_alloc(adapter
, &rxo
->q
, RX_Q_LEN
,
2339 sizeof(struct be_eth_rx_d
));
2344 /* The FW would like the default RXQ to be created first */
2345 rxo
= default_rxo(adapter
);
2346 rc
= be_cmd_rxq_create(adapter
, &rxo
->q
, rxo
->cq
.id
, rx_frag_size
,
2347 adapter
->if_handle
, false, &rxo
->rss_id
);
2351 for_all_rss_queues(adapter
, rxo
, i
) {
2352 rc
= be_cmd_rxq_create(adapter
, &rxo
->q
, rxo
->cq
.id
,
2353 rx_frag_size
, adapter
->if_handle
,
2354 true, &rxo
->rss_id
);
2359 if (be_multi_rxq(adapter
)) {
2360 for (j
= 0; j
< 128; j
+= adapter
->num_rx_qs
- 1) {
2361 for_all_rss_queues(adapter
, rxo
, i
) {
2364 rsstable
[j
+ i
] = rxo
->rss_id
;
2367 rc
= be_cmd_rss_config(adapter
, rsstable
, 128);
2372 /* First time posting */
2373 for_all_rx_queues(adapter
, rxo
, i
)
2374 be_post_rx_frags(rxo
, GFP_KERNEL
);
2378 static int be_open(struct net_device
*netdev
)
2380 struct be_adapter
*adapter
= netdev_priv(netdev
);
2381 struct be_eq_obj
*eqo
;
2382 struct be_rx_obj
*rxo
;
2383 struct be_tx_obj
*txo
;
2387 status
= be_rx_qs_create(adapter
);
2391 be_irq_register(adapter
);
2393 if (!lancer_chip(adapter
))
2394 be_intr_set(adapter
, true);
2396 for_all_rx_queues(adapter
, rxo
, i
)
2397 be_cq_notify(adapter
, rxo
->cq
.id
, true, 0);
2399 for_all_tx_queues(adapter
, txo
, i
)
2400 be_cq_notify(adapter
, txo
->cq
.id
, true, 0);
2402 be_async_mcc_enable(adapter
);
2404 for_all_evt_queues(adapter
, eqo
, i
) {
2405 napi_enable(&eqo
->napi
);
2406 be_eq_notify(adapter
, eqo
->q
.id
, true, false, 0);
2409 status
= be_cmd_link_status_query(adapter
, NULL
, NULL
,
2412 be_link_status_update(adapter
, link_status
);
2414 be_roce_dev_open(adapter
);
2417 be_close(adapter
->netdev
);
2421 static int be_setup_wol(struct be_adapter
*adapter
, bool enable
)
2423 struct be_dma_mem cmd
;
2427 memset(mac
, 0, ETH_ALEN
);
2429 cmd
.size
= sizeof(struct be_cmd_req_acpi_wol_magic_config
);
2430 cmd
.va
= dma_alloc_coherent(&adapter
->pdev
->dev
, cmd
.size
, &cmd
.dma
,
2434 memset(cmd
.va
, 0, cmd
.size
);
2437 status
= pci_write_config_dword(adapter
->pdev
,
2438 PCICFG_PM_CONTROL_OFFSET
, PCICFG_PM_CONTROL_MASK
);
2440 dev_err(&adapter
->pdev
->dev
,
2441 "Could not enable Wake-on-lan\n");
2442 dma_free_coherent(&adapter
->pdev
->dev
, cmd
.size
, cmd
.va
,
2446 status
= be_cmd_enable_magic_wol(adapter
,
2447 adapter
->netdev
->dev_addr
, &cmd
);
2448 pci_enable_wake(adapter
->pdev
, PCI_D3hot
, 1);
2449 pci_enable_wake(adapter
->pdev
, PCI_D3cold
, 1);
2451 status
= be_cmd_enable_magic_wol(adapter
, mac
, &cmd
);
2452 pci_enable_wake(adapter
->pdev
, PCI_D3hot
, 0);
2453 pci_enable_wake(adapter
->pdev
, PCI_D3cold
, 0);
2456 dma_free_coherent(&adapter
->pdev
->dev
, cmd
.size
, cmd
.va
, cmd
.dma
);
2461 * Generate a seed MAC address from the PF MAC Address using jhash.
2462 * MAC Address for VFs are assigned incrementally starting from the seed.
2463 * These addresses are programmed in the ASIC by the PF and the VF driver
2464 * queries for the MAC address during its probe.
2466 static inline int be_vf_eth_addr_config(struct be_adapter
*adapter
)
2471 struct be_vf_cfg
*vf_cfg
;
2473 be_vf_eth_addr_generate(adapter
, mac
);
2475 for_all_vfs(adapter
, vf_cfg
, vf
) {
2476 if (lancer_chip(adapter
)) {
2477 status
= be_cmd_set_mac_list(adapter
, mac
, 1, vf
+ 1);
2479 status
= be_cmd_pmac_add(adapter
, mac
,
2481 &vf_cfg
->pmac_id
, vf
+ 1);
2485 dev_err(&adapter
->pdev
->dev
,
2486 "Mac address assignment failed for VF %d\n", vf
);
2488 memcpy(vf_cfg
->mac_addr
, mac
, ETH_ALEN
);
2495 static void be_vf_clear(struct be_adapter
*adapter
)
2497 struct be_vf_cfg
*vf_cfg
;
2500 if (be_find_vfs(adapter
, ASSIGNED
)) {
2501 dev_warn(&adapter
->pdev
->dev
, "VFs are assigned to VMs\n");
2505 for_all_vfs(adapter
, vf_cfg
, vf
) {
2506 if (lancer_chip(adapter
))
2507 be_cmd_set_mac_list(adapter
, NULL
, 0, vf
+ 1);
2509 be_cmd_pmac_del(adapter
, vf_cfg
->if_handle
,
2510 vf_cfg
->pmac_id
, vf
+ 1);
2512 be_cmd_if_destroy(adapter
, vf_cfg
->if_handle
, vf
+ 1);
2514 pci_disable_sriov(adapter
->pdev
);
2516 kfree(adapter
->vf_cfg
);
2517 adapter
->num_vfs
= 0;
2520 static int be_clear(struct be_adapter
*adapter
)
2524 if (adapter
->flags
& BE_FLAGS_WORKER_SCHEDULED
) {
2525 cancel_delayed_work_sync(&adapter
->work
);
2526 adapter
->flags
&= ~BE_FLAGS_WORKER_SCHEDULED
;
2529 if (sriov_enabled(adapter
))
2530 be_vf_clear(adapter
);
2532 for (; adapter
->uc_macs
> 0; adapter
->uc_macs
--, i
++)
2533 be_cmd_pmac_del(adapter
, adapter
->if_handle
,
2534 adapter
->pmac_id
[i
], 0);
2536 be_cmd_if_destroy(adapter
, adapter
->if_handle
, 0);
2538 be_mcc_queues_destroy(adapter
);
2539 be_rx_cqs_destroy(adapter
);
2540 be_tx_queues_destroy(adapter
);
2541 be_evt_queues_destroy(adapter
);
2543 /* tell fw we're done with firing cmds */
2544 be_cmd_fw_clean(adapter
);
2546 be_msix_disable(adapter
);
2547 pci_write_config_dword(adapter
->pdev
, PCICFG_CUST_SCRATCHPAD_CSR
, 0);
2551 static int be_vf_setup_init(struct be_adapter
*adapter
)
2553 struct be_vf_cfg
*vf_cfg
;
2556 adapter
->vf_cfg
= kcalloc(adapter
->num_vfs
, sizeof(*vf_cfg
),
2558 if (!adapter
->vf_cfg
)
2561 for_all_vfs(adapter
, vf_cfg
, vf
) {
2562 vf_cfg
->if_handle
= -1;
2563 vf_cfg
->pmac_id
= -1;
2568 static int be_vf_setup(struct be_adapter
*adapter
)
2570 struct be_vf_cfg
*vf_cfg
;
2571 struct device
*dev
= &adapter
->pdev
->dev
;
2572 u32 cap_flags
, en_flags
, vf
;
2573 u16 def_vlan
, lnk_speed
;
2574 int status
, enabled_vfs
;
2576 enabled_vfs
= be_find_vfs(adapter
, ENABLED
);
2578 dev_warn(dev
, "%d VFs are already enabled\n", enabled_vfs
);
2579 dev_warn(dev
, "Ignoring num_vfs=%d setting\n", num_vfs
);
2583 if (num_vfs
> adapter
->dev_num_vfs
) {
2584 dev_warn(dev
, "Device supports %d VFs and not %d\n",
2585 adapter
->dev_num_vfs
, num_vfs
);
2586 num_vfs
= adapter
->dev_num_vfs
;
2589 status
= pci_enable_sriov(adapter
->pdev
, num_vfs
);
2591 adapter
->num_vfs
= num_vfs
;
2593 /* Platform doesn't support SRIOV though device supports it */
2594 dev_warn(dev
, "SRIOV enable failed\n");
2598 status
= be_vf_setup_init(adapter
);
2602 cap_flags
= en_flags
= BE_IF_FLAGS_UNTAGGED
| BE_IF_FLAGS_BROADCAST
|
2603 BE_IF_FLAGS_MULTICAST
;
2604 for_all_vfs(adapter
, vf_cfg
, vf
) {
2605 status
= be_cmd_if_create(adapter
, cap_flags
, en_flags
, NULL
,
2606 &vf_cfg
->if_handle
, NULL
, vf
+ 1);
2612 status
= be_vf_eth_addr_config(adapter
);
2617 for_all_vfs(adapter
, vf_cfg
, vf
) {
2618 status
= be_cmd_link_status_query(adapter
, NULL
, &lnk_speed
,
2622 vf_cfg
->tx_rate
= lnk_speed
* 10;
2624 status
= be_cmd_get_hsw_config(adapter
, &def_vlan
,
2625 vf
+ 1, vf_cfg
->if_handle
);
2628 vf_cfg
->def_vid
= def_vlan
;
2635 static void be_setup_init(struct be_adapter
*adapter
)
2637 adapter
->vlan_prio_bmap
= 0xff;
2638 adapter
->phy
.link_speed
= -1;
2639 adapter
->if_handle
= -1;
2640 adapter
->be3_native
= false;
2641 adapter
->promiscuous
= false;
2642 adapter
->eq_next_idx
= 0;
2643 adapter
->phy
.forced_port_speed
= -1;
2646 static int be_add_mac_from_list(struct be_adapter
*adapter
, u8
*mac
)
2650 bool pmac_id_active
;
2652 status
= be_cmd_get_mac_from_list(adapter
, 0, &pmac_id_active
,
2657 if (pmac_id_active
) {
2658 status
= be_cmd_mac_addr_query(adapter
, mac
,
2659 MAC_ADDRESS_TYPE_NETWORK
,
2660 false, adapter
->if_handle
, pmac_id
);
2663 adapter
->pmac_id
[0] = pmac_id
;
2665 status
= be_cmd_pmac_add(adapter
, mac
,
2666 adapter
->if_handle
, &adapter
->pmac_id
[0], 0);
2672 /* Routine to query per function resource limits */
2673 static int be_get_config(struct be_adapter
*adapter
)
2678 pos
= pci_find_ext_capability(adapter
->pdev
, PCI_EXT_CAP_ID_SRIOV
);
2680 pci_read_config_word(adapter
->pdev
, pos
+ PCI_SRIOV_TOTAL_VF
,
2682 adapter
->dev_num_vfs
= dev_num_vfs
;
2687 static int be_setup(struct be_adapter
*adapter
)
2689 struct net_device
*netdev
= adapter
->netdev
;
2690 struct device
*dev
= &adapter
->pdev
->dev
;
2691 u32 cap_flags
, en_flags
;
2696 be_setup_init(adapter
);
2698 be_get_config(adapter
);
2700 be_cmd_req_native_mode(adapter
);
2702 be_msix_enable(adapter
);
2704 status
= be_evt_queues_create(adapter
);
2708 status
= be_tx_cqs_create(adapter
);
2712 status
= be_rx_cqs_create(adapter
);
2716 status
= be_mcc_queues_create(adapter
);
2720 memset(mac
, 0, ETH_ALEN
);
2721 status
= be_cmd_mac_addr_query(adapter
, mac
, MAC_ADDRESS_TYPE_NETWORK
,
2722 true /*permanent */, 0, 0);
2725 memcpy(adapter
->netdev
->dev_addr
, mac
, ETH_ALEN
);
2726 memcpy(adapter
->netdev
->perm_addr
, mac
, ETH_ALEN
);
2728 en_flags
= BE_IF_FLAGS_UNTAGGED
| BE_IF_FLAGS_BROADCAST
|
2729 BE_IF_FLAGS_MULTICAST
| BE_IF_FLAGS_PASS_L3L4_ERRORS
;
2730 cap_flags
= en_flags
| BE_IF_FLAGS_MCAST_PROMISCUOUS
|
2731 BE_IF_FLAGS_VLAN_PROMISCUOUS
| BE_IF_FLAGS_PROMISCUOUS
;
2733 if (adapter
->function_caps
& BE_FUNCTION_CAPS_RSS
) {
2734 cap_flags
|= BE_IF_FLAGS_RSS
;
2735 en_flags
|= BE_IF_FLAGS_RSS
;
2737 status
= be_cmd_if_create(adapter
, cap_flags
, en_flags
,
2738 netdev
->dev_addr
, &adapter
->if_handle
,
2739 &adapter
->pmac_id
[0], 0);
2743 /* The VF's permanent mac queried from card is incorrect.
2744 * For BEx: Query the mac configued by the PF using if_handle
2745 * For Lancer: Get and use mac_list to obtain mac address.
2747 if (!be_physfn(adapter
)) {
2748 if (lancer_chip(adapter
))
2749 status
= be_add_mac_from_list(adapter
, mac
);
2751 status
= be_cmd_mac_addr_query(adapter
, mac
,
2752 MAC_ADDRESS_TYPE_NETWORK
, false,
2753 adapter
->if_handle
, 0);
2755 memcpy(adapter
->netdev
->dev_addr
, mac
, ETH_ALEN
);
2756 memcpy(adapter
->netdev
->perm_addr
, mac
, ETH_ALEN
);
2760 status
= be_tx_qs_create(adapter
);
2764 be_cmd_get_fw_ver(adapter
, adapter
->fw_ver
, NULL
);
2766 be_vid_config(adapter
, false, 0);
2768 be_set_rx_mode(adapter
->netdev
);
2770 be_cmd_get_flow_control(adapter
, &tx_fc
, &rx_fc
);
2772 if (rx_fc
!= adapter
->rx_fc
|| tx_fc
!= adapter
->tx_fc
)
2773 be_cmd_set_flow_control(adapter
, adapter
->tx_fc
,
2776 pcie_set_readrq(adapter
->pdev
, 4096);
2778 if (be_physfn(adapter
) && num_vfs
) {
2779 if (adapter
->dev_num_vfs
)
2780 be_vf_setup(adapter
);
2782 dev_warn(dev
, "device doesn't support SRIOV\n");
2785 be_cmd_get_phy_info(adapter
);
2786 if (be_pause_supported(adapter
))
2787 adapter
->phy
.fc_autoneg
= 1;
2789 schedule_delayed_work(&adapter
->work
, msecs_to_jiffies(1000));
2790 adapter
->flags
|= BE_FLAGS_WORKER_SCHEDULED
;
2792 pci_write_config_dword(adapter
->pdev
, PCICFG_CUST_SCRATCHPAD_CSR
, 1);
2799 #ifdef CONFIG_NET_POLL_CONTROLLER
2800 static void be_netpoll(struct net_device
*netdev
)
2802 struct be_adapter
*adapter
= netdev_priv(netdev
);
2803 struct be_eq_obj
*eqo
;
2806 for_all_evt_queues(adapter
, eqo
, i
)
2813 #define FW_FILE_HDR_SIGN "ServerEngines Corp. "
2814 char flash_cookie
[2][16] = {"*** SE FLAS", "H DIRECTORY *** "};
2816 static bool be_flash_redboot(struct be_adapter
*adapter
,
2817 const u8
*p
, u32 img_start
, int image_size
,
2824 crc_offset
= hdr_size
+ img_start
+ image_size
- 4;
2828 status
= be_cmd_get_flash_crc(adapter
, flashed_crc
,
2831 dev_err(&adapter
->pdev
->dev
,
2832 "could not get crc from flash, not flashing redboot\n");
2836 /*update redboot only if crc does not match*/
2837 if (!memcmp(flashed_crc
, p
, 4))
2843 static bool phy_flashing_required(struct be_adapter
*adapter
)
2845 return (adapter
->phy
.phy_type
== TN_8022
&&
2846 adapter
->phy
.interface_type
== PHY_TYPE_BASET_10GB
);
2849 static bool is_comp_in_ufi(struct be_adapter
*adapter
,
2850 struct flash_section_info
*fsec
, int type
)
2852 int i
= 0, img_type
= 0;
2853 struct flash_section_info_g2
*fsec_g2
= NULL
;
2855 if (adapter
->generation
!= BE_GEN3
)
2856 fsec_g2
= (struct flash_section_info_g2
*)fsec
;
2858 for (i
= 0; i
< MAX_FLASH_COMP
; i
++) {
2860 img_type
= le32_to_cpu(fsec_g2
->fsec_entry
[i
].type
);
2862 img_type
= le32_to_cpu(fsec
->fsec_entry
[i
].type
);
2864 if (img_type
== type
)
2871 struct flash_section_info
*get_fsec_info(struct be_adapter
*adapter
,
2873 const struct firmware
*fw
)
2875 struct flash_section_info
*fsec
= NULL
;
2876 const u8
*p
= fw
->data
;
2879 while (p
< (fw
->data
+ fw
->size
)) {
2880 fsec
= (struct flash_section_info
*)p
;
2881 if (!memcmp(flash_cookie
, fsec
->cookie
, sizeof(flash_cookie
)))
2888 static int be_flash_data(struct be_adapter
*adapter
,
2889 const struct firmware
*fw
,
2890 struct be_dma_mem
*flash_cmd
,
2894 int status
= 0, i
, filehdr_size
= 0;
2895 int img_hdrs_size
= (num_of_images
* sizeof(struct image_hdr
));
2896 u32 total_bytes
= 0, flash_op
;
2898 const u8
*p
= fw
->data
;
2899 struct be_cmd_write_flashrom
*req
= flash_cmd
->va
;
2900 const struct flash_comp
*pflashcomp
;
2901 int num_comp
, hdr_size
;
2902 struct flash_section_info
*fsec
= NULL
;
2904 struct flash_comp gen3_flash_types
[] = {
2905 { FLASH_iSCSI_PRIMARY_IMAGE_START_g3
, OPTYPE_ISCSI_ACTIVE
,
2906 FLASH_IMAGE_MAX_SIZE_g3
, IMAGE_FIRMWARE_iSCSI
},
2907 { FLASH_REDBOOT_START_g3
, OPTYPE_REDBOOT
,
2908 FLASH_REDBOOT_IMAGE_MAX_SIZE_g3
, IMAGE_BOOT_CODE
},
2909 { FLASH_iSCSI_BIOS_START_g3
, OPTYPE_BIOS
,
2910 FLASH_BIOS_IMAGE_MAX_SIZE_g3
, IMAGE_OPTION_ROM_ISCSI
},
2911 { FLASH_PXE_BIOS_START_g3
, OPTYPE_PXE_BIOS
,
2912 FLASH_BIOS_IMAGE_MAX_SIZE_g3
, IMAGE_OPTION_ROM_PXE
},
2913 { FLASH_FCoE_BIOS_START_g3
, OPTYPE_FCOE_BIOS
,
2914 FLASH_BIOS_IMAGE_MAX_SIZE_g3
, IMAGE_OPTION_ROM_FCoE
},
2915 { FLASH_iSCSI_BACKUP_IMAGE_START_g3
, OPTYPE_ISCSI_BACKUP
,
2916 FLASH_IMAGE_MAX_SIZE_g3
, IMAGE_FIRMWARE_BACKUP_iSCSI
},
2917 { FLASH_FCoE_PRIMARY_IMAGE_START_g3
, OPTYPE_FCOE_FW_ACTIVE
,
2918 FLASH_IMAGE_MAX_SIZE_g3
, IMAGE_FIRMWARE_FCoE
},
2919 { FLASH_FCoE_BACKUP_IMAGE_START_g3
, OPTYPE_FCOE_FW_BACKUP
,
2920 FLASH_IMAGE_MAX_SIZE_g3
, IMAGE_FIRMWARE_BACKUP_FCoE
},
2921 { FLASH_NCSI_START_g3
, OPTYPE_NCSI_FW
,
2922 FLASH_NCSI_IMAGE_MAX_SIZE_g3
, IMAGE_NCSI
},
2923 { FLASH_PHY_FW_START_g3
, OPTYPE_PHY_FW
,
2924 FLASH_PHY_FW_IMAGE_MAX_SIZE_g3
, IMAGE_FIRMWARE_PHY
}
2927 struct flash_comp gen2_flash_types
[] = {
2928 { FLASH_iSCSI_PRIMARY_IMAGE_START_g2
, OPTYPE_ISCSI_ACTIVE
,
2929 FLASH_IMAGE_MAX_SIZE_g2
, IMAGE_FIRMWARE_iSCSI
},
2930 { FLASH_REDBOOT_START_g2
, OPTYPE_REDBOOT
,
2931 FLASH_REDBOOT_IMAGE_MAX_SIZE_g2
, IMAGE_BOOT_CODE
},
2932 { FLASH_iSCSI_BIOS_START_g2
, OPTYPE_BIOS
,
2933 FLASH_BIOS_IMAGE_MAX_SIZE_g2
, IMAGE_OPTION_ROM_ISCSI
},
2934 { FLASH_PXE_BIOS_START_g2
, OPTYPE_PXE_BIOS
,
2935 FLASH_BIOS_IMAGE_MAX_SIZE_g2
, IMAGE_OPTION_ROM_PXE
},
2936 { FLASH_FCoE_BIOS_START_g2
, OPTYPE_FCOE_BIOS
,
2937 FLASH_BIOS_IMAGE_MAX_SIZE_g2
, IMAGE_OPTION_ROM_FCoE
},
2938 { FLASH_iSCSI_BACKUP_IMAGE_START_g2
, OPTYPE_ISCSI_BACKUP
,
2939 FLASH_IMAGE_MAX_SIZE_g2
, IMAGE_FIRMWARE_BACKUP_iSCSI
},
2940 { FLASH_FCoE_PRIMARY_IMAGE_START_g2
, OPTYPE_FCOE_FW_ACTIVE
,
2941 FLASH_IMAGE_MAX_SIZE_g2
, IMAGE_FIRMWARE_FCoE
},
2942 { FLASH_FCoE_BACKUP_IMAGE_START_g2
, OPTYPE_FCOE_FW_BACKUP
,
2943 FLASH_IMAGE_MAX_SIZE_g2
, IMAGE_FIRMWARE_BACKUP_FCoE
}
2946 if (adapter
->generation
== BE_GEN3
) {
2947 pflashcomp
= gen3_flash_types
;
2948 filehdr_size
= sizeof(struct flash_file_hdr_g3
);
2949 num_comp
= ARRAY_SIZE(gen3_flash_types
);
2951 pflashcomp
= gen2_flash_types
;
2952 filehdr_size
= sizeof(struct flash_file_hdr_g2
);
2953 num_comp
= ARRAY_SIZE(gen2_flash_types
);
2955 /* Get flash section info*/
2956 fsec
= get_fsec_info(adapter
, filehdr_size
+ img_hdrs_size
, fw
);
2958 dev_err(&adapter
->pdev
->dev
,
2959 "Invalid Cookie. UFI corrupted ?\n");
2962 for (i
= 0; i
< num_comp
; i
++) {
2963 if (!is_comp_in_ufi(adapter
, fsec
, pflashcomp
[i
].img_type
))
2966 if ((pflashcomp
[i
].optype
== OPTYPE_NCSI_FW
) &&
2967 memcmp(adapter
->fw_ver
, "3.102.148.0", 11) < 0)
2970 if (pflashcomp
[i
].optype
== OPTYPE_PHY_FW
) {
2971 if (!phy_flashing_required(adapter
))
2975 hdr_size
= filehdr_size
+
2976 (num_of_images
* sizeof(struct image_hdr
));
2978 if ((pflashcomp
[i
].optype
== OPTYPE_REDBOOT
) &&
2979 (!be_flash_redboot(adapter
, fw
->data
, pflashcomp
[i
].offset
,
2980 pflashcomp
[i
].size
, hdr_size
)))
2983 /* Flash the component */
2985 p
+= filehdr_size
+ pflashcomp
[i
].offset
+ img_hdrs_size
;
2986 if (p
+ pflashcomp
[i
].size
> fw
->data
+ fw
->size
)
2988 total_bytes
= pflashcomp
[i
].size
;
2989 while (total_bytes
) {
2990 if (total_bytes
> 32*1024)
2991 num_bytes
= 32*1024;
2993 num_bytes
= total_bytes
;
2994 total_bytes
-= num_bytes
;
2996 if (pflashcomp
[i
].optype
== OPTYPE_PHY_FW
)
2997 flash_op
= FLASHROM_OPER_PHY_FLASH
;
2999 flash_op
= FLASHROM_OPER_FLASH
;
3001 if (pflashcomp
[i
].optype
== OPTYPE_PHY_FW
)
3002 flash_op
= FLASHROM_OPER_PHY_SAVE
;
3004 flash_op
= FLASHROM_OPER_SAVE
;
3006 memcpy(req
->params
.data_buf
, p
, num_bytes
);
3008 status
= be_cmd_write_flashrom(adapter
, flash_cmd
,
3009 pflashcomp
[i
].optype
, flash_op
, num_bytes
);
3011 if ((status
== ILLEGAL_IOCTL_REQ
) &&
3012 (pflashcomp
[i
].optype
==
3015 dev_err(&adapter
->pdev
->dev
,
3016 "cmd to write to flash rom failed.\n");
3024 static int get_ufigen_type(struct flash_file_hdr_g2
*fhdr
)
3028 if (fhdr
->build
[0] == '3')
3030 else if (fhdr
->build
[0] == '2')
3036 static int lancer_fw_download(struct be_adapter
*adapter
,
3037 const struct firmware
*fw
)
3039 #define LANCER_FW_DOWNLOAD_CHUNK (32 * 1024)
3040 #define LANCER_FW_DOWNLOAD_LOCATION "/prg"
3041 struct be_dma_mem flash_cmd
;
3042 const u8
*data_ptr
= NULL
;
3043 u8
*dest_image_ptr
= NULL
;
3044 size_t image_size
= 0;
3046 u32 data_written
= 0;
3051 if (!IS_ALIGNED(fw
->size
, sizeof(u32
))) {
3052 dev_err(&adapter
->pdev
->dev
,
3053 "FW Image not properly aligned. "
3054 "Length must be 4 byte aligned.\n");
3056 goto lancer_fw_exit
;
3059 flash_cmd
.size
= sizeof(struct lancer_cmd_req_write_object
)
3060 + LANCER_FW_DOWNLOAD_CHUNK
;
3061 flash_cmd
.va
= dma_alloc_coherent(&adapter
->pdev
->dev
, flash_cmd
.size
,
3062 &flash_cmd
.dma
, GFP_KERNEL
);
3063 if (!flash_cmd
.va
) {
3065 dev_err(&adapter
->pdev
->dev
,
3066 "Memory allocation failure while flashing\n");
3067 goto lancer_fw_exit
;
3070 dest_image_ptr
= flash_cmd
.va
+
3071 sizeof(struct lancer_cmd_req_write_object
);
3072 image_size
= fw
->size
;
3073 data_ptr
= fw
->data
;
3075 while (image_size
) {
3076 chunk_size
= min_t(u32
, image_size
, LANCER_FW_DOWNLOAD_CHUNK
);
3078 /* Copy the image chunk content. */
3079 memcpy(dest_image_ptr
, data_ptr
, chunk_size
);
3081 status
= lancer_cmd_write_object(adapter
, &flash_cmd
,
3082 chunk_size
, offset
, LANCER_FW_DOWNLOAD_LOCATION
,
3083 &data_written
, &add_status
);
3088 offset
+= data_written
;
3089 data_ptr
+= data_written
;
3090 image_size
-= data_written
;
3094 /* Commit the FW written */
3095 status
= lancer_cmd_write_object(adapter
, &flash_cmd
,
3096 0, offset
, LANCER_FW_DOWNLOAD_LOCATION
,
3097 &data_written
, &add_status
);
3100 dma_free_coherent(&adapter
->pdev
->dev
, flash_cmd
.size
, flash_cmd
.va
,
3103 dev_err(&adapter
->pdev
->dev
,
3104 "Firmware load error. "
3105 "Status code: 0x%x Additional Status: 0x%x\n",
3106 status
, add_status
);
3107 goto lancer_fw_exit
;
3110 dev_info(&adapter
->pdev
->dev
, "Firmware flashed successfully\n");
3115 static int be_fw_download(struct be_adapter
*adapter
, const struct firmware
* fw
)
3117 struct flash_file_hdr_g2
*fhdr
;
3118 struct flash_file_hdr_g3
*fhdr3
;
3119 struct image_hdr
*img_hdr_ptr
= NULL
;
3120 struct be_dma_mem flash_cmd
;
3122 int status
= 0, i
= 0, num_imgs
= 0;
3125 fhdr
= (struct flash_file_hdr_g2
*) p
;
3127 flash_cmd
.size
= sizeof(struct be_cmd_write_flashrom
) + 32*1024;
3128 flash_cmd
.va
= dma_alloc_coherent(&adapter
->pdev
->dev
, flash_cmd
.size
,
3129 &flash_cmd
.dma
, GFP_KERNEL
);
3130 if (!flash_cmd
.va
) {
3132 dev_err(&adapter
->pdev
->dev
,
3133 "Memory allocation failure while flashing\n");
3137 if ((adapter
->generation
== BE_GEN3
) &&
3138 (get_ufigen_type(fhdr
) == BE_GEN3
)) {
3139 fhdr3
= (struct flash_file_hdr_g3
*) fw
->data
;
3140 num_imgs
= le32_to_cpu(fhdr3
->num_imgs
);
3141 for (i
= 0; i
< num_imgs
; i
++) {
3142 img_hdr_ptr
= (struct image_hdr
*) (fw
->data
+
3143 (sizeof(struct flash_file_hdr_g3
) +
3144 i
* sizeof(struct image_hdr
)));
3145 if (le32_to_cpu(img_hdr_ptr
->imageid
) == 1)
3146 status
= be_flash_data(adapter
, fw
, &flash_cmd
,
3149 } else if ((adapter
->generation
== BE_GEN2
) &&
3150 (get_ufigen_type(fhdr
) == BE_GEN2
)) {
3151 status
= be_flash_data(adapter
, fw
, &flash_cmd
, 0);
3153 dev_err(&adapter
->pdev
->dev
,
3154 "UFI and Interface are not compatible for flashing\n");
3158 dma_free_coherent(&adapter
->pdev
->dev
, flash_cmd
.size
, flash_cmd
.va
,
3161 dev_err(&adapter
->pdev
->dev
, "Firmware load error\n");
3165 dev_info(&adapter
->pdev
->dev
, "Firmware flashed successfully\n");
3171 int be_load_fw(struct be_adapter
*adapter
, u8
*fw_file
)
3173 const struct firmware
*fw
;
3176 if (!netif_running(adapter
->netdev
)) {
3177 dev_err(&adapter
->pdev
->dev
,
3178 "Firmware load not allowed (interface is down)\n");
3182 status
= request_firmware(&fw
, fw_file
, &adapter
->pdev
->dev
);
3186 dev_info(&adapter
->pdev
->dev
, "Flashing firmware file %s\n", fw_file
);
3188 if (lancer_chip(adapter
))
3189 status
= lancer_fw_download(adapter
, fw
);
3191 status
= be_fw_download(adapter
, fw
);
3194 release_firmware(fw
);
3198 static const struct net_device_ops be_netdev_ops
= {
3199 .ndo_open
= be_open
,
3200 .ndo_stop
= be_close
,
3201 .ndo_start_xmit
= be_xmit
,
3202 .ndo_set_rx_mode
= be_set_rx_mode
,
3203 .ndo_set_mac_address
= be_mac_addr_set
,
3204 .ndo_change_mtu
= be_change_mtu
,
3205 .ndo_get_stats64
= be_get_stats64
,
3206 .ndo_validate_addr
= eth_validate_addr
,
3207 .ndo_vlan_rx_add_vid
= be_vlan_add_vid
,
3208 .ndo_vlan_rx_kill_vid
= be_vlan_rem_vid
,
3209 .ndo_set_vf_mac
= be_set_vf_mac
,
3210 .ndo_set_vf_vlan
= be_set_vf_vlan
,
3211 .ndo_set_vf_tx_rate
= be_set_vf_tx_rate
,
3212 .ndo_get_vf_config
= be_get_vf_config
,
3213 #ifdef CONFIG_NET_POLL_CONTROLLER
3214 .ndo_poll_controller
= be_netpoll
,
3218 static void be_netdev_init(struct net_device
*netdev
)
3220 struct be_adapter
*adapter
= netdev_priv(netdev
);
3221 struct be_eq_obj
*eqo
;
3224 netdev
->hw_features
|= NETIF_F_SG
| NETIF_F_TSO
| NETIF_F_TSO6
|
3225 NETIF_F_IP_CSUM
| NETIF_F_IPV6_CSUM
| NETIF_F_RXCSUM
|
3227 if (be_multi_rxq(adapter
))
3228 netdev
->hw_features
|= NETIF_F_RXHASH
;
3230 netdev
->features
|= netdev
->hw_features
|
3231 NETIF_F_HW_VLAN_RX
| NETIF_F_HW_VLAN_FILTER
;
3233 netdev
->vlan_features
|= NETIF_F_SG
| NETIF_F_TSO
| NETIF_F_TSO6
|
3234 NETIF_F_IP_CSUM
| NETIF_F_IPV6_CSUM
;
3236 netdev
->priv_flags
|= IFF_UNICAST_FLT
;
3238 netdev
->flags
|= IFF_MULTICAST
;
3240 netif_set_gso_max_size(netdev
, 65535 - ETH_HLEN
);
3242 netdev
->netdev_ops
= &be_netdev_ops
;
3244 SET_ETHTOOL_OPS(netdev
, &be_ethtool_ops
);
3246 for_all_evt_queues(adapter
, eqo
, i
)
3247 netif_napi_add(netdev
, &eqo
->napi
, be_poll
, BE_NAPI_WEIGHT
);
3250 static void be_unmap_pci_bars(struct be_adapter
*adapter
)
3253 iounmap(adapter
->csr
);
3255 iounmap(adapter
->db
);
3256 if (adapter
->roce_db
.base
)
3257 pci_iounmap(adapter
->pdev
, adapter
->roce_db
.base
);
3260 static int lancer_roce_map_pci_bars(struct be_adapter
*adapter
)
3262 struct pci_dev
*pdev
= adapter
->pdev
;
3265 addr
= pci_iomap(pdev
, 2, 0);
3269 adapter
->roce_db
.base
= addr
;
3270 adapter
->roce_db
.io_addr
= pci_resource_start(pdev
, 2);
3271 adapter
->roce_db
.size
= 8192;
3272 adapter
->roce_db
.total_size
= pci_resource_len(pdev
, 2);
3276 static int be_map_pci_bars(struct be_adapter
*adapter
)
3281 if (lancer_chip(adapter
)) {
3282 if (be_type_2_3(adapter
)) {
3283 addr
= ioremap_nocache(
3284 pci_resource_start(adapter
->pdev
, 0),
3285 pci_resource_len(adapter
->pdev
, 0));
3290 if (adapter
->if_type
== SLI_INTF_TYPE_3
) {
3291 if (lancer_roce_map_pci_bars(adapter
))
3297 if (be_physfn(adapter
)) {
3298 addr
= ioremap_nocache(pci_resource_start(adapter
->pdev
, 2),
3299 pci_resource_len(adapter
->pdev
, 2));
3302 adapter
->csr
= addr
;
3305 if (adapter
->generation
== BE_GEN2
) {
3308 if (be_physfn(adapter
))
3313 addr
= ioremap_nocache(pci_resource_start(adapter
->pdev
, db_reg
),
3314 pci_resource_len(adapter
->pdev
, db_reg
));
3318 if (adapter
->sli_family
== SKYHAWK_SLI_FAMILY
) {
3319 adapter
->roce_db
.size
= 4096;
3320 adapter
->roce_db
.io_addr
=
3321 pci_resource_start(adapter
->pdev
, db_reg
);
3322 adapter
->roce_db
.total_size
=
3323 pci_resource_len(adapter
->pdev
, db_reg
);
3327 be_unmap_pci_bars(adapter
);
3331 static void be_ctrl_cleanup(struct be_adapter
*adapter
)
3333 struct be_dma_mem
*mem
= &adapter
->mbox_mem_alloced
;
3335 be_unmap_pci_bars(adapter
);
3338 dma_free_coherent(&adapter
->pdev
->dev
, mem
->size
, mem
->va
,
3341 mem
= &adapter
->rx_filter
;
3343 dma_free_coherent(&adapter
->pdev
->dev
, mem
->size
, mem
->va
,
3347 static int be_ctrl_init(struct be_adapter
*adapter
)
3349 struct be_dma_mem
*mbox_mem_alloc
= &adapter
->mbox_mem_alloced
;
3350 struct be_dma_mem
*mbox_mem_align
= &adapter
->mbox_mem
;
3351 struct be_dma_mem
*rx_filter
= &adapter
->rx_filter
;
3354 status
= be_map_pci_bars(adapter
);
3358 mbox_mem_alloc
->size
= sizeof(struct be_mcc_mailbox
) + 16;
3359 mbox_mem_alloc
->va
= dma_alloc_coherent(&adapter
->pdev
->dev
,
3360 mbox_mem_alloc
->size
,
3361 &mbox_mem_alloc
->dma
,
3363 if (!mbox_mem_alloc
->va
) {
3365 goto unmap_pci_bars
;
3367 mbox_mem_align
->size
= sizeof(struct be_mcc_mailbox
);
3368 mbox_mem_align
->va
= PTR_ALIGN(mbox_mem_alloc
->va
, 16);
3369 mbox_mem_align
->dma
= PTR_ALIGN(mbox_mem_alloc
->dma
, 16);
3370 memset(mbox_mem_align
->va
, 0, sizeof(struct be_mcc_mailbox
));
3372 rx_filter
->size
= sizeof(struct be_cmd_req_rx_filter
);
3373 rx_filter
->va
= dma_alloc_coherent(&adapter
->pdev
->dev
, rx_filter
->size
,
3374 &rx_filter
->dma
, GFP_KERNEL
);
3375 if (rx_filter
->va
== NULL
) {
3379 memset(rx_filter
->va
, 0, rx_filter
->size
);
3381 mutex_init(&adapter
->mbox_lock
);
3382 spin_lock_init(&adapter
->mcc_lock
);
3383 spin_lock_init(&adapter
->mcc_cq_lock
);
3385 init_completion(&adapter
->flash_compl
);
3386 pci_save_state(adapter
->pdev
);
3390 dma_free_coherent(&adapter
->pdev
->dev
, mbox_mem_alloc
->size
,
3391 mbox_mem_alloc
->va
, mbox_mem_alloc
->dma
);
3394 be_unmap_pci_bars(adapter
);
3400 static void be_stats_cleanup(struct be_adapter
*adapter
)
3402 struct be_dma_mem
*cmd
= &adapter
->stats_cmd
;
3405 dma_free_coherent(&adapter
->pdev
->dev
, cmd
->size
,
3409 static int be_stats_init(struct be_adapter
*adapter
)
3411 struct be_dma_mem
*cmd
= &adapter
->stats_cmd
;
3413 if (adapter
->generation
== BE_GEN2
) {
3414 cmd
->size
= sizeof(struct be_cmd_req_get_stats_v0
);
3416 if (lancer_chip(adapter
))
3417 cmd
->size
= sizeof(struct lancer_cmd_req_pport_stats
);
3419 cmd
->size
= sizeof(struct be_cmd_req_get_stats_v1
);
3421 cmd
->va
= dma_alloc_coherent(&adapter
->pdev
->dev
, cmd
->size
, &cmd
->dma
,
3423 if (cmd
->va
== NULL
)
3425 memset(cmd
->va
, 0, cmd
->size
);
3429 static void __devexit
be_remove(struct pci_dev
*pdev
)
3431 struct be_adapter
*adapter
= pci_get_drvdata(pdev
);
3436 be_roce_dev_remove(adapter
);
3438 unregister_netdev(adapter
->netdev
);
3442 be_stats_cleanup(adapter
);
3444 be_ctrl_cleanup(adapter
);
3446 pci_set_drvdata(pdev
, NULL
);
3447 pci_release_regions(pdev
);
3448 pci_disable_device(pdev
);
3450 free_netdev(adapter
->netdev
);
3453 bool be_is_wol_supported(struct be_adapter
*adapter
)
3455 return ((adapter
->wol_cap
& BE_WOL_CAP
) &&
3456 !be_is_wol_excluded(adapter
)) ? true : false;
3459 u32
be_get_fw_log_level(struct be_adapter
*adapter
)
3461 struct be_dma_mem extfat_cmd
;
3462 struct be_fat_conf_params
*cfgs
;
3467 memset(&extfat_cmd
, 0, sizeof(struct be_dma_mem
));
3468 extfat_cmd
.size
= sizeof(struct be_cmd_resp_get_ext_fat_caps
);
3469 extfat_cmd
.va
= pci_alloc_consistent(adapter
->pdev
, extfat_cmd
.size
,
3472 if (!extfat_cmd
.va
) {
3473 dev_err(&adapter
->pdev
->dev
, "%s: Memory allocation failure\n",
3478 status
= be_cmd_get_ext_fat_capabilites(adapter
, &extfat_cmd
);
3480 cfgs
= (struct be_fat_conf_params
*)(extfat_cmd
.va
+
3481 sizeof(struct be_cmd_resp_hdr
));
3482 for (j
= 0; j
< cfgs
->module
[0].num_modes
; j
++) {
3483 if (cfgs
->module
[0].trace_lvl
[j
].mode
== MODE_UART
)
3484 level
= cfgs
->module
[0].trace_lvl
[j
].dbg_lvl
;
3487 pci_free_consistent(adapter
->pdev
, extfat_cmd
.size
, extfat_cmd
.va
,
3492 static int be_get_initial_config(struct be_adapter
*adapter
)
3497 status
= be_cmd_query_fw_cfg(adapter
, &adapter
->port_num
,
3498 &adapter
->function_mode
, &adapter
->function_caps
);
3502 if (adapter
->function_mode
& FLEX10_MODE
)
3503 adapter
->max_vlans
= BE_NUM_VLANS_SUPPORTED
/8;
3505 adapter
->max_vlans
= BE_NUM_VLANS_SUPPORTED
;
3507 if (be_physfn(adapter
))
3508 adapter
->max_pmac_cnt
= BE_UC_PMAC_COUNT
;
3510 adapter
->max_pmac_cnt
= BE_VF_UC_PMAC_COUNT
;
3512 /* primary mac needs 1 pmac entry */
3513 adapter
->pmac_id
= kcalloc(adapter
->max_pmac_cnt
+ 1,
3514 sizeof(u32
), GFP_KERNEL
);
3515 if (!adapter
->pmac_id
)
3518 status
= be_cmd_get_cntl_attributes(adapter
);
3522 status
= be_cmd_get_acpi_wol_cap(adapter
);
3524 /* in case of a failure to get wol capabillities
3525 * check the exclusion list to determine WOL capability */
3526 if (!be_is_wol_excluded(adapter
))
3527 adapter
->wol_cap
|= BE_WOL_CAP
;
3530 if (be_is_wol_supported(adapter
))
3531 adapter
->wol
= true;
3533 level
= be_get_fw_log_level(adapter
);
3534 adapter
->msg_enable
= level
<= FW_LOG_LEVEL_DEFAULT
? NETIF_MSG_HW
: 0;
3539 static int be_dev_type_check(struct be_adapter
*adapter
)
3541 struct pci_dev
*pdev
= adapter
->pdev
;
3542 u32 sli_intf
= 0, if_type
;
3544 switch (pdev
->device
) {
3547 adapter
->generation
= BE_GEN2
;
3551 adapter
->generation
= BE_GEN3
;
3555 pci_read_config_dword(pdev
, SLI_INTF_REG_OFFSET
, &sli_intf
);
3556 adapter
->if_type
= (sli_intf
& SLI_INTF_IF_TYPE_MASK
) >>
3557 SLI_INTF_IF_TYPE_SHIFT
;
3558 if_type
= (sli_intf
& SLI_INTF_IF_TYPE_MASK
) >>
3559 SLI_INTF_IF_TYPE_SHIFT
;
3560 if (((sli_intf
& SLI_INTF_VALID_MASK
) != SLI_INTF_VALID
) ||
3561 !be_type_2_3(adapter
)) {
3562 dev_err(&pdev
->dev
, "SLI_INTF reg val is not valid\n");
3565 adapter
->sli_family
= ((sli_intf
& SLI_INTF_FAMILY_MASK
) >>
3566 SLI_INTF_FAMILY_SHIFT
);
3567 adapter
->generation
= BE_GEN3
;
3570 pci_read_config_dword(pdev
, SLI_INTF_REG_OFFSET
, &sli_intf
);
3571 if ((sli_intf
& SLI_INTF_VALID_MASK
) != SLI_INTF_VALID
) {
3572 dev_err(&pdev
->dev
, "SLI_INTF reg val is not valid\n");
3575 adapter
->sli_family
= ((sli_intf
& SLI_INTF_FAMILY_MASK
) >>
3576 SLI_INTF_FAMILY_SHIFT
);
3577 adapter
->generation
= BE_GEN3
;
3580 adapter
->generation
= 0;
3583 pci_read_config_dword(adapter
->pdev
, SLI_INTF_REG_OFFSET
, &sli_intf
);
3584 adapter
->virtfn
= (sli_intf
& SLI_INTF_FT_MASK
) ? 1 : 0;
3588 static int lancer_wait_ready(struct be_adapter
*adapter
)
3590 #define SLIPORT_READY_TIMEOUT 30
3594 for (i
= 0; i
< SLIPORT_READY_TIMEOUT
; i
++) {
3595 sliport_status
= ioread32(adapter
->db
+ SLIPORT_STATUS_OFFSET
);
3596 if (sliport_status
& SLIPORT_STATUS_RDY_MASK
)
3602 if (i
== SLIPORT_READY_TIMEOUT
)
3608 static int lancer_test_and_set_rdy_state(struct be_adapter
*adapter
)
3611 u32 sliport_status
, err
, reset_needed
;
3612 status
= lancer_wait_ready(adapter
);
3614 sliport_status
= ioread32(adapter
->db
+ SLIPORT_STATUS_OFFSET
);
3615 err
= sliport_status
& SLIPORT_STATUS_ERR_MASK
;
3616 reset_needed
= sliport_status
& SLIPORT_STATUS_RN_MASK
;
3617 if (err
&& reset_needed
) {
3618 iowrite32(SLI_PORT_CONTROL_IP_MASK
,
3619 adapter
->db
+ SLIPORT_CONTROL_OFFSET
);
3621 /* check adapter has corrected the error */
3622 status
= lancer_wait_ready(adapter
);
3623 sliport_status
= ioread32(adapter
->db
+
3624 SLIPORT_STATUS_OFFSET
);
3625 sliport_status
&= (SLIPORT_STATUS_ERR_MASK
|
3626 SLIPORT_STATUS_RN_MASK
);
3627 if (status
|| sliport_status
)
3629 } else if (err
|| reset_needed
) {
3636 static void lancer_test_and_recover_fn_err(struct be_adapter
*adapter
)
3641 if (adapter
->eeh_err
|| adapter
->ue_detected
)
3644 sliport_status
= ioread32(adapter
->db
+ SLIPORT_STATUS_OFFSET
);
3646 if (sliport_status
& SLIPORT_STATUS_ERR_MASK
) {
3647 dev_err(&adapter
->pdev
->dev
,
3648 "Adapter in error state."
3649 "Trying to recover.\n");
3651 status
= lancer_test_and_set_rdy_state(adapter
);
3655 netif_device_detach(adapter
->netdev
);
3657 if (netif_running(adapter
->netdev
))
3658 be_close(adapter
->netdev
);
3662 adapter
->fw_timeout
= false;
3664 status
= be_setup(adapter
);
3668 if (netif_running(adapter
->netdev
)) {
3669 status
= be_open(adapter
->netdev
);
3674 netif_device_attach(adapter
->netdev
);
3676 dev_err(&adapter
->pdev
->dev
,
3677 "Adapter error recovery succeeded\n");
3681 dev_err(&adapter
->pdev
->dev
,
3682 "Adapter error recovery failed\n");
3685 static void be_worker(struct work_struct
*work
)
3687 struct be_adapter
*adapter
=
3688 container_of(work
, struct be_adapter
, work
.work
);
3689 struct be_rx_obj
*rxo
;
3690 struct be_eq_obj
*eqo
;
3693 if (lancer_chip(adapter
))
3694 lancer_test_and_recover_fn_err(adapter
);
3696 be_detect_dump_ue(adapter
);
3698 /* when interrupts are not yet enabled, just reap any pending
3699 * mcc completions */
3700 if (!netif_running(adapter
->netdev
)) {
3701 be_process_mcc(adapter
);
3705 if (!adapter
->stats_cmd_sent
) {
3706 if (lancer_chip(adapter
))
3707 lancer_cmd_get_pport_stats(adapter
,
3708 &adapter
->stats_cmd
);
3710 be_cmd_get_stats(adapter
, &adapter
->stats_cmd
);
3713 for_all_rx_queues(adapter
, rxo
, i
) {
3714 if (rxo
->rx_post_starved
) {
3715 rxo
->rx_post_starved
= false;
3716 be_post_rx_frags(rxo
, GFP_KERNEL
);
3720 for_all_evt_queues(adapter
, eqo
, i
)
3721 be_eqd_update(adapter
, eqo
);
3724 adapter
->work_counter
++;
3725 schedule_delayed_work(&adapter
->work
, msecs_to_jiffies(1000));
3728 static bool be_reset_required(struct be_adapter
*adapter
)
3732 pci_read_config_dword(adapter
->pdev
, PCICFG_CUST_SCRATCHPAD_CSR
, ®
);
3736 static int __devinit
be_probe(struct pci_dev
*pdev
,
3737 const struct pci_device_id
*pdev_id
)
3740 struct be_adapter
*adapter
;
3741 struct net_device
*netdev
;
3743 status
= pci_enable_device(pdev
);
3747 status
= pci_request_regions(pdev
, DRV_NAME
);
3750 pci_set_master(pdev
);
3752 netdev
= alloc_etherdev_mq(sizeof(struct be_adapter
), MAX_TX_QS
);
3753 if (netdev
== NULL
) {
3757 adapter
= netdev_priv(netdev
);
3758 adapter
->pdev
= pdev
;
3759 pci_set_drvdata(pdev
, adapter
);
3761 status
= be_dev_type_check(adapter
);
3765 adapter
->netdev
= netdev
;
3766 SET_NETDEV_DEV(netdev
, &pdev
->dev
);
3768 status
= dma_set_mask(&pdev
->dev
, DMA_BIT_MASK(64));
3770 netdev
->features
|= NETIF_F_HIGHDMA
;
3772 status
= dma_set_mask(&pdev
->dev
, DMA_BIT_MASK(32));
3774 dev_err(&pdev
->dev
, "Could not set PCI DMA Mask\n");
3779 status
= be_ctrl_init(adapter
);
3783 if (lancer_chip(adapter
)) {
3784 status
= lancer_wait_ready(adapter
);
3786 iowrite32(SLI_PORT_CONTROL_IP_MASK
,
3787 adapter
->db
+ SLIPORT_CONTROL_OFFSET
);
3788 status
= lancer_test_and_set_rdy_state(adapter
);
3791 dev_err(&pdev
->dev
, "Adapter in non recoverable error\n");
3796 /* sync up with fw's ready state */
3797 if (be_physfn(adapter
)) {
3798 status
= be_cmd_POST(adapter
);
3803 /* tell fw we're ready to fire cmds */
3804 status
= be_cmd_fw_init(adapter
);
3808 if (be_reset_required(adapter
)) {
3809 status
= be_cmd_reset_function(adapter
);
3814 /* The INTR bit may be set in the card when probed by a kdump kernel
3817 if (!lancer_chip(adapter
))
3818 be_intr_set(adapter
, false);
3820 status
= be_stats_init(adapter
);
3824 status
= be_get_initial_config(adapter
);
3828 INIT_DELAYED_WORK(&adapter
->work
, be_worker
);
3829 adapter
->rx_fc
= adapter
->tx_fc
= true;
3831 status
= be_setup(adapter
);
3835 be_netdev_init(netdev
);
3836 status
= register_netdev(netdev
);
3840 be_roce_dev_add(adapter
);
3842 dev_info(&pdev
->dev
, "%s: %s port %d\n", netdev
->name
, nic_name(pdev
),
3850 be_msix_disable(adapter
);
3852 be_stats_cleanup(adapter
);
3854 be_ctrl_cleanup(adapter
);
3856 free_netdev(netdev
);
3857 pci_set_drvdata(pdev
, NULL
);
3859 pci_release_regions(pdev
);
3861 pci_disable_device(pdev
);
3863 dev_err(&pdev
->dev
, "%s initialization failed\n", nic_name(pdev
));
3867 static int be_suspend(struct pci_dev
*pdev
, pm_message_t state
)
3869 struct be_adapter
*adapter
= pci_get_drvdata(pdev
);
3870 struct net_device
*netdev
= adapter
->netdev
;
3873 be_setup_wol(adapter
, true);
3875 netif_device_detach(netdev
);
3876 if (netif_running(netdev
)) {
3883 pci_save_state(pdev
);
3884 pci_disable_device(pdev
);
3885 pci_set_power_state(pdev
, pci_choose_state(pdev
, state
));
3889 static int be_resume(struct pci_dev
*pdev
)
3892 struct be_adapter
*adapter
= pci_get_drvdata(pdev
);
3893 struct net_device
*netdev
= adapter
->netdev
;
3895 netif_device_detach(netdev
);
3897 status
= pci_enable_device(pdev
);
3901 pci_set_power_state(pdev
, 0);
3902 pci_restore_state(pdev
);
3904 /* tell fw we're ready to fire cmds */
3905 status
= be_cmd_fw_init(adapter
);
3910 if (netif_running(netdev
)) {
3915 netif_device_attach(netdev
);
3918 be_setup_wol(adapter
, false);
3924 * An FLR will stop BE from DMAing any data.
3926 static void be_shutdown(struct pci_dev
*pdev
)
3928 struct be_adapter
*adapter
= pci_get_drvdata(pdev
);
3933 cancel_delayed_work_sync(&adapter
->work
);
3935 netif_device_detach(adapter
->netdev
);
3938 be_setup_wol(adapter
, true);
3940 be_cmd_reset_function(adapter
);
3942 pci_disable_device(pdev
);
3945 static pci_ers_result_t
be_eeh_err_detected(struct pci_dev
*pdev
,
3946 pci_channel_state_t state
)
3948 struct be_adapter
*adapter
= pci_get_drvdata(pdev
);
3949 struct net_device
*netdev
= adapter
->netdev
;
3951 dev_err(&adapter
->pdev
->dev
, "EEH error detected\n");
3953 adapter
->eeh_err
= true;
3955 netif_device_detach(netdev
);
3957 if (netif_running(netdev
)) {
3964 if (state
== pci_channel_io_perm_failure
)
3965 return PCI_ERS_RESULT_DISCONNECT
;
3967 pci_disable_device(pdev
);
3969 /* The error could cause the FW to trigger a flash debug dump.
3970 * Resetting the card while flash dump is in progress
3971 * can cause it not to recover; wait for it to finish
3974 return PCI_ERS_RESULT_NEED_RESET
;
3977 static pci_ers_result_t
be_eeh_reset(struct pci_dev
*pdev
)
3979 struct be_adapter
*adapter
= pci_get_drvdata(pdev
);
3982 dev_info(&adapter
->pdev
->dev
, "EEH reset\n");
3983 adapter
->eeh_err
= false;
3984 adapter
->ue_detected
= false;
3985 adapter
->fw_timeout
= false;
3987 status
= pci_enable_device(pdev
);
3989 return PCI_ERS_RESULT_DISCONNECT
;
3991 pci_set_master(pdev
);
3992 pci_set_power_state(pdev
, 0);
3993 pci_restore_state(pdev
);
3995 /* Check if card is ok and fw is ready */
3996 status
= be_cmd_POST(adapter
);
3998 return PCI_ERS_RESULT_DISCONNECT
;
4000 return PCI_ERS_RESULT_RECOVERED
;
4003 static void be_eeh_resume(struct pci_dev
*pdev
)
4006 struct be_adapter
*adapter
= pci_get_drvdata(pdev
);
4007 struct net_device
*netdev
= adapter
->netdev
;
4009 dev_info(&adapter
->pdev
->dev
, "EEH resume\n");
4011 pci_save_state(pdev
);
4013 /* tell fw we're ready to fire cmds */
4014 status
= be_cmd_fw_init(adapter
);
4018 status
= be_setup(adapter
);
4022 if (netif_running(netdev
)) {
4023 status
= be_open(netdev
);
4027 netif_device_attach(netdev
);
4030 dev_err(&adapter
->pdev
->dev
, "EEH resume failed\n");
4033 static struct pci_error_handlers be_eeh_handlers
= {
4034 .error_detected
= be_eeh_err_detected
,
4035 .slot_reset
= be_eeh_reset
,
4036 .resume
= be_eeh_resume
,
4039 static struct pci_driver be_driver
= {
4041 .id_table
= be_dev_ids
,
4043 .remove
= be_remove
,
4044 .suspend
= be_suspend
,
4045 .resume
= be_resume
,
4046 .shutdown
= be_shutdown
,
4047 .err_handler
= &be_eeh_handlers
4050 static int __init
be_init_module(void)
4052 if (rx_frag_size
!= 8192 && rx_frag_size
!= 4096 &&
4053 rx_frag_size
!= 2048) {
4054 printk(KERN_WARNING DRV_NAME
4055 " : Module param rx_frag_size must be 2048/4096/8192."
4057 rx_frag_size
= 2048;
4060 return pci_register_driver(&be_driver
);
4062 module_init(be_init_module
);
4064 static void __exit
be_exit_module(void)
4066 pci_unregister_driver(&be_driver
);
4068 module_exit(be_exit_module
);