1 /* SPDX-License-Identifier: BSD-3-Clause
2 * Copyright(c) 2018-2019 Hisilicon Limited.
5 #ifndef _HNS3_ETHDEV_H_
6 #define _HNS3_ETHDEV_H_
9 #include <rte_ethdev_driver.h>
14 #include "hns3_fdir.h"
15 #include "hns3_stats.h"
18 #define PCI_VENDOR_ID_HUAWEI 0x19e5
21 #define HNS3_DEV_ID_GE 0xA220
22 #define HNS3_DEV_ID_25GE 0xA221
23 #define HNS3_DEV_ID_25GE_RDMA 0xA222
24 #define HNS3_DEV_ID_50GE_RDMA 0xA224
25 #define HNS3_DEV_ID_100G_RDMA_MACSEC 0xA226
26 #define HNS3_DEV_ID_200G_RDMA 0xA228
27 #define HNS3_DEV_ID_100G_VF 0xA22E
28 #define HNS3_DEV_ID_100G_RDMA_PFC_VF 0xA22F
30 /* PCI Config offsets */
31 #define HNS3_PCI_REVISION_ID 0x08
32 #define HNS3_PCI_REVISION_ID_LEN 1
34 #define PCI_REVISION_ID_HIP08_B 0x21
35 #define PCI_REVISION_ID_HIP09_A 0x30
37 #define HNS3_PF_FUNC_ID 0
38 #define HNS3_1ST_VF_FUNC_ID 1
40 #define HNS3_SW_SHIFT_AND_DISCARD_MODE 0
41 #define HNS3_HW_SHIFT_AND_DISCARD_MODE 1
43 #define HNS3_UNLIMIT_PROMISC_MODE 0
44 #define HNS3_LIMIT_PROMISC_MODE 1
46 #define HNS3_UC_MACADDR_NUM 128
47 #define HNS3_VF_UC_MACADDR_NUM 48
48 #define HNS3_MC_MACADDR_NUM 128
50 #define HNS3_MAX_BD_SIZE 65535
51 #define HNS3_MAX_NON_TSO_BD_PER_PKT 8
52 #define HNS3_MAX_TSO_BD_PER_PKT 63
53 #define HNS3_MAX_FRAME_LEN 9728
54 #define HNS3_VLAN_TAG_SIZE 4
55 #define HNS3_DEFAULT_RX_BUF_LEN 2048
56 #define HNS3_MAX_BD_PAYLEN (1024 * 1024 - 1)
57 #define HNS3_MAX_TSO_HDR_SIZE 512
58 #define HNS3_MAX_TSO_HDR_BD_NUM 3
59 #define HNS3_MAX_LRO_SIZE 64512
61 #define HNS3_ETH_OVERHEAD \
62 (RTE_ETHER_HDR_LEN + RTE_ETHER_CRC_LEN + HNS3_VLAN_TAG_SIZE * 2)
63 #define HNS3_PKTLEN_TO_MTU(pktlen) ((pktlen) - HNS3_ETH_OVERHEAD)
64 #define HNS3_MAX_MTU (HNS3_MAX_FRAME_LEN - HNS3_ETH_OVERHEAD)
65 #define HNS3_DEFAULT_MTU 1500UL
66 #define HNS3_DEFAULT_FRAME_LEN (HNS3_DEFAULT_MTU + HNS3_ETH_OVERHEAD)
67 #define HNS3_HIP08_MIN_TX_PKT_LEN 33
68 #define HNS3_HIP09_MIN_TX_PKT_LEN 9
70 #define HNS3_BITS_PER_BYTE 8
75 #define HNS3_MAX_PF_NUM 8
76 #define HNS3_UMV_TBL_SIZE 3072
77 #define HNS3_DEFAULT_UMV_SPACE_PER_PF \
78 (HNS3_UMV_TBL_SIZE / HNS3_MAX_PF_NUM)
80 #define HNS3_PF_CFG_BLOCK_SIZE 32
81 #define HNS3_PF_CFG_DESC_NUM \
82 (HNS3_PF_CFG_BLOCK_SIZE / HNS3_CFG_RD_LEN_BYTES)
84 #define HNS3_DEFAULT_ENABLE_PFC_NUM 0
86 #define HNS3_INTR_UNREG_FAIL_RETRY_CNT 5
87 #define HNS3_INTR_UNREG_FAIL_DELAY_MS 500
89 #define HNS3_QUIT_RESET_CNT 10
90 #define HNS3_QUIT_RESET_DELAY_MS 100
92 #define HNS3_POLL_RESPONE_MS 1
94 #define HNS3_MAX_USER_PRIO 8
104 #define HNS3_SCH_MODE_SP 0
105 #define HNS3_SCH_MODE_DWRR 1
106 struct hns3_pg_info {
108 uint8_t pg_sch_mode; /* 0: sp; 1: dwrr */
111 uint8_t tc_dwrr[HNS3_MAX_TC_NUM];
114 struct hns3_tc_info {
116 uint8_t tc_sch_mode; /* 0: sp; 1: dwrr */
119 uint8_t up_to_tc_map; /* user priority maping on the TC */
122 struct hns3_dcb_info {
124 uint8_t num_pg; /* It must be 1 if vNET-Base schd */
125 uint8_t pg_dwrr[HNS3_PG_NUM];
126 uint8_t prio_tc[HNS3_MAX_USER_PRIO];
127 struct hns3_pg_info pg_info[HNS3_PG_NUM];
128 struct hns3_tc_info tc_info[HNS3_MAX_TC_NUM];
129 uint8_t hw_pfc_map; /* Allow for packet drop or not on this TC */
130 uint8_t pfc_en; /* Pfc enabled or not for user priority */
133 enum hns3_fc_status {
135 HNS3_FC_STATUS_MAC_PAUSE,
139 struct hns3_tc_queue_info {
140 uint16_t tqp_offset; /* TQP offset from base TQP */
141 uint16_t tqp_count; /* Total TQPs */
142 uint8_t tc; /* TC index */
143 bool enable; /* If this TC is enable or not */
147 uint8_t vmdq_vport_num;
149 uint16_t tqp_desc_num;
151 uint16_t rss_size_max;
154 uint8_t mac_addr[RTE_ETHER_ADDR_LEN];
155 uint8_t default_speed;
156 uint32_t numa_node_map;
157 uint8_t speed_ability;
162 enum hns3_media_type {
163 HNS3_MEDIA_TYPE_UNKNOWN,
164 HNS3_MEDIA_TYPE_FIBER,
165 HNS3_MEDIA_TYPE_COPPER,
166 HNS3_MEDIA_TYPE_BACKPLANE,
167 HNS3_MEDIA_TYPE_NONE,
171 uint8_t mac_addr[RTE_ETHER_ADDR_LEN];
172 bool default_addr_setted; /* whether default addr(mac_addr) is set */
175 uint8_t link_duplex : 1; /* ETH_LINK_[HALF/FULL]_DUPLEX */
176 uint8_t link_autoneg : 1; /* ETH_LINK_[AUTONEG/FIXED] */
177 uint8_t link_status : 1; /* ETH_LINK_[DOWN/UP] */
178 uint32_t link_speed; /* ETH_SPEED_NUM_ */
181 struct hns3_fake_queue_data {
182 void **rx_queues; /* Array of pointers to fake RX queues. */
183 void **tx_queues; /* Array of pointers to fake TX queues. */
184 uint16_t nb_fake_rx_queues; /* Number of fake RX queues. */
185 uint16_t nb_fake_tx_queues; /* Number of fake TX queues. */
188 #define HNS3_PORT_BASE_VLAN_DISABLE 0
189 #define HNS3_PORT_BASE_VLAN_ENABLE 1
190 struct hns3_port_base_vlan_config {
195 /* Primary process maintains driver state in main thread.
198 * | UNINITIALIZED |<-----------+
199 * +---------------+ |
200 * |.eth_dev_init |.eth_dev_uninit
202 * +---------------+------------+
204 * +---------------+<-----------<---------------+
205 * |.dev_configure | |
207 * +---------------+------------+ |
209 * +---------------+----+ |
211 * | | +---------------+
213 * | | +---------------+
215 * V |.dev_configure |
216 * +---------------+----+ |.dev_close
217 * | CONFIGURED |----------------------------+
218 * +---------------+<-----------+
221 * +---------------+ |
222 * | STARTING |------------^
223 * +---------------+ failed |
225 * | +---------------+
227 * | +---------------+
230 * +---------------+------------+
234 enum hns3_adapter_state {
235 HNS3_NIC_UNINITIALIZED = 0,
236 HNS3_NIC_INITIALIZED,
237 HNS3_NIC_CONFIGURING,
248 /* Reset various stages, execute in order */
249 enum hns3_reset_stage {
250 /* Stop query services, stop transceiver, disable MAC */
252 /* Clear reset completion flags, disable send command */
254 /* Inform IMP to start resetting */
255 RESET_STAGE_REQ_HW_RESET,
256 /* Waiting for hardware reset to complete */
258 /* Reinitialize hardware */
259 RESET_STAGE_DEV_INIT,
260 /* Restore user settings and enable MAC */
262 /* Restart query services, start transceiver */
264 /* Not in reset state */
268 enum hns3_reset_level {
270 HNS3_VF_FUNC_RESET, /* A VF function reset */
272 * All VFs under a PF perform function reset.
273 * Kernel PF driver use mailbox to inform DPDK VF to do reset, the value
274 * of the reset level and the one defined in kernel driver should be
277 HNS3_VF_PF_FUNC_RESET = 2,
279 * All VFs under a PF perform FLR reset.
280 * Kernel PF driver use mailbox to inform DPDK VF to do reset, the value
281 * of the reset level and the one defined in kernel driver should be
284 * According to the protocol of PCIe, FLR to a PF resets the PF state as
285 * well as the SR-IOV extended capability including VF Enable which
286 * means that VFs no longer exist.
288 * In PF FLR, the register state of VF is not reliable, VF's driver
289 * should not access the registers of the VF device.
291 HNS3_VF_FULL_RESET = 3,
292 HNS3_FLR_RESET, /* A VF perform FLR reset */
293 /* All VFs under the rootport perform a global or IMP reset */
295 HNS3_FUNC_RESET, /* A PF function reset */
296 /* All PFs under the rootport perform a global reset */
298 HNS3_IMP_RESET, /* All PFs under the rootport perform a IMP reset */
302 enum hns3_wait_result {
309 #define HNS3_RESET_SYNC_US 100000
311 struct hns3_reset_stats {
312 uint64_t request_cnt; /* Total request reset times */
313 uint64_t global_cnt; /* Total GLOBAL reset times */
314 uint64_t imp_cnt; /* Total IMP reset times */
315 uint64_t exec_cnt; /* Total reset executive times */
316 uint64_t success_cnt; /* Total reset successful times */
317 uint64_t fail_cnt; /* Total reset failed times */
318 uint64_t merge_cnt; /* Total merged in high reset times */
321 typedef bool (*check_completion_func)(struct hns3_hw *hw);
323 struct hns3_wait_data {
328 enum hns3_wait_result result;
329 check_completion_func check_completion;
332 struct hns3_reset_ops {
333 void (*reset_service)(void *arg);
334 int (*stop_service)(struct hns3_adapter *hns);
335 int (*prepare_reset)(struct hns3_adapter *hns);
336 int (*wait_hardware_ready)(struct hns3_adapter *hns);
337 int (*reinit_dev)(struct hns3_adapter *hns);
338 int (*restore_conf)(struct hns3_adapter *hns);
339 int (*start_service)(struct hns3_adapter *hns);
349 struct hns3_reset_data {
350 enum hns3_reset_stage stage;
351 rte_atomic16_t schedule;
352 /* Reset flag, covering the entire reset process */
353 rte_atomic16_t resetting;
354 /* Used to disable sending cmds during reset */
355 rte_atomic16_t disable_cmd;
356 /* The reset level being processed */
357 enum hns3_reset_level level;
358 /* Reset level set, each bit represents a reset level */
360 /* Request reset level set, from interrupt or mailbox */
362 int attempts; /* Reset failure retry */
363 int retries; /* Timeout failure retry in reset_post */
365 * At the time of global or IMP reset, the command cannot be sent to
366 * stop the tx/rx queues. Tx/Rx queues may be access mbuf during the
367 * reset process, so the mbuf is required to be released after the reset
368 * is completed.The mbuf_deferred_free is used to mark whether mbuf
369 * needs to be released.
371 bool mbuf_deferred_free;
372 struct timeval start_time;
373 struct hns3_reset_stats stats;
374 const struct hns3_reset_ops *ops;
375 struct hns3_wait_data *wait_data;
378 #define HNS3_INTR_MAPPING_VEC_RSV_ONE 0
379 #define HNS3_INTR_MAPPING_VEC_ALL 1
381 #define HNS3_INTR_COALESCE_GL_UINT_2US 0
382 #define HNS3_INTR_COALESCE_GL_UINT_1US 1
384 #define HNS3_INTR_QL_NONE 0
386 struct hns3_queue_intr {
388 * interrupt mapping mode.
390 * HNS3_INTR_MAPPING_VEC_RSV_ONE/HNS3_INTR_MAPPING_VEC_ALL
392 * - HNS3_INTR_MAPPING_VEC_RSV_ONE
393 * For some versions of hardware network engine, because of the
394 * hardware constraint, we need implement clearing the mapping
395 * relationship configurations by binding all queues to the last
396 * interrupt vector and reserving the last interrupt vector. This
397 * method results in a decrease of the maximum queues when upper
398 * applications call the rte_eth_dev_configure API function to
399 * enable Rx interrupt.
401 * - HNS3_INTR_MAPPING_VEC_ALL
402 * PMD driver can map/unmmap all interrupt vectors with queues When
403 * Rx interrupt in enabled.
405 uint8_t mapping_mode;
407 * The unit of GL(gap limiter) configuration for interrupt coalesce of
410 * HNS3_INTR_COALESCE_GL_UINT_2US/HNS3_INTR_COALESCE_GL_UINT_1US
413 /* The max QL(quantity limiter) value */
417 #define HNS3_TSO_SW_CAL_PSEUDO_H_CSUM 0
418 #define HNS3_TSO_HW_CAL_PSEUDO_H_CSUM 1
421 struct rte_eth_dev_data *data;
423 uint8_t revision; /* PCI revision, low byte of class word */
425 struct hns3_mbx_resp_status mbx_resp; /* mailbox response */
426 struct hns3_mbx_arq_ring arq; /* mailbox async rx queue */
427 pthread_t irq_thread_id;
429 unsigned int secondary_cnt; /* Number of secondary processes init'd. */
430 struct hns3_tqp_stats tqp_stats;
431 /* Include Mac stats | Rx stats | Tx stats */
432 struct hns3_mac_stats mac_stats;
436 uint16_t total_tqps_num; /* total task queue pairs of this PF */
437 uint16_t tqps_num; /* num task queue pairs of this function */
438 uint16_t intr_tqps_num; /* num queue pairs mapping interrupt */
439 uint16_t rss_size_max; /* HW defined max RSS task queue */
440 uint16_t rx_buf_len; /* hold min hardware rx buf len */
441 uint16_t num_tx_desc; /* desc num of per tx queue */
442 uint16_t num_rx_desc; /* desc num of per rx queue */
443 uint32_t mng_entry_num; /* number of manager table entry */
444 uint32_t mac_entry_num; /* number of mac-vlan table entry */
446 struct rte_ether_addr mc_addrs[HNS3_MC_MACADDR_NUM];
447 int mc_addrs_num; /* Multicast mac addresses number */
449 /* The configuration info of RSS */
450 struct hns3_rss_conf rss_info;
451 bool rss_dis_flag; /* disable rss flag. true: disable, false: enable */
452 uint16_t rss_ind_tbl_size;
453 uint16_t rss_key_size;
455 uint8_t num_tc; /* Total number of enabled TCs */
457 enum hns3_fc_mode current_mode;
458 enum hns3_fc_mode requested_mode;
459 struct hns3_dcb_info dcb_info;
460 enum hns3_fc_status current_fc_status; /* current flow control status */
461 struct hns3_tc_queue_info tc_queue[HNS3_MAX_TC_NUM];
462 uint16_t used_rx_queues;
463 uint16_t used_tx_queues;
465 /* Config max queue numbers between rx and tx queues from user */
466 uint16_t cfg_max_queues;
467 struct hns3_fake_queue_data fkq_data; /* fake queue data */
468 uint16_t alloc_rss_size; /* RX queue number per TC */
469 uint16_t tx_qnum_per_tc; /* TX queue number per TC */
472 uint32_t max_tm_rate;
474 * The minimum length of the packet supported by hardware in the Tx
477 uint32_t min_tx_pkt_len;
479 struct hns3_queue_intr intr;
483 * HNS3_TSO_SW_CAL_PSEUDO_H_CSUM/HNS3_TSO_HW_CAL_PSEUDO_H_CSUM
485 * - HNS3_TSO_SW_CAL_PSEUDO_H_CSUM
486 * In this mode, because of the hardware constraint, network driver
487 * software need erase the L4 len value of the TCP pseudo header
488 * and recalculate the TCP pseudo header checksum of packets that
491 * - HNS3_TSO_HW_CAL_PSEUDO_H_CSUM
492 * In this mode, hardware support recalculate the TCP pseudo header
493 * checksum of packets that need TSO, so network driver software
494 * not need to recalculate it.
500 * HNS3_SW_SHIFT_AND_DISCARD_MODE/HNS3_HW_SHFIT_AND_DISCARD_MODE
502 * - HNS3_SW_SHIFT_AND_DISCARD_MODE
503 * For some versions of hardware network engine, because of the
504 * hardware limitation, PMD driver needs to detect the PVID status
505 * to work with haredware to implement PVID-related functions.
506 * For example, driver need discard the stripped PVID tag to ensure
507 * the PVID will not report to mbuf and shift the inserted VLAN tag
508 * to avoid port based VLAN covering it.
510 * - HNS3_HW_SHIT_AND_DISCARD_MODE
511 * PMD driver does not need to process PVID-related functions in
512 * I/O process, Hardware will adjust the sequence between port based
513 * VLAN tag and BD VLAN tag automatically and VLAN tag stripped by
514 * PVID will be invisible to driver. And in this mode, hns3 is able
515 * to send a multi-layer VLAN packets when hw VLAN insert offload
522 * HNS3_UNLIMIT_PROMISC_MODE/HNS3_LIMIT_PROMISC_MODE
524 * - HNS3_UNLIMIT_PROMISC_MODE
525 * In this mode, TX unicast promisc will be configured when promisc
526 * is set, driver can receive all the ingress and outgoing traffic.
527 * In the words, all the ingress packets, all the packets sent from
528 * the PF and other VFs on the same physical port.
530 * - HNS3_LIMIT_PROMISC_MODE
531 * In this mode, TX unicast promisc is shutdown when promisc mode
532 * is set. So, driver will only receive all the ingress traffic.
533 * The packets sent from the PF and other VFs on the same physical
534 * port won't be copied to the function which has set promisc mode.
536 uint8_t promisc_mode;
537 uint8_t max_non_tso_bd_num; /* max BD number of one non-TSO packet */
539 struct hns3_port_base_vlan_config port_base_vlan_cfg;
541 * PMD setup and configuration is not thread safe. Since it is not
542 * performance sensitive, it is better to guarantee thread-safety
543 * and add device level lock. Adapter control operations which
544 * change its state should acquire the lock.
547 enum hns3_adapter_state adapter_state;
548 struct hns3_reset_data reset;
551 #define HNS3_FLAG_TC_BASE_SCH_MODE 1
552 #define HNS3_FLAG_VNET_BASE_SCH_MODE 2
554 struct hns3_err_msix_intr_stats {
555 uint64_t mac_afifo_tnl_int_cnt;
556 uint64_t ppu_mpf_abn_int_st2_msix_cnt;
557 uint64_t ssu_port_based_pf_int_cnt;
558 uint64_t ppp_pf_abnormal_int_cnt;
559 uint64_t ppu_pf_abnormal_int_msix_cnt;
561 uint64_t imp_tcm_ecc_int_cnt;
562 uint64_t cmdq_mem_ecc_int_cnt;
563 uint64_t imp_rd_poison_int_cnt;
564 uint64_t tqp_int_ecc_int_cnt;
565 uint64_t msix_ecc_int_cnt;
566 uint64_t ssu_ecc_multi_bit_int_0_cnt;
567 uint64_t ssu_ecc_multi_bit_int_1_cnt;
568 uint64_t ssu_common_ecc_int_cnt;
569 uint64_t igu_int_cnt;
570 uint64_t ppp_mpf_abnormal_int_st1_cnt;
571 uint64_t ppp_mpf_abnormal_int_st3_cnt;
572 uint64_t ppu_mpf_abnormal_int_st1_cnt;
573 uint64_t ppu_mpf_abn_int_st2_ras_cnt;
574 uint64_t ppu_mpf_abnormal_int_st3_cnt;
575 uint64_t tm_sch_int_cnt;
576 uint64_t qcn_fifo_int_cnt;
577 uint64_t qcn_ecc_int_cnt;
578 uint64_t ncsi_ecc_int_cnt;
579 uint64_t ssu_port_based_err_int_cnt;
580 uint64_t ssu_fifo_overflow_int_cnt;
581 uint64_t ssu_ets_tcg_int_cnt;
582 uint64_t igu_egu_tnl_int_cnt;
583 uint64_t ppu_pf_abnormal_int_ras_cnt;
586 /* vlan entry information. */
587 struct hns3_user_vlan_table {
588 LIST_ENTRY(hns3_user_vlan_table) next;
593 /* Vlan tag configuration for RX direction */
594 struct hns3_rx_vtag_cfg {
595 bool rx_vlan_offload_en; /* Whether enable rx vlan offload */
596 bool strip_tag1_en; /* Whether strip inner vlan tag */
597 bool strip_tag2_en; /* Whether strip outer vlan tag */
599 * If strip_tag_en is enabled, this bit decide whether to map the vlan
602 bool strip_tag1_discard_en;
603 bool strip_tag2_discard_en;
605 * If this bit is enabled, only map inner/outer priority to descriptor
606 * and the vlan tag is always 0.
608 bool vlan1_vlan_prionly;
609 bool vlan2_vlan_prionly;
612 /* Vlan tag configuration for TX direction */
613 struct hns3_tx_vtag_cfg {
614 bool accept_tag1; /* Whether accept tag1 packet from host */
615 bool accept_untag1; /* Whether accept untag1 packet from host */
618 bool insert_tag1_en; /* Whether insert outer vlan tag */
619 bool insert_tag2_en; /* Whether insert inner vlan tag */
621 * In shift mode, hw will shift the sequence of port based VLAN and
624 bool tag_shift_mode_en; /* hw shift vlan tag automatically */
625 uint16_t default_tag1; /* The default outer vlan tag to insert */
626 uint16_t default_tag2; /* The default inner vlan tag to insert */
629 struct hns3_vtag_cfg {
630 struct hns3_rx_vtag_cfg rx_vcfg;
631 struct hns3_tx_vtag_cfg tx_vcfg;
634 /* Request types for IPC. */
635 enum hns3_mp_req_type {
636 HNS3_MP_REQ_START_RXTX = 1,
637 HNS3_MP_REQ_STOP_RXTX,
641 /* Pameters for IPC. */
642 struct hns3_mp_param {
643 enum hns3_mp_req_type type;
648 /* Request timeout for IPC. */
649 #define HNS3_MP_REQ_TIMEOUT_SEC 5
651 /* Key string for IPC. */
652 #define HNS3_MP_NAME "net_hns3_mp"
654 #define HNS3_L2TBL_NUM 4
655 #define HNS3_L3TBL_NUM 16
656 #define HNS3_L4TBL_NUM 16
657 #define HNS3_OL2TBL_NUM 4
658 #define HNS3_OL3TBL_NUM 16
659 #define HNS3_OL4TBL_NUM 16
661 struct hns3_ptype_table {
662 uint32_t l2l3table[HNS3_L2TBL_NUM][HNS3_L3TBL_NUM];
663 uint32_t l4table[HNS3_L4TBL_NUM];
664 uint32_t inner_l2table[HNS3_L2TBL_NUM];
665 uint32_t inner_l3table[HNS3_L3TBL_NUM];
666 uint32_t inner_l4table[HNS3_L4TBL_NUM];
667 uint32_t ol2table[HNS3_OL2TBL_NUM];
668 uint32_t ol3table[HNS3_OL3TBL_NUM];
669 uint32_t ol4table[HNS3_OL4TBL_NUM];
672 #define HNS3_FIXED_MAX_TQP_NUM_MODE 0
673 #define HNS3_FLEX_MAX_TQP_NUM_MODE 1
676 struct hns3_adapter *adapter;
678 uint16_t func_num; /* num functions of this pf, include pf and vfs */
682 * tqp_config_mode value range:
683 * HNS3_FIXED_MAX_TQP_NUM_MODE,
684 * HNS3_FLEX_MAX_TQP_NUM_MODE
686 * - HNS3_FIXED_MAX_TQP_NUM_MODE
687 * There is a limitation on the number of pf interrupts available for
688 * on some versions of network engines. In this case, the maximum
689 * queue number of pf can not be greater than the interrupt number,
690 * such as pf of network engine with revision_id 0x21. So the maximum
691 * number of queues must be fixed.
693 * - HNS3_FLEX_MAX_TQP_NUM_MODE
694 * In this mode, the maximum queue number of pf has not any constraint
695 * and comes from the macro RTE_LIBRTE_HNS3_MAX_TQP_NUM_PER_PF
696 * in the config file. Users can modify the macro according to their
697 * own application scenarios, which is more flexible to use.
699 uint8_t tqp_config_mode;
701 uint32_t pkt_buf_size; /* Total pf buf size for tx/rx */
702 uint32_t tx_buf_size; /* Tx buffer size for each TC */
703 uint32_t dv_buf_size; /* Dv buffer size for each TC */
705 uint16_t mps; /* Max packet size */
708 uint8_t tc_max; /* max number of tc driver supported */
709 uint8_t local_max_tc; /* max number of local tc */
711 uint8_t prio_tc[HNS3_MAX_USER_PRIO]; /* TC indexed by prio */
713 bool support_fc_autoneg; /* support FC autonegotiate */
715 uint16_t wanted_umv_size;
716 uint16_t max_umv_size;
717 uint16_t used_umv_size;
719 /* Statistics information for abnormal interrupt */
720 struct hns3_err_msix_intr_stats abn_int_stats;
722 bool support_sfp_query;
723 uint32_t fec_mode; /* current FEC mode for ethdev */
725 struct hns3_vtag_cfg vtag_config;
726 LIST_HEAD(vlan_tbl, hns3_user_vlan_table) vlan_list;
728 struct hns3_fdir_info fdir; /* flow director info */
729 LIST_HEAD(counters, hns3_flow_counter) flow_counters;
733 struct hns3_adapter *adapter;
736 struct hns3_adapter {
739 /* Specific for PF or VF */
740 bool is_vf; /* false - PF, true - VF */
746 struct rte_eth_dev *eth_dev;
748 bool rx_simple_allowed;
750 bool tx_simple_allowed;
753 struct hns3_ptype_table ptype_tbl __rte_cache_min_aligned;
756 #define HNS3_DEV_SUPPORT_DCB_B 0x0
757 #define HNS3_DEV_SUPPORT_COPPER_B 0x1
758 #define HNS3_DEV_SUPPORT_UDP_GSO_B 0x2
759 #define HNS3_DEV_SUPPORT_FD_QUEUE_REGION_B 0x3
760 #define HNS3_DEV_SUPPORT_PTP_B 0x4
761 #define HNS3_DEV_SUPPORT_TX_PUSH_B 0x5
762 #define HNS3_DEV_SUPPORT_INDEP_TXRX_B 0x6
763 #define HNS3_DEV_SUPPORT_STASH_B 0x7
765 #define hns3_dev_dcb_supported(hw) \
766 hns3_get_bit((hw)->capability, HNS3_DEV_SUPPORT_DCB_B)
768 /* Support copper media type */
769 #define hns3_dev_copper_supported(hw) \
770 hns3_get_bit((hw)->capability, HNS3_DEV_SUPPORT_COPPER_B)
772 /* Support UDP GSO offload */
773 #define hns3_dev_udp_gso_supported(hw) \
774 hns3_get_bit((hw)->capability, HNS3_DEV_SUPPORT_UDP_GSO_B)
776 /* Support the queue region action rule of flow directory */
777 #define hns3_dev_fd_queue_region_supported(hw) \
778 hns3_get_bit((hw)->capability, HNS3_DEV_SUPPORT_FD_QUEUE_REGION_B)
780 /* Support PTP timestamp offload */
781 #define hns3_dev_ptp_supported(hw) \
782 hns3_get_bit((hw)->capability, HNS3_DEV_SUPPORT_PTP_B)
784 #define hns3_dev_tx_push_supported(hw) \
785 hns3_get_bit((hw)->capability, HNS3_DEV_SUPPORT_TX_PUSH_B)
787 /* Support to Independently enable/disable/reset Tx or Rx queues */
788 #define hns3_dev_indep_txrx_supported(hw) \
789 hns3_get_bit((hw)->capability, HNS3_DEV_SUPPORT_INDEP_TXRX_B)
791 #define hns3_dev_stash_supported(hw) \
792 hns3_get_bit((hw)->capability, HNS3_DEV_SUPPORT_STASH_B)
794 #define HNS3_DEV_PRIVATE_TO_HW(adapter) \
795 (&((struct hns3_adapter *)adapter)->hw)
796 #define HNS3_DEV_PRIVATE_TO_PF(adapter) \
797 (&((struct hns3_adapter *)adapter)->pf)
798 #define HNS3_DEV_HW_TO_ADAPTER(hw) \
799 container_of(hw, struct hns3_adapter, hw)
801 #define hns3_set_field(origin, mask, shift, val) \
803 (origin) &= (~(mask)); \
804 (origin) |= ((val) << (shift)) & (mask); \
806 #define hns3_get_field(origin, mask, shift) \
807 (((origin) & (mask)) >> (shift))
808 #define hns3_set_bit(origin, shift, val) \
809 hns3_set_field((origin), (0x1UL << (shift)), (shift), (val))
810 #define hns3_get_bit(origin, shift) \
811 hns3_get_field((origin), (0x1UL << (shift)), (shift))
813 #define hns3_gen_field_val(mask, shift, val) (((val) << (shift)) & (mask))
816 * upper_32_bits - return bits 32-63 of a number
817 * A basic shift-right of a 64- or 32-bit quantity. Use this to suppress
818 * the "right shift count >= width of type" warning when that quantity is
821 #define upper_32_bits(n) ((uint32_t)(((n) >> 16) >> 16))
823 /* lower_32_bits - return bits 0-31 of a number */
824 #define lower_32_bits(n) ((uint32_t)(n))
826 #define BIT(nr) (1UL << (nr))
828 #define BIT_ULL(x) (1ULL << (x))
830 #define BITS_PER_LONG (__SIZEOF_LONG__ * 8)
831 #define GENMASK(h, l) \
832 (((~0UL) << (l)) & (~0UL >> (BITS_PER_LONG - 1 - (h))))
834 #define roundup(x, y) ((((x) + ((y) - 1)) / (y)) * (y))
835 #define rounddown(x, y) ((x) - ((x) % (y)))
837 #define DIV_ROUND_UP(n, d) (((n) + (d) - 1) / (d))
840 * Because hardware always access register in little-endian mode based on hns3
841 * network engine, so driver should also call rte_cpu_to_le_32 to convert data
842 * in little-endian mode before writing register and call rte_le_to_cpu_32 to
843 * convert data after reading from register.
845 * Here the driver encapsulates the data conversion operation in the register
846 * read/write operation function as below:
850 * Therefore, when calling these functions, conversion is not required again.
852 static inline void hns3_write_reg(void *base, uint32_t reg, uint32_t value)
854 rte_write32(rte_cpu_to_le_32(value),
855 (volatile void *)((char *)base + reg));
859 * The optimized function for writing registers used in the '.rx_pkt_burst' and
860 * '.tx_pkt_burst' ops implementation function.
862 static inline void hns3_write_reg_opt(volatile void *addr, uint32_t value)
865 rte_write32_relaxed(rte_cpu_to_le_32(value), addr);
868 static inline uint32_t hns3_read_reg(void *base, uint32_t reg)
870 uint32_t read_val = rte_read32((volatile void *)((char *)base + reg));
871 return rte_le_to_cpu_32(read_val);
874 #define hns3_write_dev(a, reg, value) \
875 hns3_write_reg((a)->io_base, (reg), (value))
877 #define hns3_read_dev(a, reg) \
878 hns3_read_reg((a)->io_base, (reg))
880 #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
882 #define NEXT_ITEM_OF_ACTION(act, actions, index) \
884 act = (actions) + (index); \
885 while (act->type == RTE_FLOW_ACTION_TYPE_VOID) { \
887 act = actions + index; \
891 #define MSEC_PER_SEC 1000L
892 #define USEC_PER_MSEC 1000L
894 static inline uint64_t
895 get_timeofday_ms(void)
899 (void)gettimeofday(&tv, NULL);
901 return (uint64_t)tv.tv_sec * MSEC_PER_SEC + tv.tv_usec / USEC_PER_MSEC;
904 static inline uint64_t
905 hns3_atomic_test_bit(unsigned int nr, volatile uint64_t *addr)
909 res = (__atomic_load_n(addr, __ATOMIC_RELAXED) & (1UL << nr)) != 0;
914 hns3_atomic_set_bit(unsigned int nr, volatile uint64_t *addr)
916 __atomic_fetch_or(addr, (1UL << nr), __ATOMIC_RELAXED);
920 hns3_atomic_clear_bit(unsigned int nr, volatile uint64_t *addr)
922 __atomic_fetch_and(addr, ~(1UL << nr), __ATOMIC_RELAXED);
925 static inline int64_t
926 hns3_test_and_clear_bit(unsigned int nr, volatile uint64_t *addr)
928 uint64_t mask = (1UL << nr);
930 return __atomic_fetch_and(addr, ~mask, __ATOMIC_RELAXED) & mask;
933 int hns3_buffer_alloc(struct hns3_hw *hw);
934 int hns3_dev_filter_ctrl(struct rte_eth_dev *dev,
935 enum rte_filter_type filter_type,
936 enum rte_filter_op filter_op, void *arg);
937 bool hns3_is_reset_pending(struct hns3_adapter *hns);
938 bool hns3vf_is_reset_pending(struct hns3_adapter *hns);
939 void hns3_update_link_status(struct hns3_hw *hw);
940 void hns3_ether_format_addr(char *buf, uint16_t size,
941 const struct rte_ether_addr *ether_addr);
944 is_reset_pending(struct hns3_adapter *hns)
948 ret = hns3vf_is_reset_pending(hns);
950 ret = hns3_is_reset_pending(hns);
954 static inline uint64_t
955 hns3_txvlan_cap_get(struct hns3_hw *hw)
957 if (hw->port_base_vlan_cfg.state)
958 return DEV_TX_OFFLOAD_VLAN_INSERT;
960 return DEV_TX_OFFLOAD_VLAN_INSERT | DEV_TX_OFFLOAD_QINQ_INSERT;
963 #endif /* _HNS3_ETHDEV_H_ */