1 /* SPDX-License-Identifier: GPL-2.0 or BSD-3-Clause */ 2 3 /* Authors: Bernard Metzler <bmt@zurich.ibm.com> */ 4 /* Copyright (c) 2008-2019, IBM Corporation */ 5 6 #ifndef _SIW_H 7 #define _SIW_H 8 9 #include <rdma/ib_verbs.h> 10 #include <rdma/restrack.h> 11 #include <linux/socket.h> 12 #include <linux/skbuff.h> 13 #include <crypto/hash.h> 14 #include <linux/crc32.h> 15 #include <linux/crc32c.h> 16 17 #include <rdma/siw-abi.h> 18 #include "iwarp.h" 19 20 #define SIW_VENDOR_ID 0x626d74 /* ascii 'bmt' for now */ 21 #define SIW_VENDORT_PART_ID 0 22 #define SIW_MAX_QP (1024 * 100) 23 #define SIW_MAX_QP_WR (1024 * 32) 24 #define SIW_MAX_ORD_QP 128 25 #define SIW_MAX_IRD_QP 128 26 #define SIW_MAX_SGE_PBL 256 /* max num sge's for PBL */ 27 #define SIW_MAX_SGE_RD 1 /* iwarp limitation. we could relax */ 28 #define SIW_MAX_CQ (1024 * 100) 29 #define SIW_MAX_CQE (SIW_MAX_QP_WR * 100) 30 #define SIW_MAX_MR (SIW_MAX_QP * 10) 31 #define SIW_MAX_PD SIW_MAX_QP 32 #define SIW_MAX_MW 0 /* to be set if MW's are supported */ 33 #define SIW_MAX_SRQ SIW_MAX_QP 34 #define SIW_MAX_SRQ_WR (SIW_MAX_QP_WR * 10) 35 #define SIW_MAX_CONTEXT SIW_MAX_PD 36 37 /* Min number of bytes for using zero copy transmit */ 38 #define SENDPAGE_THRESH PAGE_SIZE 39 40 /* Maximum number of frames which can be send in one SQ processing */ 41 #define SQ_USER_MAXBURST 100 42 43 /* Maximum number of consecutive IRQ elements which get served 44 * if SQ has pending work. Prevents starving local SQ processing 45 * by serving peer Read Requests. 46 */ 47 #define SIW_IRQ_MAXBURST_SQ_ACTIVE 4 48 49 struct siw_dev_cap { 50 int max_qp; 51 int max_qp_wr; 52 int max_ord; /* max. outbound read queue depth */ 53 int max_ird; /* max. inbound read queue depth */ 54 int max_sge; 55 int max_sge_rd; 56 int max_cq; 57 int max_cqe; 58 int max_mr; 59 int max_pd; 60 int max_mw; 61 int max_srq; 62 int max_srq_wr; 63 int max_srq_sge; 64 }; 65 66 struct siw_pd { 67 struct ib_pd base_pd; 68 }; 69 70 struct siw_device { 71 struct ib_device base_dev; 72 struct net_device *netdev; 73 struct siw_dev_cap attrs; 74 75 u32 vendor_part_id; 76 int numa_node; 77 78 /* physical port state (only one port per device) */ 79 enum ib_port_state state; 80 81 spinlock_t lock; 82 83 struct xarray qp_xa; 84 struct xarray mem_xa; 85 86 struct list_head cep_list; 87 struct list_head qp_list; 88 89 /* active objects statistics to enforce limits */ 90 atomic_t num_qp; 91 atomic_t num_cq; 92 atomic_t num_pd; 93 atomic_t num_mr; 94 atomic_t num_srq; 95 atomic_t num_ctx; 96 97 struct work_struct netdev_down; 98 }; 99 100 struct siw_ucontext { 101 struct ib_ucontext base_ucontext; 102 struct siw_device *sdev; 103 }; 104 105 /* 106 * The RDMA core does not define LOCAL_READ access, which is always 107 * enabled implictely. 108 */ 109 #define IWARP_ACCESS_MASK \ 110 (IB_ACCESS_LOCAL_WRITE | IB_ACCESS_REMOTE_WRITE | \ 111 IB_ACCESS_REMOTE_READ) 112 113 /* 114 * siw presentation of user memory registered as source 115 * or target of RDMA operations. 116 */ 117 118 struct siw_page_chunk { 119 struct page **plist; 120 }; 121 122 struct siw_umem { 123 struct siw_page_chunk *page_chunk; 124 int num_pages; 125 bool writable; 126 u64 fp_addr; /* First page base address */ 127 struct mm_struct *owning_mm; 128 }; 129 130 struct siw_pble { 131 dma_addr_t addr; /* Address of assigned buffer */ 132 unsigned int size; /* Size of this entry */ 133 unsigned long pbl_off; /* Total offset from start of PBL */ 134 }; 135 136 struct siw_pbl { 137 unsigned int num_buf; 138 unsigned int max_buf; 139 struct siw_pble pbe[]; 140 }; 141 142 /* 143 * Generic memory representation for registered siw memory. 144 * Memory lookup always via higher 24 bit of STag (STag index). 145 */ 146 struct siw_mem { 147 struct siw_device *sdev; 148 struct kref ref; 149 u64 va; /* VA of memory */ 150 u64 len; /* length of the memory buffer in bytes */ 151 u32 stag; /* iWarp memory access steering tag */ 152 u8 stag_valid; /* VALID or INVALID */ 153 u8 is_pbl; /* PBL or user space mem */ 154 u8 is_mw; /* Memory Region or Memory Window */ 155 enum ib_access_flags perms; /* local/remote READ & WRITE */ 156 union { 157 struct siw_umem *umem; 158 struct siw_pbl *pbl; 159 void *mem_obj; 160 }; 161 struct ib_pd *pd; 162 }; 163 164 struct siw_mr { 165 struct ib_mr base_mr; 166 struct siw_mem *mem; 167 struct rcu_head rcu; 168 }; 169 170 /* 171 * Error codes for local or remote 172 * access to registered memory 173 */ 174 enum siw_access_state { 175 E_ACCESS_OK, 176 E_STAG_INVALID, 177 E_BASE_BOUNDS, 178 E_ACCESS_PERM, 179 E_PD_MISMATCH 180 }; 181 182 enum siw_wr_state { 183 SIW_WR_IDLE, 184 SIW_WR_QUEUED, /* processing has not started yet */ 185 SIW_WR_INPROGRESS /* initiated processing of the WR */ 186 }; 187 188 /* The WQE currently being processed (RX or TX) */ 189 struct siw_wqe { 190 /* Copy of applications SQE or RQE */ 191 union { 192 struct siw_sqe sqe; 193 struct siw_rqe rqe; 194 }; 195 struct siw_mem *mem[SIW_MAX_SGE]; /* per sge's resolved mem */ 196 enum siw_wr_state wr_status; 197 enum siw_wc_status wc_status; 198 u32 bytes; /* total bytes to process */ 199 u32 processed; /* bytes processed */ 200 }; 201 202 struct siw_cq { 203 struct ib_cq base_cq; 204 spinlock_t lock; 205 struct siw_cq_ctrl *notify; 206 struct siw_cqe *queue; 207 u32 cq_put; 208 u32 cq_get; 209 u32 num_cqe; 210 struct rdma_user_mmap_entry *cq_entry; /* mmap info for CQE array */ 211 u32 id; /* For debugging only */ 212 }; 213 214 enum siw_qp_state { 215 SIW_QP_STATE_IDLE, 216 SIW_QP_STATE_RTR, 217 SIW_QP_STATE_RTS, 218 SIW_QP_STATE_CLOSING, 219 SIW_QP_STATE_TERMINATE, 220 SIW_QP_STATE_ERROR, 221 SIW_QP_STATE_COUNT 222 }; 223 224 enum siw_qp_flags { 225 SIW_RDMA_BIND_ENABLED = (1 << 0), 226 SIW_RDMA_WRITE_ENABLED = (1 << 1), 227 SIW_RDMA_READ_ENABLED = (1 << 2), 228 SIW_SIGNAL_ALL_WR = (1 << 3), 229 SIW_MPA_CRC = (1 << 4), 230 SIW_QP_IN_DESTROY = (1 << 5) 231 }; 232 233 enum siw_qp_attr_mask { 234 SIW_QP_ATTR_STATE = (1 << 0), 235 SIW_QP_ATTR_ACCESS_FLAGS = (1 << 1), 236 SIW_QP_ATTR_LLP_HANDLE = (1 << 2), 237 SIW_QP_ATTR_ORD = (1 << 3), 238 SIW_QP_ATTR_IRD = (1 << 4), 239 SIW_QP_ATTR_SQ_SIZE = (1 << 5), 240 SIW_QP_ATTR_RQ_SIZE = (1 << 6), 241 SIW_QP_ATTR_MPA = (1 << 7) 242 }; 243 244 struct siw_srq { 245 struct ib_srq base_srq; 246 spinlock_t lock; 247 u32 max_sge; 248 u32 limit; /* low watermark for async event */ 249 struct siw_rqe *recvq; 250 u32 rq_put; 251 u32 rq_get; 252 u32 num_rqe; /* max # of wqe's allowed */ 253 struct rdma_user_mmap_entry *srq_entry; /* mmap info for SRQ array */ 254 bool armed:1; /* inform user if limit hit */ 255 bool is_kernel_res:1; /* true if kernel client */ 256 }; 257 258 struct siw_qp_attrs { 259 enum siw_qp_state state; 260 u32 sq_size; 261 u32 rq_size; 262 u32 orq_size; 263 u32 irq_size; 264 u32 sq_max_sges; 265 u32 rq_max_sges; 266 enum siw_qp_flags flags; 267 268 struct socket *sk; 269 }; 270 271 enum siw_tx_ctx { 272 SIW_SEND_HDR, /* start or continue sending HDR */ 273 SIW_SEND_DATA, /* start or continue sending DDP payload */ 274 SIW_SEND_TRAILER, /* start or continue sending TRAILER */ 275 SIW_SEND_SHORT_FPDU/* send whole FPDU hdr|data|trailer at once */ 276 }; 277 278 enum siw_rx_state { 279 SIW_GET_HDR, /* await new hdr or within hdr */ 280 SIW_GET_DATA_START, /* start of inbound DDP payload */ 281 SIW_GET_DATA_MORE, /* continuation of (misaligned) DDP payload */ 282 SIW_GET_TRAILER/* await new trailer or within trailer */ 283 }; 284 285 struct siw_rx_stream { 286 struct sk_buff *skb; 287 int skb_new; /* pending unread bytes in skb */ 288 int skb_offset; /* offset in skb */ 289 int skb_copied; /* processed bytes in skb */ 290 291 union iwarp_hdr hdr; 292 struct mpa_trailer trailer; 293 294 enum siw_rx_state state; 295 296 /* 297 * For each FPDU, main RX loop runs through 3 stages: 298 * Receiving protocol headers, placing DDP payload and receiving 299 * trailer information (CRC + possibly padding). 300 * Next two variables keep state on receive status of the 301 * current FPDU part (hdr, data, trailer). 302 */ 303 int fpdu_part_rcvd; /* bytes in pkt part copied */ 304 int fpdu_part_rem; /* bytes in pkt part not seen */ 305 306 /* 307 * Next expected DDP MSN for each QN + 308 * expected steering tag + 309 * expected DDP tagget offset (all HBO) 310 */ 311 u32 ddp_msn[RDMAP_UNTAGGED_QN_COUNT]; 312 u32 ddp_stag; 313 u64 ddp_to; 314 u32 inval_stag; /* Stag to be invalidated */ 315 316 struct shash_desc *mpa_crc_hd; 317 u8 rx_suspend : 1; 318 u8 pad : 2; /* # of pad bytes expected */ 319 u8 rdmap_op : 4; /* opcode of current frame */ 320 }; 321 322 struct siw_rx_fpdu { 323 /* 324 * Local destination memory of inbound RDMA operation. 325 * Valid, according to wqe->wr_status 326 */ 327 struct siw_wqe wqe_active; 328 329 unsigned int pbl_idx; /* Index into current PBL */ 330 unsigned int sge_idx; /* current sge in rx */ 331 unsigned int sge_off; /* already rcvd in curr. sge */ 332 333 char first_ddp_seg; /* this is the first DDP seg */ 334 char more_ddp_segs; /* more DDP segs expected */ 335 u8 prev_rdmap_op : 4; /* opcode of prev frame */ 336 }; 337 338 /* 339 * Shorthands for short packets w/o payload 340 * to be transmitted more efficient. 341 */ 342 struct siw_send_pkt { 343 struct iwarp_send send; 344 __be32 crc; 345 }; 346 347 struct siw_write_pkt { 348 struct iwarp_rdma_write write; 349 __be32 crc; 350 }; 351 352 struct siw_rreq_pkt { 353 struct iwarp_rdma_rreq rreq; 354 __be32 crc; 355 }; 356 357 struct siw_rresp_pkt { 358 struct iwarp_rdma_rresp rresp; 359 __be32 crc; 360 }; 361 362 struct siw_iwarp_tx { 363 union { 364 union iwarp_hdr hdr; 365 366 /* Generic part of FPDU header */ 367 struct iwarp_ctrl ctrl; 368 struct iwarp_ctrl_untagged c_untagged; 369 struct iwarp_ctrl_tagged c_tagged; 370 371 /* FPDU headers */ 372 struct iwarp_rdma_write rwrite; 373 struct iwarp_rdma_rreq rreq; 374 struct iwarp_rdma_rresp rresp; 375 struct iwarp_terminate terminate; 376 struct iwarp_send send; 377 struct iwarp_send_inv send_inv; 378 379 /* complete short FPDUs */ 380 struct siw_send_pkt send_pkt; 381 struct siw_write_pkt write_pkt; 382 struct siw_rreq_pkt rreq_pkt; 383 struct siw_rresp_pkt rresp_pkt; 384 } pkt; 385 386 struct mpa_trailer trailer; 387 /* DDP MSN for untagged messages */ 388 u32 ddp_msn[RDMAP_UNTAGGED_QN_COUNT]; 389 390 enum siw_tx_ctx state; 391 u16 ctrl_len; /* ddp+rdmap hdr */ 392 u16 ctrl_sent; 393 int burst; 394 int bytes_unsent; /* ddp payload bytes */ 395 396 struct shash_desc *mpa_crc_hd; 397 398 u8 do_crc : 1; /* do crc for segment */ 399 u8 use_sendpage : 1; /* send w/o copy */ 400 u8 tx_suspend : 1; /* stop sending DDP segs. */ 401 u8 pad : 2; /* # pad in current fpdu */ 402 u8 orq_fence : 1; /* ORQ full or Send fenced */ 403 u8 in_syscall : 1; /* TX out of user context */ 404 u8 zcopy_tx : 1; /* Use TCP_SENDPAGE if possible */ 405 u8 gso_seg_limit; /* Maximum segments for GSO, 0 = unbound */ 406 407 u16 fpdu_len; /* len of FPDU to tx */ 408 unsigned int tcp_seglen; /* remaining tcp seg space */ 409 410 struct siw_wqe wqe_active; 411 412 int pbl_idx; /* Index into current PBL */ 413 int sge_idx; /* current sge in tx */ 414 u32 sge_off; /* already sent in curr. sge */ 415 }; 416 417 struct siw_qp { 418 struct ib_qp base_qp; 419 struct siw_device *sdev; 420 struct kref ref; 421 struct completion qp_free; 422 struct list_head devq; 423 int tx_cpu; 424 struct siw_qp_attrs attrs; 425 426 struct siw_cep *cep; 427 struct rw_semaphore state_lock; 428 429 struct ib_pd *pd; 430 struct siw_cq *scq; 431 struct siw_cq *rcq; 432 struct siw_srq *srq; 433 434 struct siw_iwarp_tx tx_ctx; /* Transmit context */ 435 spinlock_t sq_lock; 436 struct siw_sqe *sendq; /* send queue element array */ 437 uint32_t sq_get; /* consumer index into sq array */ 438 uint32_t sq_put; /* kernel prod. index into sq array */ 439 struct llist_node tx_list; 440 441 struct siw_sqe *orq; /* outbound read queue element array */ 442 spinlock_t orq_lock; 443 uint32_t orq_get; /* consumer index into orq array */ 444 uint32_t orq_put; /* shared producer index for ORQ */ 445 446 struct siw_rx_stream rx_stream; 447 struct siw_rx_fpdu *rx_fpdu; 448 struct siw_rx_fpdu rx_tagged; 449 struct siw_rx_fpdu rx_untagged; 450 spinlock_t rq_lock; 451 struct siw_rqe *recvq; /* recv queue element array */ 452 uint32_t rq_get; /* consumer index into rq array */ 453 uint32_t rq_put; /* kernel prod. index into rq array */ 454 455 struct siw_sqe *irq; /* inbound read queue element array */ 456 uint32_t irq_get; /* consumer index into irq array */ 457 uint32_t irq_put; /* producer index into irq array */ 458 int irq_burst; 459 460 struct { /* information to be carried in TERMINATE pkt, if valid */ 461 u8 valid; 462 u8 in_tx; 463 u8 layer : 4, etype : 4; 464 u8 ecode; 465 } term_info; 466 struct rdma_user_mmap_entry *sq_entry; /* mmap info for SQE array */ 467 struct rdma_user_mmap_entry *rq_entry; /* mmap info for RQE array */ 468 struct rcu_head rcu; 469 }; 470 471 /* helper macros */ 472 #define rx_qp(rx) container_of(rx, struct siw_qp, rx_stream) 473 #define tx_qp(tx) container_of(tx, struct siw_qp, tx_ctx) 474 #define tx_wqe(qp) (&(qp)->tx_ctx.wqe_active) 475 #define rx_wqe(rctx) (&(rctx)->wqe_active) 476 #define rx_mem(rctx) ((rctx)->wqe_active.mem[0]) 477 #define tx_type(wqe) ((wqe)->sqe.opcode) 478 #define rx_type(wqe) ((wqe)->rqe.opcode) 479 #define tx_flags(wqe) ((wqe)->sqe.flags) 480 481 struct iwarp_msg_info { 482 int hdr_len; 483 struct iwarp_ctrl ctrl; 484 int (*rx_data)(struct siw_qp *qp); 485 }; 486 487 struct siw_user_mmap_entry { 488 struct rdma_user_mmap_entry rdma_entry; 489 void *address; 490 }; 491 492 /* Global siw parameters. Currently set in siw_main.c */ 493 extern const bool zcopy_tx; 494 extern const bool try_gso; 495 extern const bool loopback_enabled; 496 extern const bool mpa_crc_required; 497 extern const bool mpa_crc_strict; 498 extern const bool siw_tcp_nagle; 499 extern u_char mpa_version; 500 extern const bool peer_to_peer; 501 extern struct task_struct *siw_tx_thread[]; 502 503 extern struct crypto_shash *siw_crypto_shash; 504 extern struct iwarp_msg_info iwarp_pktinfo[RDMAP_TERMINATE + 1]; 505 506 /* QP general functions */ 507 int siw_qp_modify(struct siw_qp *qp, struct siw_qp_attrs *attr, 508 enum siw_qp_attr_mask mask); 509 int siw_qp_mpa_rts(struct siw_qp *qp, enum mpa_v2_ctrl ctrl); 510 void siw_qp_llp_close(struct siw_qp *qp); 511 void siw_qp_cm_drop(struct siw_qp *qp, int schedule); 512 void siw_send_terminate(struct siw_qp *qp); 513 514 void siw_qp_get_ref(struct ib_qp *qp); 515 void siw_qp_put_ref(struct ib_qp *qp); 516 int siw_qp_add(struct siw_device *sdev, struct siw_qp *qp); 517 void siw_free_qp(struct kref *ref); 518 519 void siw_init_terminate(struct siw_qp *qp, enum term_elayer layer, 520 u8 etype, u8 ecode, int in_tx); 521 enum ddp_ecode siw_tagged_error(enum siw_access_state state); 522 enum rdmap_ecode siw_rdmap_error(enum siw_access_state state); 523 524 void siw_read_to_orq(struct siw_sqe *rreq, struct siw_sqe *sqe); 525 int siw_sqe_complete(struct siw_qp *qp, struct siw_sqe *sqe, u32 bytes, 526 enum siw_wc_status status); 527 int siw_rqe_complete(struct siw_qp *qp, struct siw_rqe *rqe, u32 bytes, 528 u32 inval_stag, enum siw_wc_status status); 529 void siw_qp_llp_data_ready(struct sock *sk); 530 void siw_qp_llp_write_space(struct sock *sk); 531 532 /* QP TX path functions */ 533 int siw_run_sq(void *arg); 534 int siw_qp_sq_process(struct siw_qp *qp); 535 int siw_sq_start(struct siw_qp *qp); 536 int siw_activate_tx(struct siw_qp *qp); 537 void siw_stop_tx_thread(int nr_cpu); 538 int siw_get_tx_cpu(struct siw_device *sdev); 539 void siw_put_tx_cpu(int cpu); 540 541 /* QP RX path functions */ 542 int siw_proc_send(struct siw_qp *qp); 543 int siw_proc_rreq(struct siw_qp *qp); 544 int siw_proc_rresp(struct siw_qp *qp); 545 int siw_proc_write(struct siw_qp *qp); 546 int siw_proc_terminate(struct siw_qp *qp); 547 548 int siw_tcp_rx_data(read_descriptor_t *rd_desc, struct sk_buff *skb, 549 unsigned int off, size_t len); 550 551 static inline void set_rx_fpdu_context(struct siw_qp *qp, u8 opcode) 552 { 553 if (opcode == RDMAP_RDMA_WRITE || opcode == RDMAP_RDMA_READ_RESP) 554 qp->rx_fpdu = &qp->rx_tagged; 555 else 556 qp->rx_fpdu = &qp->rx_untagged; 557 558 qp->rx_stream.rdmap_op = opcode; 559 } 560 561 static inline struct siw_ucontext *to_siw_ctx(struct ib_ucontext *base_ctx) 562 { 563 return container_of(base_ctx, struct siw_ucontext, base_ucontext); 564 } 565 566 static inline struct siw_qp *to_siw_qp(struct ib_qp *base_qp) 567 { 568 return container_of(base_qp, struct siw_qp, base_qp); 569 } 570 571 static inline struct siw_cq *to_siw_cq(struct ib_cq *base_cq) 572 { 573 return container_of(base_cq, struct siw_cq, base_cq); 574 } 575 576 static inline struct siw_srq *to_siw_srq(struct ib_srq *base_srq) 577 { 578 return container_of(base_srq, struct siw_srq, base_srq); 579 } 580 581 static inline struct siw_device *to_siw_dev(struct ib_device *base_dev) 582 { 583 return container_of(base_dev, struct siw_device, base_dev); 584 } 585 586 static inline struct siw_mr *to_siw_mr(struct ib_mr *base_mr) 587 { 588 return container_of(base_mr, struct siw_mr, base_mr); 589 } 590 591 static inline struct siw_user_mmap_entry * 592 to_siw_mmap_entry(struct rdma_user_mmap_entry *rdma_mmap) 593 { 594 return container_of(rdma_mmap, struct siw_user_mmap_entry, rdma_entry); 595 } 596 597 static inline struct siw_qp *siw_qp_id2obj(struct siw_device *sdev, int id) 598 { 599 struct siw_qp *qp; 600 601 rcu_read_lock(); 602 qp = xa_load(&sdev->qp_xa, id); 603 if (likely(qp && kref_get_unless_zero(&qp->ref))) { 604 rcu_read_unlock(); 605 return qp; 606 } 607 rcu_read_unlock(); 608 return NULL; 609 } 610 611 static inline u32 qp_id(struct siw_qp *qp) 612 { 613 return qp->base_qp.qp_num; 614 } 615 616 static inline void siw_qp_get(struct siw_qp *qp) 617 { 618 kref_get(&qp->ref); 619 } 620 621 static inline void siw_qp_put(struct siw_qp *qp) 622 { 623 kref_put(&qp->ref, siw_free_qp); 624 } 625 626 static inline int siw_sq_empty(struct siw_qp *qp) 627 { 628 struct siw_sqe *sqe = &qp->sendq[qp->sq_get % qp->attrs.sq_size]; 629 630 return READ_ONCE(sqe->flags) == 0; 631 } 632 633 static inline struct siw_sqe *sq_get_next(struct siw_qp *qp) 634 { 635 struct siw_sqe *sqe = &qp->sendq[qp->sq_get % qp->attrs.sq_size]; 636 637 if (READ_ONCE(sqe->flags) & SIW_WQE_VALID) 638 return sqe; 639 640 return NULL; 641 } 642 643 static inline struct siw_sqe *orq_get_current(struct siw_qp *qp) 644 { 645 return &qp->orq[qp->orq_get % qp->attrs.orq_size]; 646 } 647 648 static inline struct siw_sqe *orq_get_free(struct siw_qp *qp) 649 { 650 struct siw_sqe *orq_e = &qp->orq[qp->orq_put % qp->attrs.orq_size]; 651 652 if (READ_ONCE(orq_e->flags) == 0) 653 return orq_e; 654 655 return NULL; 656 } 657 658 static inline int siw_orq_empty(struct siw_qp *qp) 659 { 660 return qp->orq[qp->orq_get % qp->attrs.orq_size].flags == 0 ? 1 : 0; 661 } 662 663 static inline struct siw_sqe *irq_alloc_free(struct siw_qp *qp) 664 { 665 struct siw_sqe *irq_e = &qp->irq[qp->irq_put % qp->attrs.irq_size]; 666 667 if (READ_ONCE(irq_e->flags) == 0) { 668 qp->irq_put++; 669 return irq_e; 670 } 671 return NULL; 672 } 673 674 static inline __wsum siw_csum_update(const void *buff, int len, __wsum sum) 675 { 676 return (__force __wsum)crc32c((__force __u32)sum, buff, len); 677 } 678 679 static inline __wsum siw_csum_combine(__wsum csum, __wsum csum2, int offset, 680 int len) 681 { 682 return (__force __wsum)__crc32c_le_combine((__force __u32)csum, 683 (__force __u32)csum2, len); 684 } 685 686 static inline void siw_crc_skb(struct siw_rx_stream *srx, unsigned int len) 687 { 688 const struct skb_checksum_ops siw_cs_ops = { 689 .update = siw_csum_update, 690 .combine = siw_csum_combine, 691 }; 692 __wsum crc = *(u32 *)shash_desc_ctx(srx->mpa_crc_hd); 693 694 crc = __skb_checksum(srx->skb, srx->skb_offset, len, crc, 695 &siw_cs_ops); 696 *(u32 *)shash_desc_ctx(srx->mpa_crc_hd) = crc; 697 } 698 699 #define siw_dbg(ibdev, fmt, ...) \ 700 ibdev_dbg(ibdev, "%s: " fmt, __func__, ##__VA_ARGS__) 701 702 #define siw_dbg_qp(qp, fmt, ...) \ 703 ibdev_dbg(&qp->sdev->base_dev, "QP[%u] %s: " fmt, qp_id(qp), __func__, \ 704 ##__VA_ARGS__) 705 706 #define siw_dbg_cq(cq, fmt, ...) \ 707 ibdev_dbg(cq->base_cq.device, "CQ[%u] %s: " fmt, cq->id, __func__, \ 708 ##__VA_ARGS__) 709 710 #define siw_dbg_pd(pd, fmt, ...) \ 711 ibdev_dbg(pd->device, "PD[%u] %s: " fmt, pd->res.id, __func__, \ 712 ##__VA_ARGS__) 713 714 #define siw_dbg_mem(mem, fmt, ...) \ 715 ibdev_dbg(&mem->sdev->base_dev, \ 716 "MEM[0x%08x] %s: " fmt, mem->stag, __func__, ##__VA_ARGS__) 717 718 #define siw_dbg_cep(cep, fmt, ...) \ 719 ibdev_dbg(&cep->sdev->base_dev, "CEP[0x%pK] %s: " fmt, \ 720 cep, __func__, ##__VA_ARGS__) 721 722 void siw_cq_flush(struct siw_cq *cq); 723 void siw_sq_flush(struct siw_qp *qp); 724 void siw_rq_flush(struct siw_qp *qp); 725 int siw_reap_cqe(struct siw_cq *cq, struct ib_wc *wc); 726 727 #endif 728