1 /* 2 * Copyright (c) 2013-2018 The Linux Foundation. All rights reserved. 3 * 4 * Permission to use, copy, modify, and/or distribute this software for 5 * any purpose with or without fee is hereby granted, provided that the 6 * above copyright notice and this permission notice appear in all 7 * copies. 8 * 9 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL 10 * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED 11 * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE 12 * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL 13 * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR 14 * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER 15 * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR 16 * PERFORMANCE OF THIS SOFTWARE. 17 */ 18 19 #ifndef __COPY_ENGINE_API_H__ 20 #define __COPY_ENGINE_API_H__ 21 22 #include "pld_common.h" 23 #include "ce_main.h" 24 #include "hif_main.h" 25 26 /* TBDXXX: Use int return values for consistency with Target */ 27 28 /* TBDXXX: Perhaps merge Host/Target-->common */ 29 30 /* 31 * Copy Engine support: low-level Target-side Copy Engine API. 32 * This is a hardware access layer used by code that understands 33 * how to use copy engines. 34 */ 35 36 /* 37 * A "struct CE_handle *" serves as an opaque pointer-sized 38 * handle to a specific copy engine. 39 */ 40 struct CE_handle; 41 42 /* 43 * "Send Completion" callback type for Send Completion Notification. 44 * 45 * If a Send Completion callback is registered and one or more sends 46 * have completed, the callback is invoked. 47 * 48 * per_ce_send_context is a context supplied by the calling layer 49 * (via ce_send_cb_register). It is associated with a copy engine. 50 * 51 * per_transfer_send_context is context supplied by the calling layer 52 * (via the "send" call). It may be different for each invocation 53 * of send. 54 * 55 * The buffer parameter is the first byte sent of the first buffer 56 * sent (if more than one buffer). 57 * 58 * nbytes is the number of bytes of that buffer that were sent. 59 * 60 * transfer_id matches the value used when the buffer or 61 * buf_list was sent. 62 * 63 * Implementation note: Pops 1 completed send buffer from Source ring 64 */ 65 typedef void (*ce_send_cb)(struct CE_handle *copyeng, 66 void *per_ce_send_context, 67 void *per_transfer_send_context, 68 qdf_dma_addr_t buffer, 69 unsigned int nbytes, 70 unsigned int transfer_id, 71 unsigned int sw_index, 72 unsigned int hw_index, 73 uint32_t toeplitz_hash_result); 74 75 /* 76 * "Buffer Received" callback type for Buffer Received Notification. 77 * 78 * Implementation note: Pops 1 completed recv buffer from Dest ring 79 */ 80 typedef void (*CE_recv_cb)(struct CE_handle *copyeng, 81 void *per_CE_recv_context, 82 void *per_transfer_recv_context, 83 qdf_dma_addr_t buffer, 84 unsigned int nbytes, 85 unsigned int transfer_id, 86 unsigned int flags); 87 88 /* 89 * Copy Engine Watermark callback type. 90 * 91 * Allows upper layers to be notified when watermarks are reached: 92 * space is available and/or running short in a source ring 93 * buffers are exhausted and/or abundant in a destination ring 94 * 95 * The flags parameter indicates which condition triggered this 96 * callback. See CE_WM_FLAG_*. 97 * 98 * Watermark APIs are provided to allow upper layers "batch" 99 * descriptor processing and to allow upper layers to 100 * throttle/unthrottle. 101 */ 102 typedef void (*CE_watermark_cb)(struct CE_handle *copyeng, 103 void *per_CE_wm_context, unsigned int flags); 104 105 106 #define CE_WM_FLAG_SEND_HIGH 1 107 #define CE_WM_FLAG_SEND_LOW 2 108 #define CE_WM_FLAG_RECV_HIGH 4 109 #define CE_WM_FLAG_RECV_LOW 8 110 #define CE_HTT_TX_CE 4 111 112 113 /** 114 * ce_service_srng_init() - Initialization routine for CE services 115 * in SRNG based targets 116 * Return : None 117 */ 118 void ce_service_srng_init(void); 119 120 /** 121 * ce_service_legacy_init() - Initialization routine for CE services 122 * in legacy targets 123 * Return : None 124 */ 125 void ce_service_legacy_init(void); 126 127 /* A list of buffers to be gathered and sent */ 128 struct ce_sendlist; 129 130 /* Copy Engine settable attributes */ 131 struct CE_attr; 132 133 /*==================Send=====================================================*/ 134 135 /* ce_send flags */ 136 /* disable ring's byte swap, even if the default policy is to swap */ 137 #define CE_SEND_FLAG_SWAP_DISABLE 1 138 139 /* 140 * Queue a source buffer to be sent to an anonymous destination buffer. 141 * copyeng - which copy engine to use 142 * buffer - address of buffer 143 * nbytes - number of bytes to send 144 * transfer_id - arbitrary ID; reflected to destination 145 * flags - CE_SEND_FLAG_* values 146 * Returns 0 on success; otherwise an error status. 147 * 148 * Note: If no flags are specified, use CE's default data swap mode. 149 * 150 * Implementation note: pushes 1 buffer to Source ring 151 */ 152 int ce_send(struct CE_handle *copyeng, 153 void *per_transfer_send_context, 154 qdf_dma_addr_t buffer, 155 unsigned int nbytes, 156 unsigned int transfer_id, 157 unsigned int flags, 158 unsigned int user_flags); 159 160 #ifdef WLAN_FEATURE_FASTPATH 161 int ce_send_fast(struct CE_handle *copyeng, qdf_nbuf_t msdu, 162 unsigned int transfer_id, uint32_t download_len); 163 164 #endif 165 166 void ce_update_tx_ring(struct CE_handle *ce_tx_hdl, uint32_t num_htt_cmpls); 167 extern qdf_nbuf_t ce_batch_send(struct CE_handle *ce_tx_hdl, 168 qdf_nbuf_t msdu, 169 uint32_t transfer_id, 170 uint32_t len, 171 uint32_t sendhead); 172 173 extern int ce_send_single(struct CE_handle *ce_tx_hdl, 174 qdf_nbuf_t msdu, 175 uint32_t transfer_id, 176 uint32_t len); 177 /* 178 * Register a Send Callback function. 179 * This function is called as soon as the contents of a Send 180 * have reached the destination, unless disable_interrupts is 181 * requested. In this case, the callback is invoked when the 182 * send status is polled, shortly after the send completes. 183 */ 184 void ce_send_cb_register(struct CE_handle *copyeng, 185 ce_send_cb fn_ptr, 186 void *per_ce_send_context, int disable_interrupts); 187 188 /* 189 * Return the size of a SendList. This allows the caller to allocate 190 * a SendList while the SendList structure remains opaque. 191 */ 192 unsigned int ce_sendlist_sizeof(void); 193 194 /* Initialize a sendlist */ 195 void ce_sendlist_init(struct ce_sendlist *sendlist); 196 197 /* Append a simple buffer (address/length) to a sendlist. */ 198 int ce_sendlist_buf_add(struct ce_sendlist *sendlist, 199 qdf_dma_addr_t buffer, 200 unsigned int nbytes, 201 /* OR-ed with internal flags */ 202 uint32_t flags, 203 uint32_t user_flags); 204 205 /* 206 * Queue a "sendlist" of buffers to be sent using gather to a single 207 * anonymous destination buffer 208 * copyeng - which copy engine to use 209 * sendlist - list of simple buffers to send using gather 210 * transfer_id - arbitrary ID; reflected to destination 211 * Returns 0 on success; otherwise an error status. 212 * 213 * Implementation note: Pushes multiple buffers with Gather to Source ring. 214 */ 215 int ce_sendlist_send(struct CE_handle *copyeng, 216 void *per_transfer_send_context, 217 struct ce_sendlist *sendlist, 218 unsigned int transfer_id); 219 220 /*==================Recv=====================================================*/ 221 222 /* 223 * Make a buffer available to receive. The buffer must be at least of a 224 * minimal size appropriate for this copy engine (src_sz_max attribute). 225 * copyeng - which copy engine to use 226 * per_transfer_recv_context - context passed back to caller's recv_cb 227 * buffer - address of buffer in CE space 228 * Returns 0 on success; otherwise an error status. 229 * 230 * Implementation note: Pushes a buffer to Dest ring. 231 */ 232 int ce_recv_buf_enqueue(struct CE_handle *copyeng, 233 void *per_transfer_recv_context, 234 qdf_dma_addr_t buffer); 235 236 /* 237 * Register a Receive Callback function. 238 * This function is called as soon as data is received 239 * from the source. 240 */ 241 void ce_recv_cb_register(struct CE_handle *copyeng, 242 CE_recv_cb fn_ptr, 243 void *per_CE_recv_context, 244 int disable_interrupts); 245 246 /*==================CE Watermark=============================================*/ 247 248 /* 249 * Register a Watermark Callback function. 250 * This function is called as soon as a watermark level 251 * is crossed. A Watermark Callback function is free to 252 * handle received data "en masse"; but then some coordination 253 * is required with a registered Receive Callback function. 254 * [Suggestion: Either handle Receives in a Receive Callback 255 * or en masse in a Watermark Callback; but not both.] 256 */ 257 void ce_watermark_cb_register(struct CE_handle *copyeng, 258 CE_watermark_cb fn_ptr, 259 void *per_CE_wm_context); 260 261 /* 262 * Set low/high watermarks for the send/source side of a copy engine. 263 * 264 * Typically, the destination side CPU manages watermarks for 265 * the receive side and the source side CPU manages watermarks 266 * for the send side. 267 * 268 * A low watermark of 0 is never hit (so the watermark function 269 * will never be called for a Low Watermark condition). 270 * 271 * A high watermark equal to nentries is never hit (so the 272 * watermark function will never be called for a High Watermark 273 * condition). 274 */ 275 void ce_send_watermarks_set(struct CE_handle *copyeng, 276 unsigned int low_alert_nentries, 277 unsigned int high_alert_nentries); 278 279 /* Set low/high watermarks for the receive/destination side of copy engine. */ 280 void ce_recv_watermarks_set(struct CE_handle *copyeng, 281 unsigned int low_alert_nentries, 282 unsigned int high_alert_nentries); 283 284 /* 285 * Return the number of entries that can be queued 286 * to a ring at an instant in time. 287 * 288 * For source ring, does not imply that destination-side 289 * buffers are available; merely indicates descriptor space 290 * in the source ring. 291 * 292 * For destination ring, does not imply that previously 293 * received buffers have been processed; merely indicates 294 * descriptor space in destination ring. 295 * 296 * Mainly for use with CE Watermark callback. 297 */ 298 unsigned int ce_send_entries_avail(struct CE_handle *copyeng); 299 unsigned int ce_recv_entries_avail(struct CE_handle *copyeng); 300 301 /* 302 * Return the number of entries in the ring that are ready 303 * to be processed by software. 304 * 305 * For source ring, the number of descriptors that have 306 * been completed and can now be overwritten with new send 307 * descriptors. 308 * 309 * For destination ring, the number of descriptors that 310 * are available to be processed (newly received buffers). 311 */ 312 unsigned int ce_send_entries_done(struct CE_handle *copyeng); 313 unsigned int ce_recv_entries_done(struct CE_handle *copyeng); 314 315 /* recv flags */ 316 /* Data is byte-swapped */ 317 #define CE_RECV_FLAG_SWAPPED 1 318 319 /* 320 * Supply data for the next completed unprocessed receive descriptor. 321 * 322 * For use 323 * with CE Watermark callback, 324 * in a recv_cb function when processing buf_lists 325 * in a recv_cb function in order to mitigate recv_cb's. 326 * 327 * Implementation note: Pops buffer from Dest ring. 328 */ 329 int ce_completed_recv_next(struct CE_handle *copyeng, 330 void **per_CE_contextp, 331 void **per_transfer_contextp, 332 qdf_dma_addr_t *bufferp, 333 unsigned int *nbytesp, 334 unsigned int *transfer_idp, 335 unsigned int *flagsp); 336 337 /* 338 * Supply data for the next completed unprocessed send descriptor. 339 * 340 * For use 341 * with CE Watermark callback 342 * in a send_cb function in order to mitigate send_cb's. 343 * 344 * Implementation note: Pops 1 completed send buffer from Source ring 345 */ 346 int ce_completed_send_next(struct CE_handle *copyeng, 347 void **per_CE_contextp, 348 void **per_transfer_contextp, 349 qdf_dma_addr_t *bufferp, 350 unsigned int *nbytesp, 351 unsigned int *transfer_idp, 352 unsigned int *sw_idx, 353 unsigned int *hw_idx, 354 uint32_t *toeplitz_hash_result); 355 356 /*==================CE Engine Initialization=================================*/ 357 358 /* Initialize an instance of a CE */ 359 struct CE_handle *ce_init(struct hif_softc *scn, 360 unsigned int CE_id, struct CE_attr *attr); 361 362 /*==================CE Engine Shutdown=======================================*/ 363 /* 364 * Support clean shutdown by allowing the caller to revoke 365 * receive buffers. Target DMA must be stopped before using 366 * this API. 367 */ 368 QDF_STATUS 369 ce_revoke_recv_next(struct CE_handle *copyeng, 370 void **per_CE_contextp, 371 void **per_transfer_contextp, 372 qdf_dma_addr_t *bufferp); 373 374 /* 375 * Support clean shutdown by allowing the caller to cancel 376 * pending sends. Target DMA must be stopped before using 377 * this API. 378 */ 379 QDF_STATUS 380 ce_cancel_send_next(struct CE_handle *copyeng, 381 void **per_CE_contextp, 382 void **per_transfer_contextp, 383 qdf_dma_addr_t *bufferp, 384 unsigned int *nbytesp, 385 unsigned int *transfer_idp, 386 uint32_t *toeplitz_hash_result); 387 388 void ce_fini(struct CE_handle *copyeng); 389 390 /*==================CE Interrupt Handlers====================================*/ 391 void ce_per_engine_service_any(int irq, struct hif_softc *scn); 392 int ce_per_engine_service(struct hif_softc *scn, unsigned int CE_id); 393 void ce_per_engine_servicereap(struct hif_softc *scn, unsigned int CE_id); 394 395 /*===================CE cmpl interrupt Enable/Disable =======================*/ 396 void ce_disable_any_copy_compl_intr_nolock(struct hif_softc *scn); 397 void ce_enable_any_copy_compl_intr_nolock(struct hif_softc *scn); 398 399 /* API to check if any of the copy engine pipes has 400 * pending frames for prcoessing 401 */ 402 bool ce_get_rx_pending(struct hif_softc *scn); 403 404 /** 405 * war_ce_src_ring_write_idx_set() - Set write index for CE source ring 406 * 407 * Return: None 408 */ 409 void war_ce_src_ring_write_idx_set(struct hif_softc *scn, 410 u32 ctrl_addr, unsigned int write_index); 411 412 /* CE_attr.flags values */ 413 #define CE_ATTR_NO_SNOOP 0x01 /* Use NonSnooping PCIe accesses? */ 414 #define CE_ATTR_BYTE_SWAP_DATA 0x02 /* Byte swap data words */ 415 #define CE_ATTR_SWIZZLE_DESCRIPTORS 0x04 /* Swizzle descriptors? */ 416 #define CE_ATTR_DISABLE_INTR 0x08 /* no interrupt on copy completion */ 417 #define CE_ATTR_ENABLE_POLL 0x10 /* poll for residue descriptors */ 418 #define CE_ATTR_DIAG 0x20 /* Diag CE */ 419 420 /** 421 * struct CE_attr - Attributes of an instance of a Copy Engine 422 * @flags: CE_ATTR_* values 423 * @priority: TBD 424 * @src_nentries: #entries in source ring - Must be a power of 2 425 * @src_sz_max: Max source send size for this CE. This is also the minimum 426 * size of a destination buffer 427 * @dest_nentries: #entries in destination ring - Must be a power of 2 428 * @reserved: Future Use 429 */ 430 struct CE_attr { 431 unsigned int flags; 432 unsigned int priority; 433 unsigned int src_nentries; 434 unsigned int src_sz_max; 435 unsigned int dest_nentries; 436 void *reserved; 437 }; 438 439 /* 440 * When using sendlist_send to transfer multiple buffer fragments, the 441 * transfer context of each fragment, except last one, will be filled 442 * with CE_SENDLIST_ITEM_CTXT. CE_completed_send will return success for 443 * each fragment done with send and the transfer context would be 444 * CE_SENDLIST_ITEM_CTXT. Upper layer could use this to identify the 445 * status of a send completion. 446 */ 447 #define CE_SENDLIST_ITEM_CTXT ((void *)0xcecebeef) 448 449 /* 450 * This is an opaque type that is at least large enough to hold 451 * a sendlist. A sendlist can only be accessed through CE APIs, 452 * but this allows a sendlist to be allocated on the run-time 453 * stack. TBDXXX: un-opaque would be simpler... 454 */ 455 struct ce_sendlist { 456 unsigned int word[62]; 457 }; 458 459 #define ATH_ISR_NOSCHED 0x0000 /* Do not schedule bottom half/DPC */ 460 #define ATH_ISR_SCHED 0x0001 /* Schedule the bottom half for execution */ 461 #define ATH_ISR_NOTMINE 0x0002 /* for shared IRQ's */ 462 463 #ifdef IPA_OFFLOAD 464 void ce_ipa_get_resource(struct CE_handle *ce, 465 qdf_shared_mem_t **ce_sr, 466 uint32_t *ce_sr_ring_size, 467 qdf_dma_addr_t *ce_reg_paddr); 468 #else 469 /** 470 * ce_ipa_get_resource() - get uc resource on copyengine 471 * @ce: copyengine context 472 * @ce_sr: copyengine source ring resource info 473 * @ce_sr_ring_size: copyengine source ring size 474 * @ce_reg_paddr: copyengine register physical address 475 * 476 * Copy engine should release resource to micro controller 477 * Micro controller needs 478 * - Copy engine source descriptor base address 479 * - Copy engine source descriptor size 480 * - PCI BAR address to access copy engine regiser 481 * 482 * Return: None 483 */ 484 static inline void ce_ipa_get_resource(struct CE_handle *ce, 485 qdf_shared_mem_t **ce_sr, 486 uint32_t *ce_sr_ring_size, 487 qdf_dma_addr_t *ce_reg_paddr) 488 { 489 } 490 #endif /* IPA_OFFLOAD */ 491 492 static inline void ce_pkt_error_count_incr( 493 struct HIF_CE_state *_hif_state, 494 enum ol_ath_hif_pkt_ecodes _hif_ecode) 495 { 496 struct hif_softc *scn = HIF_GET_SOFTC(_hif_state); 497 498 if (_hif_ecode == HIF_PIPE_NO_RESOURCE) 499 (scn->pkt_stats.hif_pipe_no_resrc_count) 500 += 1; 501 } 502 503 bool ce_check_rx_pending(struct CE_state *CE_state); 504 void *hif_ce_get_lro_ctx(struct hif_opaque_softc *hif_hdl, int ctx_id); 505 struct ce_ops *ce_services_srng(void); 506 struct ce_ops *ce_services_legacy(void); 507 bool ce_srng_based(struct hif_softc *scn); 508 /* Forward declaration */ 509 struct CE_ring_state; 510 511 struct ce_ops { 512 uint32_t (*ce_get_desc_size)(uint8_t ring_type); 513 int (*ce_ring_setup)(struct hif_softc *scn, uint8_t ring_type, 514 uint32_t ce_id, struct CE_ring_state *ring, 515 struct CE_attr *attr); 516 int (*ce_send_nolock)(struct CE_handle *copyeng, 517 void *per_transfer_context, 518 qdf_dma_addr_t buffer, 519 uint32_t nbytes, 520 uint32_t transfer_id, 521 uint32_t flags, 522 uint32_t user_flags); 523 int (*ce_sendlist_send)(struct CE_handle *copyeng, 524 void *per_transfer_context, 525 struct ce_sendlist *sendlist, unsigned int transfer_id); 526 QDF_STATUS (*ce_revoke_recv_next)(struct CE_handle *copyeng, 527 void **per_CE_contextp, 528 void **per_transfer_contextp, 529 qdf_dma_addr_t *bufferp); 530 QDF_STATUS (*ce_cancel_send_next)(struct CE_handle *copyeng, 531 void **per_CE_contextp, void **per_transfer_contextp, 532 qdf_dma_addr_t *bufferp, unsigned int *nbytesp, 533 unsigned int *transfer_idp, 534 uint32_t *toeplitz_hash_result); 535 int (*ce_recv_buf_enqueue)(struct CE_handle *copyeng, 536 void *per_recv_context, qdf_dma_addr_t buffer); 537 bool (*watermark_int)(struct CE_state *CE_state, unsigned int *flags); 538 int (*ce_completed_recv_next_nolock)(struct CE_state *CE_state, 539 void **per_CE_contextp, 540 void **per_transfer_contextp, 541 qdf_dma_addr_t *bufferp, 542 unsigned int *nbytesp, 543 unsigned int *transfer_idp, 544 unsigned int *flagsp); 545 int (*ce_completed_send_next_nolock)(struct CE_state *CE_state, 546 void **per_CE_contextp, 547 void **per_transfer_contextp, 548 qdf_dma_addr_t *bufferp, 549 unsigned int *nbytesp, 550 unsigned int *transfer_idp, 551 unsigned int *sw_idx, 552 unsigned int *hw_idx, 553 uint32_t *toeplitz_hash_result); 554 unsigned int (*ce_recv_entries_done_nolock)(struct hif_softc *scn, 555 struct CE_state *CE_state); 556 unsigned int (*ce_send_entries_done_nolock)(struct hif_softc *scn, 557 struct CE_state *CE_state); 558 void (*ce_per_engine_handler_adjust)(struct CE_state *CE_state, 559 int disable_copy_compl_intr); 560 void (*ce_prepare_shadow_register_v2_cfg)(struct hif_softc *scn, 561 struct pld_shadow_reg_v2_cfg **shadow_config, 562 int *num_shadow_registers_configured); 563 }; 564 565 int hif_ce_bus_early_suspend(struct hif_softc *scn); 566 int hif_ce_bus_late_resume(struct hif_softc *scn); 567 #endif /* __COPY_ENGINE_API_H__ */ 568