1 /* 2 * CDDL HEADER START 3 * 4 * The contents of this file are subject to the terms of the 5 * Common Development and Distribution License, Version 1.0 only 6 * (the "License"). You may not use this file except in compliance 7 * with the License. 8 * 9 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 10 * or http://www.opensolaris.org/os/licensing. 11 * See the License for the specific language governing permissions 12 * and limitations under the License. 13 * 14 * When distributing Covered Code, include this CDDL HEADER in each 15 * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 16 * If applicable, add the following below this CDDL HEADER, with the 17 * fields enclosed by brackets "[]" replaced with your own identifying 18 * information: Portions Copyright [yyyy] [name of copyright owner] 19 * 20 * CDDL HEADER END 21 */ 22 /* 23 * Copyright 1999-2002 Sun Microsystems, Inc. All rights reserved. 24 * Use is subject to license terms. 25 */ 26 27 #pragma ident "%Z%%M% %I% %E% SMI" 28 29 /* 30 * hci1394_isr.c 31 * Contains the core interrupt handling logic for the hci1394 driver. 32 * It also contains the routine which sets up the initial interrupt 33 * mask during HW init. 34 */ 35 36 #include <sys/conf.h> 37 #include <sys/ddi.h> 38 #include <sys/modctl.h> 39 #include <sys/stat.h> 40 #include <sys/sunddi.h> 41 #include <sys/cmn_err.h> 42 43 #include <sys/1394/h1394.h> 44 #include <sys/1394/adapters/hci1394.h> 45 46 47 static uint_t hci1394_isr(caddr_t parm); 48 static void hci1394_isr_bus_reset(hci1394_state_t *soft_state); 49 static void hci1394_isr_self_id(hci1394_state_t *soft_state); 50 static void hci1394_isr_isoch_ir(hci1394_state_t *soft_state); 51 static void hci1394_isr_isoch_it(hci1394_state_t *soft_state); 52 static void hci1394_isr_atreq_complete(hci1394_state_t *soft_state); 53 static void hci1394_isr_arresp(hci1394_state_t *soft_state); 54 static void hci1394_isr_arreq(hci1394_state_t *soft_state); 55 static void hci1394_isr_atresp_complete(hci1394_state_t *soft_state); 56 57 58 /* 59 * hci1394_isr_init() 60 * Get the iblock_cookie, make sure we are not using a high level interrupt, 61 * register our interrupt service routine. 62 */ 63 int 64 hci1394_isr_init(hci1394_state_t *soft_state) 65 { 66 int status; 67 68 69 ASSERT(soft_state != NULL); 70 TNF_PROBE_0_DEBUG(hci1394_isr_init_enter, HCI1394_TNF_HAL_STACK, ""); 71 72 /* This driver does not support running at a high level interrupt */ 73 status = ddi_intr_hilevel(soft_state->drvinfo.di_dip, 0); 74 if (status != 0) { 75 TNF_PROBE_1(hci1394_isr_init_hli_fail, 76 HCI1394_TNF_HAL_ERROR, "", tnf_string, errmsg, 77 "High Level interrupts not supported"); 78 TNF_PROBE_0_DEBUG(hci1394_isr_init_exit, 79 HCI1394_TNF_HAL_STACK, ""); 80 return (DDI_FAILURE); 81 } 82 83 /* There should only be 1 1394 interrupt for an OpenHCI adapter */ 84 status = ddi_get_iblock_cookie(soft_state->drvinfo.di_dip, 0, 85 &soft_state->drvinfo.di_iblock_cookie); 86 if (status != DDI_SUCCESS) { 87 TNF_PROBE_0(hci1394_isr_init_gic_fail, 88 HCI1394_TNF_HAL_ERROR, ""); 89 TNF_PROBE_0_DEBUG(hci1394_isr_init_exit, 90 HCI1394_TNF_HAL_STACK, ""); 91 return (DDI_FAILURE); 92 } 93 94 TNF_PROBE_0_DEBUG(hci1394_isr_init_exit, HCI1394_TNF_HAL_STACK, ""); 95 96 return (DDI_SUCCESS); 97 } 98 99 100 /* 101 * hci1394_isr_fini() 102 * un-register our interrupt service routine. 103 */ 104 /* ARGSUSED */ 105 void 106 hci1394_isr_fini(hci1394_state_t *soft_state) 107 { 108 ASSERT(soft_state != NULL); 109 TNF_PROBE_0_DEBUG(hci1394_isr_fini_enter, HCI1394_TNF_HAL_STACK, ""); 110 111 /* nothing to do right now */ 112 113 TNF_PROBE_0_DEBUG(hci1394_isr_fini_exit, HCI1394_TNF_HAL_STACK, ""); 114 } 115 116 117 /* 118 * hci1394_isr_handler_init() 119 * register our interrupt service routine. 120 */ 121 int 122 hci1394_isr_handler_init(hci1394_state_t *soft_state) 123 { 124 int status; 125 126 ASSERT(soft_state != NULL); 127 128 /* Initialize interrupt handler */ 129 status = ddi_add_intr(soft_state->drvinfo.di_dip, 0, NULL, NULL, 130 hci1394_isr, (caddr_t)soft_state); 131 if (status != DDI_SUCCESS) { 132 TNF_PROBE_0(hci1394_isr_handler_init_fail, 133 HCI1394_TNF_HAL_ERROR, ""); 134 return (DDI_FAILURE); 135 } 136 137 return (DDI_SUCCESS); 138 } 139 140 141 /* 142 * hci1394_isr_handler_fini() 143 * un-register our interrupt service routine. 144 */ 145 void 146 hci1394_isr_handler_fini(hci1394_state_t *soft_state) 147 { 148 ASSERT(soft_state != NULL); 149 150 /* Remove interrupt handler */ 151 ddi_remove_intr(soft_state->drvinfo.di_dip, 0, 152 soft_state->drvinfo.di_iblock_cookie); 153 } 154 155 156 /* 157 * hci1394_isr_mask_setup() 158 * Setup the initial interrupt mask for OpenHCI. These are the interrupts 159 * that our interrupt handler is expected to handle. 160 */ 161 void 162 hci1394_isr_mask_setup(hci1394_state_t *soft_state) 163 { 164 ASSERT(soft_state != NULL); 165 TNF_PROBE_0_DEBUG(hci1394_isr_mask_setup_enter, HCI1394_TNF_HAL_STACK, 166 ""); 167 168 /* start off with all interrupts cleared/disabled */ 169 hci1394_ohci_ir_intr_disable(soft_state->ohci, 0xFFFFFFFF); 170 hci1394_ohci_ir_intr_clear(soft_state->ohci, 0xFFFFFFFF); 171 hci1394_ohci_it_intr_disable(soft_state->ohci, 0xFFFFFFFF); 172 hci1394_ohci_it_intr_clear(soft_state->ohci, 0xFFFFFFFF); 173 hci1394_ohci_intr_disable(soft_state->ohci, 0xFFFFFFFF); 174 hci1394_ohci_intr_clear(soft_state->ohci, 0xFFFFFFFF); 175 176 /* Setup Interrupt Mask Register */ 177 hci1394_ohci_intr_enable(soft_state->ohci, 178 (OHCI_INTR_UNRECOVERABLE_ERR | OHCI_INTR_CYC_TOO_LONG | 179 OHCI_INTR_BUS_RESET | OHCI_INTR_SELFID_CMPLT | 180 OHCI_INTR_REQ_TX_CMPLT | OHCI_INTR_RESP_TX_CMPLT | 181 OHCI_INTR_RQPKT | OHCI_INTR_RSPKT | OHCI_INTR_ISOCH_TX | 182 OHCI_INTR_ISOCH_RX | OHCI_INTR_POST_WR_ERR | OHCI_INTR_PHY | 183 OHCI_INTR_LOCK_RESP_ERR)); 184 185 TNF_PROBE_0_DEBUG(hci1394_isr_mask_setup_exit, HCI1394_TNF_HAL_STACK, 186 ""); 187 } 188 189 190 /* 191 * hci1394_isr() 192 * Core interrupt handler. Every interrupt enabled in 193 * hci1394_isr_mask_setup() should be covered here. There may be other 194 * interrupts supported in here even if they are not initially enabled 195 * (like OHCI_INTR_CYC_64_SECS) since they may be enabled later (i.e. due to 196 * CSR register write) 197 */ 198 static uint_t 199 hci1394_isr(caddr_t parm) 200 { 201 hci1394_state_t *soft_state; 202 h1394_posted_wr_err_t posted_wr_err; 203 uint32_t interrupt_event; 204 uint_t status; 205 206 207 status = DDI_INTR_UNCLAIMED; 208 soft_state = (hci1394_state_t *)parm; 209 210 ASSERT(soft_state != NULL); 211 TNF_PROBE_0_DEBUG(hci1394_isr_enter, HCI1394_TNF_HAL_STACK, ""); 212 213 /* 214 * Get all of the enabled 1394 interrupts which are currently 215 * asserted. 216 */ 217 interrupt_event = hci1394_ohci_intr_asserted(soft_state->ohci); 218 do { 219 /* handle the asserted interrupts */ 220 if (interrupt_event & OHCI_INTR_BUS_RESET) { 221 hci1394_isr_bus_reset(soft_state); 222 status = DDI_INTR_CLAIMED; 223 } 224 if (interrupt_event & OHCI_INTR_SELFID_CMPLT) { 225 hci1394_isr_self_id(soft_state); 226 status = DDI_INTR_CLAIMED; 227 } 228 if (interrupt_event & OHCI_INTR_ISOCH_TX) { 229 hci1394_isr_isoch_it(soft_state); 230 status = DDI_INTR_CLAIMED; 231 } 232 if (interrupt_event & OHCI_INTR_ISOCH_RX) { 233 hci1394_isr_isoch_ir(soft_state); 234 status = DDI_INTR_CLAIMED; 235 } 236 if (interrupt_event & OHCI_INTR_REQ_TX_CMPLT) { 237 hci1394_isr_atreq_complete(soft_state); 238 status = DDI_INTR_CLAIMED; 239 } 240 if (interrupt_event & OHCI_INTR_RSPKT) { 241 hci1394_isr_arresp(soft_state); 242 status = DDI_INTR_CLAIMED; 243 } 244 if (interrupt_event & OHCI_INTR_RQPKT) { 245 hci1394_isr_arreq(soft_state); 246 status = DDI_INTR_CLAIMED; 247 } 248 if (interrupt_event & OHCI_INTR_RESP_TX_CMPLT) { 249 hci1394_isr_atresp_complete(soft_state); 250 status = DDI_INTR_CLAIMED; 251 } 252 if (interrupt_event & OHCI_INTR_CYC_64_SECS) { 253 hci1394_ohci_isr_cycle64seconds(soft_state->ohci); 254 status = DDI_INTR_CLAIMED; 255 } 256 if (interrupt_event & OHCI_INTR_UNRECOVERABLE_ERR) { 257 h1394_error_detected(soft_state->drvinfo.di_sl_private, 258 H1394_SELF_INITIATED_SHUTDOWN, NULL); 259 cmn_err(CE_WARN, "hci1394(%d): driver shutdown: " 260 "unrecoverable error interrupt detected", 261 soft_state->drvinfo.di_instance); 262 hci1394_shutdown(soft_state->drvinfo.di_dip); 263 status = DDI_INTR_CLAIMED; 264 } 265 if (interrupt_event & OHCI_INTR_CYC_LOST) { 266 hci1394_isoch_cycle_lost(soft_state); 267 status = DDI_INTR_CLAIMED; 268 } 269 if (interrupt_event & OHCI_INTR_CYC_INCONSISTENT) { 270 hci1394_isoch_cycle_inconsistent(soft_state); 271 status = DDI_INTR_CLAIMED; 272 } 273 if (interrupt_event & OHCI_INTR_CYC_TOO_LONG) { 274 hci1394_ohci_intr_clear(soft_state->ohci, 275 OHCI_INTR_CYC_TOO_LONG); 276 /* clear cycle master bit in csr state register */ 277 hci1394_csr_state_bclr(soft_state->csr, 278 IEEE1394_CSR_STATE_CMSTR); 279 h1394_error_detected(soft_state->drvinfo.di_sl_private, 280 H1394_CYCLE_TOO_LONG, NULL); 281 status = DDI_INTR_CLAIMED; 282 } 283 if (interrupt_event & OHCI_INTR_POST_WR_ERR) { 284 hci1394_ohci_postwr_addr(soft_state->ohci, 285 &posted_wr_err.addr); 286 h1394_error_detected(soft_state->drvinfo.di_sl_private, 287 H1394_POSTED_WR_ERR, &posted_wr_err); 288 status = DDI_INTR_CLAIMED; 289 } 290 if (interrupt_event & OHCI_INTR_PHY) { 291 hci1394_ohci_isr_phy(soft_state->ohci); 292 status = DDI_INTR_CLAIMED; 293 } 294 if (interrupt_event & OHCI_INTR_LOCK_RESP_ERR) { 295 hci1394_ohci_intr_clear(soft_state->ohci, 296 OHCI_INTR_LOCK_RESP_ERR); 297 h1394_error_detected(soft_state->drvinfo.di_sl_private, 298 H1394_LOCK_RESP_ERR, NULL); 299 status = DDI_INTR_CLAIMED; 300 } 301 302 /* 303 * Check for self-id-complete interrupt disappearing. There is 304 * a chance in OpenHCI where it will assert the selfid 305 * interrupt and then take it away. We will look for this case 306 * and claim it just in case. We could possibly claim an 307 * interrupt that's not ours. We would have to be in the 308 * middle of a bus reset and a bunch of other weird stuff 309 * would have to align. It should not hurt anything if we do. 310 * 311 * This will very very rarely happen, if ever. We still have 312 * to handle the case, just in case. OpenHCI 1.1 should fix 313 * this problem. 314 */ 315 if ((status == DDI_INTR_UNCLAIMED) && 316 (hci1394_state(&soft_state->drvinfo) == 317 HCI1394_BUS_RESET)) { 318 if (soft_state->drvinfo.di_gencnt != 319 hci1394_ohci_current_busgen(soft_state->ohci)) { 320 TNF_PROBE_0(hci1394_isr_busgen_claim, 321 HCI1394_TNF_HAL, ""); 322 status = DDI_INTR_CLAIMED; 323 } 324 } 325 326 /* 327 * See if any of the enabled 1394 interrupts have been asserted 328 * since we first checked. 329 */ 330 interrupt_event = hci1394_ohci_intr_asserted( 331 soft_state->ohci); 332 } while (interrupt_event != 0); 333 334 TNF_PROBE_0_DEBUG(hci1394_isr_exit, HCI1394_TNF_HAL_STACK, ""); 335 336 return (status); 337 } 338 339 340 /* 341 * hci1394_isr_bus_reset() 342 * Process a 1394 bus reset. This signifies that a bus reset has started. 343 * A bus reset will not be complete until a selfid complete interrupt 344 * comes in. 345 */ 346 static void 347 hci1394_isr_bus_reset(hci1394_state_t *soft_state) 348 { 349 int status; 350 351 352 ASSERT(soft_state != NULL); 353 TNF_PROBE_0_DEBUG(hci1394_isr_bus_reset_enter, 354 HCI1394_TNF_HAL_STACK, ""); 355 356 /* 357 * Set the driver state to reset. If we cannot, we have been shutdown. 358 * The only way we can get in this code is if we have a multi-processor 359 * machine and the HAL is shutdown by one processor running in base 360 * context while this interrupt handler runs in another processor. 361 * We will disable all interrupts and just return. We shouldn't have 362 * to disable the interrupts, but we will just in case. 363 */ 364 status = hci1394_state_set(&soft_state->drvinfo, HCI1394_BUS_RESET); 365 if (status != DDI_SUCCESS) { 366 hci1394_ohci_intr_master_disable(soft_state->ohci); 367 return; 368 } 369 370 /* 371 * Save away reset generation count so we can detect self-id-compete 372 * interrupt which disappears in event register. This is discussed in 373 * more detail in hci1394_isr() 374 */ 375 soft_state->drvinfo.di_gencnt = 376 hci1394_ohci_current_busgen(soft_state->ohci); 377 378 soft_state->drvinfo.di_stats.st_bus_reset_count++; 379 380 /* 381 * Mask off busReset until SelfIdComplete comes in. The bus reset 382 * interrupt will be asserted until the SelfIdComplete interrupt 383 * comes in (i.e. you cannot clear the interrupt until a SelfIdComplete 384 * interrupt). Therefore, we disable the interrupt via its mask so we 385 * don't get stuck in the ISR indefinitely. 386 */ 387 hci1394_ohci_intr_disable(soft_state->ohci, OHCI_INTR_BUS_RESET); 388 389 /* Reset the ATREQ and ATRESP Q's */ 390 hci1394_async_atreq_reset(soft_state->async); 391 hci1394_async_atresp_reset(soft_state->async); 392 393 /* Inform Services Layer about Bus Reset */ 394 h1394_bus_reset(soft_state->drvinfo.di_sl_private, 395 (void **)&soft_state->sl_selfid_buf); 396 397 TNF_PROBE_0_DEBUG(hci1394_isr_bus_reset_exit, 398 HCI1394_TNF_HAL_STACK, ""); 399 } 400 401 402 /* 403 * hci1394_isr_self_id() 404 * Process the selfid complete interrupt. The bus reset has completed 405 * and the 1394 HW has finished it's bus enumeration. The SW needs to 406 * see what's changed and handle any hotplug conditions. 407 */ 408 static void 409 hci1394_isr_self_id(hci1394_state_t *soft_state) 410 { 411 int status; 412 uint_t node_id; 413 uint_t selfid_size; 414 uint_t quadlet_count; 415 uint_t index; 416 uint32_t *selfid_buf_p; 417 boolean_t selfid_error; 418 boolean_t nodeid_error; 419 boolean_t saw_error = B_FALSE; 420 uint_t phy_status; 421 422 423 ASSERT(soft_state != NULL); 424 TNF_PROBE_0_DEBUG(hci1394_isr_self_id_enter, HCI1394_TNF_HAL_STACK, ""); 425 426 soft_state->drvinfo.di_stats.st_selfid_count++; 427 428 /* 429 * check for the bizarre case that we got both a bus reset and self id 430 * complete after checking for a bus reset 431 */ 432 if (hci1394_state(&soft_state->drvinfo) != HCI1394_BUS_RESET) { 433 hci1394_isr_bus_reset(soft_state); 434 } 435 436 /* 437 * Clear any set PHY error status bits set. The PHY status bits 438 * may always be set (i.e. we removed cable power) so we do not want 439 * to clear them when we handle the interrupt. We will clear them 440 * every selfid complete interrupt so worst case we will get 1 PHY event 441 * interrupt every bus reset. 442 */ 443 status = hci1394_ohci_phy_read(soft_state->ohci, 5, &phy_status); 444 if (status != DDI_SUCCESS) { 445 TNF_PROBE_0(hci1394_isr_self_id_pr_fail, 446 HCI1394_TNF_HAL_ERROR, ""); 447 } else { 448 phy_status |= OHCI_PHY_LOOP_ERR | OHCI_PHY_PWRFAIL_ERR | 449 OHCI_PHY_TIMEOUT_ERR | OHCI_PHY_PORTEVT_ERR; 450 status = hci1394_ohci_phy_write(soft_state->ohci, 5, 451 phy_status); 452 if (status != DDI_SUCCESS) { 453 TNF_PROBE_0(hci1394_isr_self_id_pw_fail, 454 HCI1394_TNF_HAL_ERROR, ""); 455 } else { 456 /* 457 * Re-enable PHY interrupt. We disable the PHY interrupt 458 * when we get one so that we do not get stuck in the 459 * ISR. 460 */ 461 hci1394_ohci_intr_enable(soft_state->ohci, 462 OHCI_INTR_PHY); 463 } 464 } 465 466 /* See if either AT active bit is set */ 467 if (hci1394_ohci_at_active(soft_state->ohci) == B_TRUE) { 468 TNF_PROBE_1(hci1394_isr_self_id_as_fail, HCI1394_TNF_HAL_ERROR, 469 "", tnf_string, errmsg, "AT ACTIVE still set"); 470 saw_error = B_TRUE; 471 } 472 473 /* Clear busReset and selfIdComplete interrupts */ 474 hci1394_ohci_intr_clear(soft_state->ohci, (OHCI_INTR_BUS_RESET | 475 OHCI_INTR_SELFID_CMPLT)); 476 477 /* Read node info and test for Invalid Node ID */ 478 hci1394_ohci_nodeid_info(soft_state->ohci, &node_id, &nodeid_error); 479 if (nodeid_error == B_TRUE) { 480 TNF_PROBE_1(hci1394_isr_self_id_ni_fail, HCI1394_TNF_HAL_ERROR, 481 "", tnf_string, errmsg, "saw invalid NodeID"); 482 saw_error = B_TRUE; 483 } 484 485 /* Sync Selfid Buffer */ 486 hci1394_ohci_selfid_sync(soft_state->ohci); 487 488 /* store away selfid info */ 489 hci1394_ohci_selfid_info(soft_state->ohci, 490 &soft_state->drvinfo.di_gencnt, &selfid_size, &selfid_error); 491 492 /* Test for selfid error */ 493 if (selfid_error == B_TRUE) { 494 TNF_PROBE_1(hci1394_isr_self_id_si_fail, HCI1394_TNF_HAL_ERROR, 495 "", tnf_string, errmsg, "saw invalid SelfID"); 496 saw_error = B_TRUE; 497 } 498 499 /* 500 * selfid size could be 0 if a bus reset has occurred. If this occurs, 501 * we should have another selfid int coming later. 502 */ 503 if ((saw_error == B_FALSE) && (selfid_size == 0)) { 504 TNF_PROBE_0_DEBUG(hci1394_isr_self_id_exit, 505 HCI1394_TNF_HAL_STACK, ""); 506 return; 507 } 508 509 /* 510 * make sure generation count in buffer matches generation 511 * count in register. 512 */ 513 if (hci1394_ohci_selfid_buf_current(soft_state->ohci) == B_FALSE) { 514 TNF_PROBE_0_DEBUG(hci1394_isr_self_id_exit, 515 HCI1394_TNF_HAL_STACK, ""); 516 return; 517 } 518 519 /* 520 * Skip over first quadlet in selfid buffer, this is OpenHCI specific 521 * data. 522 */ 523 selfid_size = selfid_size - IEEE1394_QUADLET; 524 quadlet_count = selfid_size >> 2; 525 526 /* Copy selfid buffer to Services Layer buffer */ 527 for (index = 0; index < quadlet_count; index++) { 528 hci1394_ohci_selfid_read(soft_state->ohci, index + 1, 529 &soft_state->sl_selfid_buf[index]); 530 } 531 532 /* 533 * Put our selfID info into the Services Layer's selfid buffer if we 534 * have a 1394-1995 PHY. 535 */ 536 if (soft_state->halinfo.phy == H1394_PHY_1995) { 537 selfid_buf_p = (uint32_t *)( 538 (uintptr_t)soft_state->sl_selfid_buf + 539 (uintptr_t)selfid_size); 540 status = hci1394_ohci_phy_info(soft_state->ohci, 541 &selfid_buf_p[0]); 542 if (status != DDI_SUCCESS) { 543 /* 544 * If we fail reading from PHY, put invalid data into 545 * the selfid buffer so the SL will reset the bus again. 546 */ 547 TNF_PROBE_0(hci1394_isr_self_id_pi_fail, 548 HCI1394_TNF_HAL_ERROR, ""); 549 selfid_buf_p[0] = 0xFFFFFFFF; 550 selfid_buf_p[1] = 0xFFFFFFFF; 551 } else { 552 selfid_buf_p[1] = ~selfid_buf_p[0]; 553 } 554 selfid_size = selfid_size + 8; 555 } 556 557 /* Flush out async DMA Q's */ 558 hci1394_async_flush(soft_state->async); 559 560 /* 561 * Make sure generation count is still valid. i.e. we have not gotten 562 * another bus reset since the last time we checked. If we have gotten 563 * another bus reset, we should have another selfid interrupt coming. 564 */ 565 if (soft_state->drvinfo.di_gencnt != 566 hci1394_ohci_current_busgen(soft_state->ohci)) { 567 TNF_PROBE_0_DEBUG(hci1394_isr_self_id_exit, 568 HCI1394_TNF_HAL_STACK, ""); 569 return; 570 } 571 572 /* 573 * do whatever CSR register processing that needs to be done. 574 */ 575 hci1394_csr_bus_reset(soft_state->csr); 576 577 /* 578 * do whatever management may be necessary for the CYCLE_LOST and 579 * CYCLE_INCONSISTENT interrupts. 580 */ 581 hci1394_isoch_error_ints_enable(soft_state); 582 583 /* 584 * See if we saw an error. If we did, tell the services layer that we 585 * finished selfid processing and give them an illegal selfid buffer 586 * size of 0. The Services Layer will try to reset the bus again to 587 * see if we can recover from this problem. It will threshold after 588 * a finite number of errors. 589 */ 590 if (saw_error == B_TRUE) { 591 h1394_self_ids(soft_state->drvinfo.di_sl_private, 592 soft_state->sl_selfid_buf, 0, node_id, 593 soft_state->drvinfo.di_gencnt); 594 595 /* 596 * Take ourself out of Bus Reset processing mode 597 * 598 * Set the driver state to normal. If we cannot, we have been 599 * shutdown. The only way we can get in this code is if we have 600 * a multi-processor machine and the HAL is shutdown by one 601 * processor running in base context while this interrupt 602 * handler runs in another processor. We will disable all 603 * interrupts and just return. We shouldn't have to disable 604 * the interrupts, but we will just in case. 605 */ 606 status = hci1394_state_set(&soft_state->drvinfo, 607 HCI1394_NORMAL); 608 if (status != DDI_SUCCESS) { 609 hci1394_ohci_intr_master_disable(soft_state->ohci); 610 return; 611 } 612 } else if (IEEE1394_NODE_NUM(node_id) != 63) { 613 /* 614 * Notify services layer about self-id-complete. Don't notify 615 * the services layer if there are too many devices on the bus. 616 */ 617 h1394_self_ids(soft_state->drvinfo.di_sl_private, 618 soft_state->sl_selfid_buf, selfid_size, 619 node_id, soft_state->drvinfo.di_gencnt); 620 621 /* 622 * Take ourself out of Bus Reset processing mode 623 * 624 * Set the driver state to normal. If we cannot, we have been 625 * shutdown. The only way we can get in this code is if we have 626 * a multi-processor machine and the HAL is shutdown by one 627 * processor running in base context while this interrupt 628 * handler runs in another processor. We will disable all 629 * interrupts and just return. We shouldn't have to disable 630 * the interrupts, but we will just in case. 631 */ 632 status = hci1394_state_set(&soft_state->drvinfo, 633 HCI1394_NORMAL); 634 if (status != DDI_SUCCESS) { 635 hci1394_ohci_intr_master_disable(soft_state->ohci); 636 return; 637 } 638 } else { 639 cmn_err(CE_NOTE, "hci1394(%d): Too many devices on the 1394 " 640 "bus", soft_state->drvinfo.di_instance); 641 } 642 643 /* enable bus reset interrupt */ 644 hci1394_ohci_intr_enable(soft_state->ohci, OHCI_INTR_BUS_RESET); 645 646 TNF_PROBE_0_DEBUG(hci1394_isr_self_id_exit, HCI1394_TNF_HAL_STACK, ""); 647 } 648 649 650 /* 651 * hci1394_isr_isoch_ir() 652 * Process each isoch recv context which has its interrupt asserted. The 653 * interrupt will be asserted when an isoch recv descriptor with the 654 * interrupt bits enabled have finished being processed. 655 */ 656 static void 657 hci1394_isr_isoch_ir(hci1394_state_t *soft_state) 658 { 659 uint32_t i; 660 uint32_t mask = 0x00000001; 661 uint32_t ev; 662 int num_ir_contexts; 663 hci1394_iso_ctxt_t *ctxtp; 664 665 666 ASSERT(soft_state != NULL); 667 TNF_PROBE_0_DEBUG(hci1394_isr_isoch_ir_enter, 668 HCI1394_TNF_HAL_STACK, ""); 669 670 num_ir_contexts = hci1394_isoch_recv_count_get(soft_state->isoch); 671 672 /* 673 * Main isochRx int is not clearable. it is automatically 674 * cleared by the hw when the ir_intr_event is cleared 675 */ 676 /* loop until no more IR events */ 677 while ((ev = hci1394_ohci_ir_intr_asserted(soft_state->ohci)) != 0) { 678 679 /* clear the events we just learned about */ 680 hci1394_ohci_ir_intr_clear(soft_state->ohci, ev); 681 682 /* for each interrupting IR context, process the interrupt */ 683 for (i = 0; i < num_ir_contexts; i++) { 684 /* 685 * if the intr bit is on for a context, 686 * call xmit/recv common processing code 687 */ 688 if (ev & mask) { 689 ctxtp = hci1394_isoch_recv_ctxt_get( 690 soft_state->isoch, i); 691 hci1394_ixl_interrupt(soft_state, ctxtp, 692 B_FALSE); 693 } 694 mask <<= 1; 695 } 696 } 697 TNF_PROBE_0_DEBUG(hci1394_isr_isoch_ir_exit, HCI1394_TNF_HAL_STACK, ""); 698 } 699 700 701 /* 702 * hci1394_isr_isoch_it() 703 * Process each isoch transmit context which has its interrupt asserted. The 704 * interrupt will be asserted when an isoch transmit descriptor with the 705 * interrupt bit is finished being processed. 706 */ 707 static void 708 hci1394_isr_isoch_it(hci1394_state_t *soft_state) 709 { 710 uint32_t i; 711 uint32_t mask = 0x00000001; 712 uint32_t ev; 713 int num_it_contexts; 714 hci1394_iso_ctxt_t *ctxtp; 715 716 717 ASSERT(soft_state != NULL); 718 TNF_PROBE_0_DEBUG(hci1394_isr_isoch_it_enter, 719 HCI1394_TNF_HAL_STACK, ""); 720 721 num_it_contexts = hci1394_isoch_xmit_count_get(soft_state->isoch); 722 723 /* 724 * Main isochTx int is not clearable. it is automatically 725 * cleared by the hw when the it_intr_event is cleared. 726 */ 727 728 /* loop until no more IT events */ 729 while ((ev = hci1394_ohci_it_intr_asserted(soft_state->ohci)) != 0) { 730 731 /* clear the events we just learned about */ 732 hci1394_ohci_it_intr_clear(soft_state->ohci, ev); 733 734 /* for each interrupting IR context, process the interrupt */ 735 for (i = 0; i < num_it_contexts; i++) { 736 /* 737 * if the intr bit is on for a context, 738 * call xmit/recv common processing code 739 */ 740 if (ev & mask) { 741 ctxtp = hci1394_isoch_xmit_ctxt_get( 742 soft_state->isoch, i); 743 hci1394_ixl_interrupt(soft_state, ctxtp, 744 B_FALSE); 745 } 746 mask <<= 1; 747 } 748 } 749 TNF_PROBE_0_DEBUG(hci1394_isr_isoch_it_exit, HCI1394_TNF_HAL_STACK, ""); 750 } 751 752 753 /* 754 * hci1394_isr_atreq_complete() 755 * Process all completed requests that we have sent out (i.e. HW gave us 756 * an ack). 757 */ 758 static void 759 hci1394_isr_atreq_complete(hci1394_state_t *soft_state) 760 { 761 boolean_t request_available; 762 int status; 763 764 765 ASSERT(soft_state != NULL); 766 TNF_PROBE_0_DEBUG(hci1394_isr_atreq_complete_enter, 767 HCI1394_TNF_HAL_STACK, ""); 768 769 hci1394_ohci_intr_clear(soft_state->ohci, OHCI_INTR_REQ_TX_CMPLT); 770 771 /* 772 * Processes all ack'd AT requests. If the request is pended, it is 773 * considered complete relative the the atreq engine. AR response 774 * processing will make sure we track the response. 775 */ 776 do { 777 /* 778 * Process a single request. Do not flush Q. That is only 779 * done during bus reset processing. 780 */ 781 status = hci1394_async_atreq_process(soft_state->async, B_FALSE, 782 &request_available); 783 if (status != DDI_SUCCESS) { 784 TNF_PROBE_0(hci1394_isr_atreq_complete_pr_fail, 785 HCI1394_TNF_HAL_ERROR, ""); 786 } 787 } while (request_available == B_TRUE); 788 789 TNF_PROBE_0_DEBUG(hci1394_isr_atreq_complete_exit, 790 HCI1394_TNF_HAL_STACK, ""); 791 } 792 793 794 /* 795 * hci1394_isr_arresp() 796 * Process all responses that have come in off the bus and send then up to 797 * the services layer. We send out a request on the bus (atreq) and some time 798 * later a response comes in. We send this response up to the services 799 * layer. 800 */ 801 static void 802 hci1394_isr_arresp(hci1394_state_t *soft_state) 803 { 804 boolean_t response_available; 805 int status; 806 807 808 ASSERT(soft_state != NULL); 809 TNF_PROBE_0_DEBUG(hci1394_isr_arresp_enter, HCI1394_TNF_HAL_STACK, ""); 810 811 hci1394_ohci_intr_clear(soft_state->ohci, OHCI_INTR_RSPKT); 812 813 /* 814 * Process all responses that have been received. If more responses 815 * come in we will stay in interrupt handler and re-run this routine. 816 * It is possible that we will call hci1394_async_arresp_process() 817 * even though there are no more AR responses to process. This would 818 * be because we have processed them earlier on. (i.e. we cleared 819 * interrupt, then got another response and processed it. The interrupt 820 * would still be pending. 821 */ 822 do { 823 status = hci1394_async_arresp_process(soft_state->async, 824 &response_available); 825 if (status != DDI_SUCCESS) { 826 TNF_PROBE_0(hci1394_isr_arresp_pr_fail, 827 HCI1394_TNF_HAL_ERROR, ""); 828 } 829 } while (response_available == B_TRUE); 830 831 TNF_PROBE_0_DEBUG(hci1394_isr_arresp_exit, HCI1394_TNF_HAL_STACK, ""); 832 } 833 834 835 /* 836 * hci1394_isr_arreq() 837 * Process all requests that have come in off the bus and send then up to 838 * the services layer. 839 */ 840 static void 841 hci1394_isr_arreq(hci1394_state_t *soft_state) 842 { 843 boolean_t request_available; 844 int status; 845 846 847 ASSERT(soft_state != NULL); 848 TNF_PROBE_0_DEBUG(hci1394_isr_arreq_enter, HCI1394_TNF_HAL_STACK, ""); 849 850 hci1394_ohci_intr_clear(soft_state->ohci, OHCI_INTR_RQPKT); 851 852 /* 853 * Process all requests that have been received. It is possible that we 854 * will call hci1394_async_arreq_process() even though there are no 855 * more requests to process. This would be because we have processed 856 * them earlier on. (i.e. we cleared interrupt, got another request 857 * and processed it. The interrupt would still be pending. 858 */ 859 do { 860 status = hci1394_async_arreq_process(soft_state->async, 861 &request_available); 862 if (status != DDI_SUCCESS) { 863 TNF_PROBE_0(hci1394_isr_arreq_pr_fail, 864 HCI1394_TNF_HAL_ERROR, ""); 865 } 866 } while (request_available == B_TRUE); 867 868 TNF_PROBE_0_DEBUG(hci1394_isr_arreq_exit, HCI1394_TNF_HAL_STACK, ""); 869 } 870 871 872 /* 873 * hci1394_isr_atresp_complete() 874 * Process all completed responses that we have sent out (i.e. HW gave us 875 * an ack). We get in a request off the bus (arreq) and send it up to the 876 * services layer, they send down a response to that request some time 877 * later. This interrupt signifies that the HW is done with the response. 878 * (i.e. it sent it out or failed it) 879 */ 880 static void 881 hci1394_isr_atresp_complete(hci1394_state_t *soft_state) 882 { 883 boolean_t response_available; 884 int status; 885 886 887 ASSERT(soft_state != NULL); 888 TNF_PROBE_0_DEBUG(hci1394_isr_atresp_complete_enter, 889 HCI1394_TNF_HAL_STACK, ""); 890 891 hci1394_ohci_intr_clear(soft_state->ohci, OHCI_INTR_RESP_TX_CMPLT); 892 893 /* 894 * Processes all ack'd AT responses It is possible that we will call 895 * hci1394_async_atresp_process() even thought there are no more 896 * responses to process. This would be because we have processed 897 * them earlier on. (i.e. we cleared interrupt, then got another 898 * response and processed it. The interrupt would still be pending. 899 */ 900 do { 901 /* 902 * Process a single response. Do not flush Q. That is only 903 * done during bus reset processing. 904 */ 905 status = hci1394_async_atresp_process(soft_state->async, 906 B_FALSE, &response_available); 907 if (status != DDI_SUCCESS) { 908 TNF_PROBE_0(hci1394_isr_atresp_complete_pr_fail, 909 HCI1394_TNF_HAL_ERROR, ""); 910 } 911 } while (response_available == B_TRUE); 912 913 TNF_PROBE_0_DEBUG(hci1394_isr_atresp_complete_exit, 914 HCI1394_TNF_HAL_STACK, ""); 915 } 916