1 // SPDX-License-Identifier: GPL-2.0 2 /* 3 * Microsemi Switchtec(tm) PCIe Management Driver 4 * Copyright (c) 2017, Microsemi Corporation 5 */ 6 7 #include <linux/switchtec.h> 8 #include <linux/switchtec_ioctl.h> 9 10 #include <linux/interrupt.h> 11 #include <linux/module.h> 12 #include <linux/fs.h> 13 #include <linux/uaccess.h> 14 #include <linux/poll.h> 15 #include <linux/wait.h> 16 #include <linux/io-64-nonatomic-lo-hi.h> 17 #include <linux/nospec.h> 18 19 MODULE_DESCRIPTION("Microsemi Switchtec(tm) PCIe Management Driver"); 20 MODULE_VERSION("0.1"); 21 MODULE_LICENSE("GPL"); 22 MODULE_AUTHOR("Microsemi Corporation"); 23 24 static int max_devices = 16; 25 module_param(max_devices, int, 0644); 26 MODULE_PARM_DESC(max_devices, "max number of switchtec device instances"); 27 28 static bool use_dma_mrpc = true; 29 module_param(use_dma_mrpc, bool, 0644); 30 MODULE_PARM_DESC(use_dma_mrpc, 31 "Enable the use of the DMA MRPC feature"); 32 33 static int nirqs = 32; 34 module_param(nirqs, int, 0644); 35 MODULE_PARM_DESC(nirqs, "number of interrupts to allocate (more may be useful for NTB applications)"); 36 37 static dev_t switchtec_devt; 38 static DEFINE_IDA(switchtec_minor_ida); 39 40 struct class *switchtec_class; 41 EXPORT_SYMBOL_GPL(switchtec_class); 42 43 enum mrpc_state { 44 MRPC_IDLE = 0, 45 MRPC_QUEUED, 46 MRPC_RUNNING, 47 MRPC_DONE, 48 }; 49 50 struct switchtec_user { 51 struct switchtec_dev *stdev; 52 53 enum mrpc_state state; 54 55 wait_queue_head_t cmd_comp; 56 struct kref kref; 57 struct list_head list; 58 59 bool cmd_done; 60 u32 cmd; 61 u32 status; 62 u32 return_code; 63 size_t data_len; 64 size_t read_len; 65 unsigned char data[SWITCHTEC_MRPC_PAYLOAD_SIZE]; 66 int event_cnt; 67 }; 68 69 static struct switchtec_user *stuser_create(struct switchtec_dev *stdev) 70 { 71 struct switchtec_user *stuser; 72 73 stuser = kzalloc(sizeof(*stuser), GFP_KERNEL); 74 if (!stuser) 75 return ERR_PTR(-ENOMEM); 76 77 get_device(&stdev->dev); 78 stuser->stdev = stdev; 79 kref_init(&stuser->kref); 80 INIT_LIST_HEAD(&stuser->list); 81 init_waitqueue_head(&stuser->cmd_comp); 82 stuser->event_cnt = atomic_read(&stdev->event_cnt); 83 84 dev_dbg(&stdev->dev, "%s: %p\n", __func__, stuser); 85 86 return stuser; 87 } 88 89 static void stuser_free(struct kref *kref) 90 { 91 struct switchtec_user *stuser; 92 93 stuser = container_of(kref, struct switchtec_user, kref); 94 95 dev_dbg(&stuser->stdev->dev, "%s: %p\n", __func__, stuser); 96 97 put_device(&stuser->stdev->dev); 98 kfree(stuser); 99 } 100 101 static void stuser_put(struct switchtec_user *stuser) 102 { 103 kref_put(&stuser->kref, stuser_free); 104 } 105 106 static void stuser_set_state(struct switchtec_user *stuser, 107 enum mrpc_state state) 108 { 109 /* requires the mrpc_mutex to already be held when called */ 110 111 const char * const state_names[] = { 112 [MRPC_IDLE] = "IDLE", 113 [MRPC_QUEUED] = "QUEUED", 114 [MRPC_RUNNING] = "RUNNING", 115 [MRPC_DONE] = "DONE", 116 }; 117 118 stuser->state = state; 119 120 dev_dbg(&stuser->stdev->dev, "stuser state %p -> %s", 121 stuser, state_names[state]); 122 } 123 124 static void mrpc_complete_cmd(struct switchtec_dev *stdev); 125 126 static void flush_wc_buf(struct switchtec_dev *stdev) 127 { 128 struct ntb_dbmsg_regs __iomem *mmio_dbmsg; 129 130 /* 131 * odb (outbound doorbell) register is processed by low latency 132 * hardware and w/o side effect 133 */ 134 mmio_dbmsg = (void __iomem *)stdev->mmio_ntb + 135 SWITCHTEC_NTB_REG_DBMSG_OFFSET; 136 ioread32(&mmio_dbmsg->odb); 137 } 138 139 static void mrpc_cmd_submit(struct switchtec_dev *stdev) 140 { 141 /* requires the mrpc_mutex to already be held when called */ 142 143 struct switchtec_user *stuser; 144 145 if (stdev->mrpc_busy) 146 return; 147 148 if (list_empty(&stdev->mrpc_queue)) 149 return; 150 151 stuser = list_entry(stdev->mrpc_queue.next, struct switchtec_user, 152 list); 153 154 if (stdev->dma_mrpc) { 155 stdev->dma_mrpc->status = SWITCHTEC_MRPC_STATUS_INPROGRESS; 156 memset(stdev->dma_mrpc->data, 0xFF, SWITCHTEC_MRPC_PAYLOAD_SIZE); 157 } 158 159 stuser_set_state(stuser, MRPC_RUNNING); 160 stdev->mrpc_busy = 1; 161 memcpy_toio(&stdev->mmio_mrpc->input_data, 162 stuser->data, stuser->data_len); 163 flush_wc_buf(stdev); 164 iowrite32(stuser->cmd, &stdev->mmio_mrpc->cmd); 165 166 schedule_delayed_work(&stdev->mrpc_timeout, 167 msecs_to_jiffies(500)); 168 } 169 170 static int mrpc_queue_cmd(struct switchtec_user *stuser) 171 { 172 /* requires the mrpc_mutex to already be held when called */ 173 174 struct switchtec_dev *stdev = stuser->stdev; 175 176 kref_get(&stuser->kref); 177 stuser->read_len = sizeof(stuser->data); 178 stuser_set_state(stuser, MRPC_QUEUED); 179 stuser->cmd_done = false; 180 list_add_tail(&stuser->list, &stdev->mrpc_queue); 181 182 mrpc_cmd_submit(stdev); 183 184 return 0; 185 } 186 187 static void mrpc_complete_cmd(struct switchtec_dev *stdev) 188 { 189 /* requires the mrpc_mutex to already be held when called */ 190 struct switchtec_user *stuser; 191 192 if (list_empty(&stdev->mrpc_queue)) 193 return; 194 195 stuser = list_entry(stdev->mrpc_queue.next, struct switchtec_user, 196 list); 197 198 if (stdev->dma_mrpc) 199 stuser->status = stdev->dma_mrpc->status; 200 else 201 stuser->status = ioread32(&stdev->mmio_mrpc->status); 202 203 if (stuser->status == SWITCHTEC_MRPC_STATUS_INPROGRESS) 204 return; 205 206 stuser_set_state(stuser, MRPC_DONE); 207 stuser->return_code = 0; 208 209 if (stuser->status != SWITCHTEC_MRPC_STATUS_DONE) 210 goto out; 211 212 if (stdev->dma_mrpc) 213 stuser->return_code = stdev->dma_mrpc->rtn_code; 214 else 215 stuser->return_code = ioread32(&stdev->mmio_mrpc->ret_value); 216 if (stuser->return_code != 0) 217 goto out; 218 219 if (stdev->dma_mrpc) 220 memcpy(stuser->data, &stdev->dma_mrpc->data, 221 stuser->read_len); 222 else 223 memcpy_fromio(stuser->data, &stdev->mmio_mrpc->output_data, 224 stuser->read_len); 225 out: 226 stuser->cmd_done = true; 227 wake_up_interruptible(&stuser->cmd_comp); 228 list_del_init(&stuser->list); 229 stuser_put(stuser); 230 stdev->mrpc_busy = 0; 231 232 mrpc_cmd_submit(stdev); 233 } 234 235 static void mrpc_event_work(struct work_struct *work) 236 { 237 struct switchtec_dev *stdev; 238 239 stdev = container_of(work, struct switchtec_dev, mrpc_work); 240 241 dev_dbg(&stdev->dev, "%s\n", __func__); 242 243 mutex_lock(&stdev->mrpc_mutex); 244 cancel_delayed_work(&stdev->mrpc_timeout); 245 mrpc_complete_cmd(stdev); 246 mutex_unlock(&stdev->mrpc_mutex); 247 } 248 249 static void mrpc_timeout_work(struct work_struct *work) 250 { 251 struct switchtec_dev *stdev; 252 u32 status; 253 254 stdev = container_of(work, struct switchtec_dev, mrpc_timeout.work); 255 256 dev_dbg(&stdev->dev, "%s\n", __func__); 257 258 mutex_lock(&stdev->mrpc_mutex); 259 260 if (stdev->dma_mrpc) 261 status = stdev->dma_mrpc->status; 262 else 263 status = ioread32(&stdev->mmio_mrpc->status); 264 if (status == SWITCHTEC_MRPC_STATUS_INPROGRESS) { 265 schedule_delayed_work(&stdev->mrpc_timeout, 266 msecs_to_jiffies(500)); 267 goto out; 268 } 269 270 mrpc_complete_cmd(stdev); 271 out: 272 mutex_unlock(&stdev->mrpc_mutex); 273 } 274 275 static ssize_t device_version_show(struct device *dev, 276 struct device_attribute *attr, char *buf) 277 { 278 struct switchtec_dev *stdev = to_stdev(dev); 279 u32 ver; 280 281 ver = ioread32(&stdev->mmio_sys_info->device_version); 282 283 return sprintf(buf, "%x\n", ver); 284 } 285 static DEVICE_ATTR_RO(device_version); 286 287 static ssize_t fw_version_show(struct device *dev, 288 struct device_attribute *attr, char *buf) 289 { 290 struct switchtec_dev *stdev = to_stdev(dev); 291 u32 ver; 292 293 ver = ioread32(&stdev->mmio_sys_info->firmware_version); 294 295 return sprintf(buf, "%08x\n", ver); 296 } 297 static DEVICE_ATTR_RO(fw_version); 298 299 static ssize_t io_string_show(char *buf, void __iomem *attr, size_t len) 300 { 301 int i; 302 303 memcpy_fromio(buf, attr, len); 304 buf[len] = '\n'; 305 buf[len + 1] = 0; 306 307 for (i = len - 1; i > 0; i--) { 308 if (buf[i] != ' ') 309 break; 310 buf[i] = '\n'; 311 buf[i + 1] = 0; 312 } 313 314 return strlen(buf); 315 } 316 317 #define DEVICE_ATTR_SYS_INFO_STR(field) \ 318 static ssize_t field ## _show(struct device *dev, \ 319 struct device_attribute *attr, char *buf) \ 320 { \ 321 struct switchtec_dev *stdev = to_stdev(dev); \ 322 struct sys_info_regs __iomem *si = stdev->mmio_sys_info; \ 323 if (stdev->gen == SWITCHTEC_GEN3) \ 324 return io_string_show(buf, &si->gen3.field, \ 325 sizeof(si->gen3.field)); \ 326 else if (stdev->gen == SWITCHTEC_GEN4) \ 327 return io_string_show(buf, &si->gen4.field, \ 328 sizeof(si->gen4.field)); \ 329 else \ 330 return -ENOTSUPP; \ 331 } \ 332 \ 333 static DEVICE_ATTR_RO(field) 334 335 DEVICE_ATTR_SYS_INFO_STR(vendor_id); 336 DEVICE_ATTR_SYS_INFO_STR(product_id); 337 DEVICE_ATTR_SYS_INFO_STR(product_revision); 338 339 static ssize_t component_vendor_show(struct device *dev, 340 struct device_attribute *attr, char *buf) 341 { 342 struct switchtec_dev *stdev = to_stdev(dev); 343 struct sys_info_regs __iomem *si = stdev->mmio_sys_info; 344 345 /* component_vendor field not supported after gen3 */ 346 if (stdev->gen != SWITCHTEC_GEN3) 347 return sprintf(buf, "none\n"); 348 349 return io_string_show(buf, &si->gen3.component_vendor, 350 sizeof(si->gen3.component_vendor)); 351 } 352 static DEVICE_ATTR_RO(component_vendor); 353 354 static ssize_t component_id_show(struct device *dev, 355 struct device_attribute *attr, char *buf) 356 { 357 struct switchtec_dev *stdev = to_stdev(dev); 358 int id = ioread16(&stdev->mmio_sys_info->gen3.component_id); 359 360 /* component_id field not supported after gen3 */ 361 if (stdev->gen != SWITCHTEC_GEN3) 362 return sprintf(buf, "none\n"); 363 364 return sprintf(buf, "PM%04X\n", id); 365 } 366 static DEVICE_ATTR_RO(component_id); 367 368 static ssize_t component_revision_show(struct device *dev, 369 struct device_attribute *attr, char *buf) 370 { 371 struct switchtec_dev *stdev = to_stdev(dev); 372 int rev = ioread8(&stdev->mmio_sys_info->gen3.component_revision); 373 374 /* component_revision field not supported after gen3 */ 375 if (stdev->gen != SWITCHTEC_GEN3) 376 return sprintf(buf, "255\n"); 377 378 return sprintf(buf, "%d\n", rev); 379 } 380 static DEVICE_ATTR_RO(component_revision); 381 382 static ssize_t partition_show(struct device *dev, 383 struct device_attribute *attr, char *buf) 384 { 385 struct switchtec_dev *stdev = to_stdev(dev); 386 387 return sprintf(buf, "%d\n", stdev->partition); 388 } 389 static DEVICE_ATTR_RO(partition); 390 391 static ssize_t partition_count_show(struct device *dev, 392 struct device_attribute *attr, char *buf) 393 { 394 struct switchtec_dev *stdev = to_stdev(dev); 395 396 return sprintf(buf, "%d\n", stdev->partition_count); 397 } 398 static DEVICE_ATTR_RO(partition_count); 399 400 static struct attribute *switchtec_device_attrs[] = { 401 &dev_attr_device_version.attr, 402 &dev_attr_fw_version.attr, 403 &dev_attr_vendor_id.attr, 404 &dev_attr_product_id.attr, 405 &dev_attr_product_revision.attr, 406 &dev_attr_component_vendor.attr, 407 &dev_attr_component_id.attr, 408 &dev_attr_component_revision.attr, 409 &dev_attr_partition.attr, 410 &dev_attr_partition_count.attr, 411 NULL, 412 }; 413 414 ATTRIBUTE_GROUPS(switchtec_device); 415 416 static int switchtec_dev_open(struct inode *inode, struct file *filp) 417 { 418 struct switchtec_dev *stdev; 419 struct switchtec_user *stuser; 420 421 stdev = container_of(inode->i_cdev, struct switchtec_dev, cdev); 422 423 stuser = stuser_create(stdev); 424 if (IS_ERR(stuser)) 425 return PTR_ERR(stuser); 426 427 filp->private_data = stuser; 428 stream_open(inode, filp); 429 430 dev_dbg(&stdev->dev, "%s: %p\n", __func__, stuser); 431 432 return 0; 433 } 434 435 static int switchtec_dev_release(struct inode *inode, struct file *filp) 436 { 437 struct switchtec_user *stuser = filp->private_data; 438 439 stuser_put(stuser); 440 441 return 0; 442 } 443 444 static int lock_mutex_and_test_alive(struct switchtec_dev *stdev) 445 { 446 if (mutex_lock_interruptible(&stdev->mrpc_mutex)) 447 return -EINTR; 448 449 if (!stdev->alive) { 450 mutex_unlock(&stdev->mrpc_mutex); 451 return -ENODEV; 452 } 453 454 return 0; 455 } 456 457 static ssize_t switchtec_dev_write(struct file *filp, const char __user *data, 458 size_t size, loff_t *off) 459 { 460 struct switchtec_user *stuser = filp->private_data; 461 struct switchtec_dev *stdev = stuser->stdev; 462 int rc; 463 464 if (size < sizeof(stuser->cmd) || 465 size > sizeof(stuser->cmd) + sizeof(stuser->data)) 466 return -EINVAL; 467 468 stuser->data_len = size - sizeof(stuser->cmd); 469 470 rc = lock_mutex_and_test_alive(stdev); 471 if (rc) 472 return rc; 473 474 if (stuser->state != MRPC_IDLE) { 475 rc = -EBADE; 476 goto out; 477 } 478 479 rc = copy_from_user(&stuser->cmd, data, sizeof(stuser->cmd)); 480 if (rc) { 481 rc = -EFAULT; 482 goto out; 483 } 484 if (((MRPC_CMD_ID(stuser->cmd) == MRPC_GAS_WRITE) || 485 (MRPC_CMD_ID(stuser->cmd) == MRPC_GAS_READ)) && 486 !capable(CAP_SYS_ADMIN)) { 487 rc = -EPERM; 488 goto out; 489 } 490 491 data += sizeof(stuser->cmd); 492 rc = copy_from_user(&stuser->data, data, size - sizeof(stuser->cmd)); 493 if (rc) { 494 rc = -EFAULT; 495 goto out; 496 } 497 498 rc = mrpc_queue_cmd(stuser); 499 500 out: 501 mutex_unlock(&stdev->mrpc_mutex); 502 503 if (rc) 504 return rc; 505 506 return size; 507 } 508 509 static ssize_t switchtec_dev_read(struct file *filp, char __user *data, 510 size_t size, loff_t *off) 511 { 512 struct switchtec_user *stuser = filp->private_data; 513 struct switchtec_dev *stdev = stuser->stdev; 514 int rc; 515 516 if (size < sizeof(stuser->cmd) || 517 size > sizeof(stuser->cmd) + sizeof(stuser->data)) 518 return -EINVAL; 519 520 rc = lock_mutex_and_test_alive(stdev); 521 if (rc) 522 return rc; 523 524 if (stuser->state == MRPC_IDLE) { 525 mutex_unlock(&stdev->mrpc_mutex); 526 return -EBADE; 527 } 528 529 stuser->read_len = size - sizeof(stuser->return_code); 530 531 mutex_unlock(&stdev->mrpc_mutex); 532 533 if (filp->f_flags & O_NONBLOCK) { 534 if (!stuser->cmd_done) 535 return -EAGAIN; 536 } else { 537 rc = wait_event_interruptible(stuser->cmd_comp, 538 stuser->cmd_done); 539 if (rc < 0) 540 return rc; 541 } 542 543 rc = lock_mutex_and_test_alive(stdev); 544 if (rc) 545 return rc; 546 547 if (stuser->state != MRPC_DONE) { 548 mutex_unlock(&stdev->mrpc_mutex); 549 return -EBADE; 550 } 551 552 rc = copy_to_user(data, &stuser->return_code, 553 sizeof(stuser->return_code)); 554 if (rc) { 555 rc = -EFAULT; 556 goto out; 557 } 558 559 data += sizeof(stuser->return_code); 560 rc = copy_to_user(data, &stuser->data, 561 size - sizeof(stuser->return_code)); 562 if (rc) { 563 rc = -EFAULT; 564 goto out; 565 } 566 567 stuser_set_state(stuser, MRPC_IDLE); 568 569 out: 570 mutex_unlock(&stdev->mrpc_mutex); 571 572 if (stuser->status == SWITCHTEC_MRPC_STATUS_DONE) 573 return size; 574 else if (stuser->status == SWITCHTEC_MRPC_STATUS_INTERRUPTED) 575 return -ENXIO; 576 else 577 return -EBADMSG; 578 } 579 580 static __poll_t switchtec_dev_poll(struct file *filp, poll_table *wait) 581 { 582 struct switchtec_user *stuser = filp->private_data; 583 struct switchtec_dev *stdev = stuser->stdev; 584 __poll_t ret = 0; 585 586 poll_wait(filp, &stuser->cmd_comp, wait); 587 poll_wait(filp, &stdev->event_wq, wait); 588 589 if (lock_mutex_and_test_alive(stdev)) 590 return EPOLLIN | EPOLLRDHUP | EPOLLOUT | EPOLLERR | EPOLLHUP; 591 592 mutex_unlock(&stdev->mrpc_mutex); 593 594 if (stuser->cmd_done) 595 ret |= EPOLLIN | EPOLLRDNORM; 596 597 if (stuser->event_cnt != atomic_read(&stdev->event_cnt)) 598 ret |= EPOLLPRI | EPOLLRDBAND; 599 600 return ret; 601 } 602 603 static int ioctl_flash_info(struct switchtec_dev *stdev, 604 struct switchtec_ioctl_flash_info __user *uinfo) 605 { 606 struct switchtec_ioctl_flash_info info = {0}; 607 struct flash_info_regs __iomem *fi = stdev->mmio_flash_info; 608 609 if (stdev->gen == SWITCHTEC_GEN3) { 610 info.flash_length = ioread32(&fi->gen3.flash_length); 611 info.num_partitions = SWITCHTEC_NUM_PARTITIONS_GEN3; 612 } else if (stdev->gen == SWITCHTEC_GEN4) { 613 info.flash_length = ioread32(&fi->gen4.flash_length); 614 info.num_partitions = SWITCHTEC_NUM_PARTITIONS_GEN4; 615 } else { 616 return -ENOTSUPP; 617 } 618 619 if (copy_to_user(uinfo, &info, sizeof(info))) 620 return -EFAULT; 621 622 return 0; 623 } 624 625 static void set_fw_info_part(struct switchtec_ioctl_flash_part_info *info, 626 struct partition_info __iomem *pi) 627 { 628 info->address = ioread32(&pi->address); 629 info->length = ioread32(&pi->length); 630 } 631 632 static int flash_part_info_gen3(struct switchtec_dev *stdev, 633 struct switchtec_ioctl_flash_part_info *info) 634 { 635 struct flash_info_regs_gen3 __iomem *fi = 636 &stdev->mmio_flash_info->gen3; 637 struct sys_info_regs_gen3 __iomem *si = &stdev->mmio_sys_info->gen3; 638 u32 active_addr = -1; 639 640 switch (info->flash_partition) { 641 case SWITCHTEC_IOCTL_PART_CFG0: 642 active_addr = ioread32(&fi->active_cfg); 643 set_fw_info_part(info, &fi->cfg0); 644 if (ioread16(&si->cfg_running) == SWITCHTEC_GEN3_CFG0_RUNNING) 645 info->active |= SWITCHTEC_IOCTL_PART_RUNNING; 646 break; 647 case SWITCHTEC_IOCTL_PART_CFG1: 648 active_addr = ioread32(&fi->active_cfg); 649 set_fw_info_part(info, &fi->cfg1); 650 if (ioread16(&si->cfg_running) == SWITCHTEC_GEN3_CFG1_RUNNING) 651 info->active |= SWITCHTEC_IOCTL_PART_RUNNING; 652 break; 653 case SWITCHTEC_IOCTL_PART_IMG0: 654 active_addr = ioread32(&fi->active_img); 655 set_fw_info_part(info, &fi->img0); 656 if (ioread16(&si->img_running) == SWITCHTEC_GEN3_IMG0_RUNNING) 657 info->active |= SWITCHTEC_IOCTL_PART_RUNNING; 658 break; 659 case SWITCHTEC_IOCTL_PART_IMG1: 660 active_addr = ioread32(&fi->active_img); 661 set_fw_info_part(info, &fi->img1); 662 if (ioread16(&si->img_running) == SWITCHTEC_GEN3_IMG1_RUNNING) 663 info->active |= SWITCHTEC_IOCTL_PART_RUNNING; 664 break; 665 case SWITCHTEC_IOCTL_PART_NVLOG: 666 set_fw_info_part(info, &fi->nvlog); 667 break; 668 case SWITCHTEC_IOCTL_PART_VENDOR0: 669 set_fw_info_part(info, &fi->vendor[0]); 670 break; 671 case SWITCHTEC_IOCTL_PART_VENDOR1: 672 set_fw_info_part(info, &fi->vendor[1]); 673 break; 674 case SWITCHTEC_IOCTL_PART_VENDOR2: 675 set_fw_info_part(info, &fi->vendor[2]); 676 break; 677 case SWITCHTEC_IOCTL_PART_VENDOR3: 678 set_fw_info_part(info, &fi->vendor[3]); 679 break; 680 case SWITCHTEC_IOCTL_PART_VENDOR4: 681 set_fw_info_part(info, &fi->vendor[4]); 682 break; 683 case SWITCHTEC_IOCTL_PART_VENDOR5: 684 set_fw_info_part(info, &fi->vendor[5]); 685 break; 686 case SWITCHTEC_IOCTL_PART_VENDOR6: 687 set_fw_info_part(info, &fi->vendor[6]); 688 break; 689 case SWITCHTEC_IOCTL_PART_VENDOR7: 690 set_fw_info_part(info, &fi->vendor[7]); 691 break; 692 default: 693 return -EINVAL; 694 } 695 696 if (info->address == active_addr) 697 info->active |= SWITCHTEC_IOCTL_PART_ACTIVE; 698 699 return 0; 700 } 701 702 static int flash_part_info_gen4(struct switchtec_dev *stdev, 703 struct switchtec_ioctl_flash_part_info *info) 704 { 705 struct flash_info_regs_gen4 __iomem *fi = &stdev->mmio_flash_info->gen4; 706 struct sys_info_regs_gen4 __iomem *si = &stdev->mmio_sys_info->gen4; 707 struct active_partition_info_gen4 __iomem *af = &fi->active_flag; 708 709 switch (info->flash_partition) { 710 case SWITCHTEC_IOCTL_PART_MAP_0: 711 set_fw_info_part(info, &fi->map0); 712 break; 713 case SWITCHTEC_IOCTL_PART_MAP_1: 714 set_fw_info_part(info, &fi->map1); 715 break; 716 case SWITCHTEC_IOCTL_PART_KEY_0: 717 set_fw_info_part(info, &fi->key0); 718 if (ioread8(&af->key) == SWITCHTEC_GEN4_KEY0_ACTIVE) 719 info->active |= SWITCHTEC_IOCTL_PART_ACTIVE; 720 if (ioread16(&si->key_running) == SWITCHTEC_GEN4_KEY0_RUNNING) 721 info->active |= SWITCHTEC_IOCTL_PART_RUNNING; 722 break; 723 case SWITCHTEC_IOCTL_PART_KEY_1: 724 set_fw_info_part(info, &fi->key1); 725 if (ioread8(&af->key) == SWITCHTEC_GEN4_KEY1_ACTIVE) 726 info->active |= SWITCHTEC_IOCTL_PART_ACTIVE; 727 if (ioread16(&si->key_running) == SWITCHTEC_GEN4_KEY1_RUNNING) 728 info->active |= SWITCHTEC_IOCTL_PART_RUNNING; 729 break; 730 case SWITCHTEC_IOCTL_PART_BL2_0: 731 set_fw_info_part(info, &fi->bl2_0); 732 if (ioread8(&af->bl2) == SWITCHTEC_GEN4_BL2_0_ACTIVE) 733 info->active |= SWITCHTEC_IOCTL_PART_ACTIVE; 734 if (ioread16(&si->bl2_running) == SWITCHTEC_GEN4_BL2_0_RUNNING) 735 info->active |= SWITCHTEC_IOCTL_PART_RUNNING; 736 break; 737 case SWITCHTEC_IOCTL_PART_BL2_1: 738 set_fw_info_part(info, &fi->bl2_1); 739 if (ioread8(&af->bl2) == SWITCHTEC_GEN4_BL2_1_ACTIVE) 740 info->active |= SWITCHTEC_IOCTL_PART_ACTIVE; 741 if (ioread16(&si->bl2_running) == SWITCHTEC_GEN4_BL2_1_RUNNING) 742 info->active |= SWITCHTEC_IOCTL_PART_RUNNING; 743 break; 744 case SWITCHTEC_IOCTL_PART_CFG0: 745 set_fw_info_part(info, &fi->cfg0); 746 if (ioread8(&af->cfg) == SWITCHTEC_GEN4_CFG0_ACTIVE) 747 info->active |= SWITCHTEC_IOCTL_PART_ACTIVE; 748 if (ioread16(&si->cfg_running) == SWITCHTEC_GEN4_CFG0_RUNNING) 749 info->active |= SWITCHTEC_IOCTL_PART_RUNNING; 750 break; 751 case SWITCHTEC_IOCTL_PART_CFG1: 752 set_fw_info_part(info, &fi->cfg1); 753 if (ioread8(&af->cfg) == SWITCHTEC_GEN4_CFG1_ACTIVE) 754 info->active |= SWITCHTEC_IOCTL_PART_ACTIVE; 755 if (ioread16(&si->cfg_running) == SWITCHTEC_GEN4_CFG1_RUNNING) 756 info->active |= SWITCHTEC_IOCTL_PART_RUNNING; 757 break; 758 case SWITCHTEC_IOCTL_PART_IMG0: 759 set_fw_info_part(info, &fi->img0); 760 if (ioread8(&af->img) == SWITCHTEC_GEN4_IMG0_ACTIVE) 761 info->active |= SWITCHTEC_IOCTL_PART_ACTIVE; 762 if (ioread16(&si->img_running) == SWITCHTEC_GEN4_IMG0_RUNNING) 763 info->active |= SWITCHTEC_IOCTL_PART_RUNNING; 764 break; 765 case SWITCHTEC_IOCTL_PART_IMG1: 766 set_fw_info_part(info, &fi->img1); 767 if (ioread8(&af->img) == SWITCHTEC_GEN4_IMG1_ACTIVE) 768 info->active |= SWITCHTEC_IOCTL_PART_ACTIVE; 769 if (ioread16(&si->img_running) == SWITCHTEC_GEN4_IMG1_RUNNING) 770 info->active |= SWITCHTEC_IOCTL_PART_RUNNING; 771 break; 772 case SWITCHTEC_IOCTL_PART_NVLOG: 773 set_fw_info_part(info, &fi->nvlog); 774 break; 775 case SWITCHTEC_IOCTL_PART_VENDOR0: 776 set_fw_info_part(info, &fi->vendor[0]); 777 break; 778 case SWITCHTEC_IOCTL_PART_VENDOR1: 779 set_fw_info_part(info, &fi->vendor[1]); 780 break; 781 case SWITCHTEC_IOCTL_PART_VENDOR2: 782 set_fw_info_part(info, &fi->vendor[2]); 783 break; 784 case SWITCHTEC_IOCTL_PART_VENDOR3: 785 set_fw_info_part(info, &fi->vendor[3]); 786 break; 787 case SWITCHTEC_IOCTL_PART_VENDOR4: 788 set_fw_info_part(info, &fi->vendor[4]); 789 break; 790 case SWITCHTEC_IOCTL_PART_VENDOR5: 791 set_fw_info_part(info, &fi->vendor[5]); 792 break; 793 case SWITCHTEC_IOCTL_PART_VENDOR6: 794 set_fw_info_part(info, &fi->vendor[6]); 795 break; 796 case SWITCHTEC_IOCTL_PART_VENDOR7: 797 set_fw_info_part(info, &fi->vendor[7]); 798 break; 799 default: 800 return -EINVAL; 801 } 802 803 return 0; 804 } 805 806 static int ioctl_flash_part_info(struct switchtec_dev *stdev, 807 struct switchtec_ioctl_flash_part_info __user *uinfo) 808 { 809 int ret; 810 struct switchtec_ioctl_flash_part_info info = {0}; 811 812 if (copy_from_user(&info, uinfo, sizeof(info))) 813 return -EFAULT; 814 815 if (stdev->gen == SWITCHTEC_GEN3) { 816 ret = flash_part_info_gen3(stdev, &info); 817 if (ret) 818 return ret; 819 } else if (stdev->gen == SWITCHTEC_GEN4) { 820 ret = flash_part_info_gen4(stdev, &info); 821 if (ret) 822 return ret; 823 } else { 824 return -ENOTSUPP; 825 } 826 827 if (copy_to_user(uinfo, &info, sizeof(info))) 828 return -EFAULT; 829 830 return 0; 831 } 832 833 static int ioctl_event_summary(struct switchtec_dev *stdev, 834 struct switchtec_user *stuser, 835 struct switchtec_ioctl_event_summary __user *usum, 836 size_t size) 837 { 838 struct switchtec_ioctl_event_summary *s; 839 int i; 840 u32 reg; 841 int ret = 0; 842 843 s = kzalloc(sizeof(*s), GFP_KERNEL); 844 if (!s) 845 return -ENOMEM; 846 847 s->global = ioread32(&stdev->mmio_sw_event->global_summary); 848 s->part_bitmap = ioread64(&stdev->mmio_sw_event->part_event_bitmap); 849 s->local_part = ioread32(&stdev->mmio_part_cfg->part_event_summary); 850 851 for (i = 0; i < stdev->partition_count; i++) { 852 reg = ioread32(&stdev->mmio_part_cfg_all[i].part_event_summary); 853 s->part[i] = reg; 854 } 855 856 for (i = 0; i < stdev->pff_csr_count; i++) { 857 reg = ioread32(&stdev->mmio_pff_csr[i].pff_event_summary); 858 s->pff[i] = reg; 859 } 860 861 if (copy_to_user(usum, s, size)) { 862 ret = -EFAULT; 863 goto error_case; 864 } 865 866 stuser->event_cnt = atomic_read(&stdev->event_cnt); 867 868 error_case: 869 kfree(s); 870 return ret; 871 } 872 873 static u32 __iomem *global_ev_reg(struct switchtec_dev *stdev, 874 size_t offset, int index) 875 { 876 return (void __iomem *)stdev->mmio_sw_event + offset; 877 } 878 879 static u32 __iomem *part_ev_reg(struct switchtec_dev *stdev, 880 size_t offset, int index) 881 { 882 return (void __iomem *)&stdev->mmio_part_cfg_all[index] + offset; 883 } 884 885 static u32 __iomem *pff_ev_reg(struct switchtec_dev *stdev, 886 size_t offset, int index) 887 { 888 return (void __iomem *)&stdev->mmio_pff_csr[index] + offset; 889 } 890 891 #define EV_GLB(i, r)[i] = {offsetof(struct sw_event_regs, r), global_ev_reg} 892 #define EV_PAR(i, r)[i] = {offsetof(struct part_cfg_regs, r), part_ev_reg} 893 #define EV_PFF(i, r)[i] = {offsetof(struct pff_csr_regs, r), pff_ev_reg} 894 895 static const struct event_reg { 896 size_t offset; 897 u32 __iomem *(*map_reg)(struct switchtec_dev *stdev, 898 size_t offset, int index); 899 } event_regs[] = { 900 EV_GLB(SWITCHTEC_IOCTL_EVENT_STACK_ERROR, stack_error_event_hdr), 901 EV_GLB(SWITCHTEC_IOCTL_EVENT_PPU_ERROR, ppu_error_event_hdr), 902 EV_GLB(SWITCHTEC_IOCTL_EVENT_ISP_ERROR, isp_error_event_hdr), 903 EV_GLB(SWITCHTEC_IOCTL_EVENT_SYS_RESET, sys_reset_event_hdr), 904 EV_GLB(SWITCHTEC_IOCTL_EVENT_FW_EXC, fw_exception_hdr), 905 EV_GLB(SWITCHTEC_IOCTL_EVENT_FW_NMI, fw_nmi_hdr), 906 EV_GLB(SWITCHTEC_IOCTL_EVENT_FW_NON_FATAL, fw_non_fatal_hdr), 907 EV_GLB(SWITCHTEC_IOCTL_EVENT_FW_FATAL, fw_fatal_hdr), 908 EV_GLB(SWITCHTEC_IOCTL_EVENT_TWI_MRPC_COMP, twi_mrpc_comp_hdr), 909 EV_GLB(SWITCHTEC_IOCTL_EVENT_TWI_MRPC_COMP_ASYNC, 910 twi_mrpc_comp_async_hdr), 911 EV_GLB(SWITCHTEC_IOCTL_EVENT_CLI_MRPC_COMP, cli_mrpc_comp_hdr), 912 EV_GLB(SWITCHTEC_IOCTL_EVENT_CLI_MRPC_COMP_ASYNC, 913 cli_mrpc_comp_async_hdr), 914 EV_GLB(SWITCHTEC_IOCTL_EVENT_GPIO_INT, gpio_interrupt_hdr), 915 EV_GLB(SWITCHTEC_IOCTL_EVENT_GFMS, gfms_event_hdr), 916 EV_PAR(SWITCHTEC_IOCTL_EVENT_PART_RESET, part_reset_hdr), 917 EV_PAR(SWITCHTEC_IOCTL_EVENT_MRPC_COMP, mrpc_comp_hdr), 918 EV_PAR(SWITCHTEC_IOCTL_EVENT_MRPC_COMP_ASYNC, mrpc_comp_async_hdr), 919 EV_PAR(SWITCHTEC_IOCTL_EVENT_DYN_PART_BIND_COMP, dyn_binding_hdr), 920 EV_PAR(SWITCHTEC_IOCTL_EVENT_INTERCOMM_REQ_NOTIFY, 921 intercomm_notify_hdr), 922 EV_PFF(SWITCHTEC_IOCTL_EVENT_AER_IN_P2P, aer_in_p2p_hdr), 923 EV_PFF(SWITCHTEC_IOCTL_EVENT_AER_IN_VEP, aer_in_vep_hdr), 924 EV_PFF(SWITCHTEC_IOCTL_EVENT_DPC, dpc_hdr), 925 EV_PFF(SWITCHTEC_IOCTL_EVENT_CTS, cts_hdr), 926 EV_PFF(SWITCHTEC_IOCTL_EVENT_UEC, uec_hdr), 927 EV_PFF(SWITCHTEC_IOCTL_EVENT_HOTPLUG, hotplug_hdr), 928 EV_PFF(SWITCHTEC_IOCTL_EVENT_IER, ier_hdr), 929 EV_PFF(SWITCHTEC_IOCTL_EVENT_THRESH, threshold_hdr), 930 EV_PFF(SWITCHTEC_IOCTL_EVENT_POWER_MGMT, power_mgmt_hdr), 931 EV_PFF(SWITCHTEC_IOCTL_EVENT_TLP_THROTTLING, tlp_throttling_hdr), 932 EV_PFF(SWITCHTEC_IOCTL_EVENT_FORCE_SPEED, force_speed_hdr), 933 EV_PFF(SWITCHTEC_IOCTL_EVENT_CREDIT_TIMEOUT, credit_timeout_hdr), 934 EV_PFF(SWITCHTEC_IOCTL_EVENT_LINK_STATE, link_state_hdr), 935 }; 936 937 static u32 __iomem *event_hdr_addr(struct switchtec_dev *stdev, 938 int event_id, int index) 939 { 940 size_t off; 941 942 if (event_id < 0 || event_id >= SWITCHTEC_IOCTL_MAX_EVENTS) 943 return ERR_PTR(-EINVAL); 944 945 off = event_regs[event_id].offset; 946 947 if (event_regs[event_id].map_reg == part_ev_reg) { 948 if (index == SWITCHTEC_IOCTL_EVENT_LOCAL_PART_IDX) 949 index = stdev->partition; 950 else if (index < 0 || index >= stdev->partition_count) 951 return ERR_PTR(-EINVAL); 952 } else if (event_regs[event_id].map_reg == pff_ev_reg) { 953 if (index < 0 || index >= stdev->pff_csr_count) 954 return ERR_PTR(-EINVAL); 955 } 956 957 return event_regs[event_id].map_reg(stdev, off, index); 958 } 959 960 static int event_ctl(struct switchtec_dev *stdev, 961 struct switchtec_ioctl_event_ctl *ctl) 962 { 963 int i; 964 u32 __iomem *reg; 965 u32 hdr; 966 967 reg = event_hdr_addr(stdev, ctl->event_id, ctl->index); 968 if (IS_ERR(reg)) 969 return PTR_ERR(reg); 970 971 hdr = ioread32(reg); 972 for (i = 0; i < ARRAY_SIZE(ctl->data); i++) 973 ctl->data[i] = ioread32(®[i + 1]); 974 975 ctl->occurred = hdr & SWITCHTEC_EVENT_OCCURRED; 976 ctl->count = (hdr >> 5) & 0xFF; 977 978 if (!(ctl->flags & SWITCHTEC_IOCTL_EVENT_FLAG_CLEAR)) 979 hdr &= ~SWITCHTEC_EVENT_CLEAR; 980 if (ctl->flags & SWITCHTEC_IOCTL_EVENT_FLAG_EN_POLL) 981 hdr |= SWITCHTEC_EVENT_EN_IRQ; 982 if (ctl->flags & SWITCHTEC_IOCTL_EVENT_FLAG_DIS_POLL) 983 hdr &= ~SWITCHTEC_EVENT_EN_IRQ; 984 if (ctl->flags & SWITCHTEC_IOCTL_EVENT_FLAG_EN_LOG) 985 hdr |= SWITCHTEC_EVENT_EN_LOG; 986 if (ctl->flags & SWITCHTEC_IOCTL_EVENT_FLAG_DIS_LOG) 987 hdr &= ~SWITCHTEC_EVENT_EN_LOG; 988 if (ctl->flags & SWITCHTEC_IOCTL_EVENT_FLAG_EN_CLI) 989 hdr |= SWITCHTEC_EVENT_EN_CLI; 990 if (ctl->flags & SWITCHTEC_IOCTL_EVENT_FLAG_DIS_CLI) 991 hdr &= ~SWITCHTEC_EVENT_EN_CLI; 992 if (ctl->flags & SWITCHTEC_IOCTL_EVENT_FLAG_EN_FATAL) 993 hdr |= SWITCHTEC_EVENT_FATAL; 994 if (ctl->flags & SWITCHTEC_IOCTL_EVENT_FLAG_DIS_FATAL) 995 hdr &= ~SWITCHTEC_EVENT_FATAL; 996 997 if (ctl->flags) 998 iowrite32(hdr, reg); 999 1000 ctl->flags = 0; 1001 if (hdr & SWITCHTEC_EVENT_EN_IRQ) 1002 ctl->flags |= SWITCHTEC_IOCTL_EVENT_FLAG_EN_POLL; 1003 if (hdr & SWITCHTEC_EVENT_EN_LOG) 1004 ctl->flags |= SWITCHTEC_IOCTL_EVENT_FLAG_EN_LOG; 1005 if (hdr & SWITCHTEC_EVENT_EN_CLI) 1006 ctl->flags |= SWITCHTEC_IOCTL_EVENT_FLAG_EN_CLI; 1007 if (hdr & SWITCHTEC_EVENT_FATAL) 1008 ctl->flags |= SWITCHTEC_IOCTL_EVENT_FLAG_EN_FATAL; 1009 1010 return 0; 1011 } 1012 1013 static int ioctl_event_ctl(struct switchtec_dev *stdev, 1014 struct switchtec_ioctl_event_ctl __user *uctl) 1015 { 1016 int ret; 1017 int nr_idxs; 1018 unsigned int event_flags; 1019 struct switchtec_ioctl_event_ctl ctl; 1020 1021 if (copy_from_user(&ctl, uctl, sizeof(ctl))) 1022 return -EFAULT; 1023 1024 if (ctl.event_id >= SWITCHTEC_IOCTL_MAX_EVENTS) 1025 return -EINVAL; 1026 1027 if (ctl.flags & SWITCHTEC_IOCTL_EVENT_FLAG_UNUSED) 1028 return -EINVAL; 1029 1030 if (ctl.index == SWITCHTEC_IOCTL_EVENT_IDX_ALL) { 1031 if (event_regs[ctl.event_id].map_reg == global_ev_reg) 1032 nr_idxs = 1; 1033 else if (event_regs[ctl.event_id].map_reg == part_ev_reg) 1034 nr_idxs = stdev->partition_count; 1035 else if (event_regs[ctl.event_id].map_reg == pff_ev_reg) 1036 nr_idxs = stdev->pff_csr_count; 1037 else 1038 return -EINVAL; 1039 1040 event_flags = ctl.flags; 1041 for (ctl.index = 0; ctl.index < nr_idxs; ctl.index++) { 1042 ctl.flags = event_flags; 1043 ret = event_ctl(stdev, &ctl); 1044 if (ret < 0) 1045 return ret; 1046 } 1047 } else { 1048 ret = event_ctl(stdev, &ctl); 1049 if (ret < 0) 1050 return ret; 1051 } 1052 1053 if (copy_to_user(uctl, &ctl, sizeof(ctl))) 1054 return -EFAULT; 1055 1056 return 0; 1057 } 1058 1059 static int ioctl_pff_to_port(struct switchtec_dev *stdev, 1060 struct switchtec_ioctl_pff_port *up) 1061 { 1062 int i, part; 1063 u32 reg; 1064 struct part_cfg_regs *pcfg; 1065 struct switchtec_ioctl_pff_port p; 1066 1067 if (copy_from_user(&p, up, sizeof(p))) 1068 return -EFAULT; 1069 1070 p.port = -1; 1071 for (part = 0; part < stdev->partition_count; part++) { 1072 pcfg = &stdev->mmio_part_cfg_all[part]; 1073 p.partition = part; 1074 1075 reg = ioread32(&pcfg->usp_pff_inst_id); 1076 if (reg == p.pff) { 1077 p.port = 0; 1078 break; 1079 } 1080 1081 reg = ioread32(&pcfg->vep_pff_inst_id); 1082 if (reg == p.pff) { 1083 p.port = SWITCHTEC_IOCTL_PFF_VEP; 1084 break; 1085 } 1086 1087 for (i = 0; i < ARRAY_SIZE(pcfg->dsp_pff_inst_id); i++) { 1088 reg = ioread32(&pcfg->dsp_pff_inst_id[i]); 1089 if (reg != p.pff) 1090 continue; 1091 1092 p.port = i + 1; 1093 break; 1094 } 1095 1096 if (p.port != -1) 1097 break; 1098 } 1099 1100 if (copy_to_user(up, &p, sizeof(p))) 1101 return -EFAULT; 1102 1103 return 0; 1104 } 1105 1106 static int ioctl_port_to_pff(struct switchtec_dev *stdev, 1107 struct switchtec_ioctl_pff_port *up) 1108 { 1109 struct switchtec_ioctl_pff_port p; 1110 struct part_cfg_regs *pcfg; 1111 1112 if (copy_from_user(&p, up, sizeof(p))) 1113 return -EFAULT; 1114 1115 if (p.partition == SWITCHTEC_IOCTL_EVENT_LOCAL_PART_IDX) 1116 pcfg = stdev->mmio_part_cfg; 1117 else if (p.partition < stdev->partition_count) 1118 pcfg = &stdev->mmio_part_cfg_all[p.partition]; 1119 else 1120 return -EINVAL; 1121 1122 switch (p.port) { 1123 case 0: 1124 p.pff = ioread32(&pcfg->usp_pff_inst_id); 1125 break; 1126 case SWITCHTEC_IOCTL_PFF_VEP: 1127 p.pff = ioread32(&pcfg->vep_pff_inst_id); 1128 break; 1129 default: 1130 if (p.port > ARRAY_SIZE(pcfg->dsp_pff_inst_id)) 1131 return -EINVAL; 1132 p.port = array_index_nospec(p.port, 1133 ARRAY_SIZE(pcfg->dsp_pff_inst_id) + 1); 1134 p.pff = ioread32(&pcfg->dsp_pff_inst_id[p.port - 1]); 1135 break; 1136 } 1137 1138 if (copy_to_user(up, &p, sizeof(p))) 1139 return -EFAULT; 1140 1141 return 0; 1142 } 1143 1144 static long switchtec_dev_ioctl(struct file *filp, unsigned int cmd, 1145 unsigned long arg) 1146 { 1147 struct switchtec_user *stuser = filp->private_data; 1148 struct switchtec_dev *stdev = stuser->stdev; 1149 int rc; 1150 void __user *argp = (void __user *)arg; 1151 1152 rc = lock_mutex_and_test_alive(stdev); 1153 if (rc) 1154 return rc; 1155 1156 switch (cmd) { 1157 case SWITCHTEC_IOCTL_FLASH_INFO: 1158 rc = ioctl_flash_info(stdev, argp); 1159 break; 1160 case SWITCHTEC_IOCTL_FLASH_PART_INFO: 1161 rc = ioctl_flash_part_info(stdev, argp); 1162 break; 1163 case SWITCHTEC_IOCTL_EVENT_SUMMARY_LEGACY: 1164 rc = ioctl_event_summary(stdev, stuser, argp, 1165 sizeof(struct switchtec_ioctl_event_summary_legacy)); 1166 break; 1167 case SWITCHTEC_IOCTL_EVENT_CTL: 1168 rc = ioctl_event_ctl(stdev, argp); 1169 break; 1170 case SWITCHTEC_IOCTL_PFF_TO_PORT: 1171 rc = ioctl_pff_to_port(stdev, argp); 1172 break; 1173 case SWITCHTEC_IOCTL_PORT_TO_PFF: 1174 rc = ioctl_port_to_pff(stdev, argp); 1175 break; 1176 case SWITCHTEC_IOCTL_EVENT_SUMMARY: 1177 rc = ioctl_event_summary(stdev, stuser, argp, 1178 sizeof(struct switchtec_ioctl_event_summary)); 1179 break; 1180 default: 1181 rc = -ENOTTY; 1182 break; 1183 } 1184 1185 mutex_unlock(&stdev->mrpc_mutex); 1186 return rc; 1187 } 1188 1189 static const struct file_operations switchtec_fops = { 1190 .owner = THIS_MODULE, 1191 .open = switchtec_dev_open, 1192 .release = switchtec_dev_release, 1193 .write = switchtec_dev_write, 1194 .read = switchtec_dev_read, 1195 .poll = switchtec_dev_poll, 1196 .unlocked_ioctl = switchtec_dev_ioctl, 1197 .compat_ioctl = compat_ptr_ioctl, 1198 }; 1199 1200 static void link_event_work(struct work_struct *work) 1201 { 1202 struct switchtec_dev *stdev; 1203 1204 stdev = container_of(work, struct switchtec_dev, link_event_work); 1205 1206 if (stdev->link_notifier) 1207 stdev->link_notifier(stdev); 1208 } 1209 1210 static void check_link_state_events(struct switchtec_dev *stdev) 1211 { 1212 int idx; 1213 u32 reg; 1214 int count; 1215 int occurred = 0; 1216 1217 for (idx = 0; idx < stdev->pff_csr_count; idx++) { 1218 reg = ioread32(&stdev->mmio_pff_csr[idx].link_state_hdr); 1219 dev_dbg(&stdev->dev, "link_state: %d->%08x\n", idx, reg); 1220 count = (reg >> 5) & 0xFF; 1221 1222 if (count != stdev->link_event_count[idx]) { 1223 occurred = 1; 1224 stdev->link_event_count[idx] = count; 1225 } 1226 } 1227 1228 if (occurred) 1229 schedule_work(&stdev->link_event_work); 1230 } 1231 1232 static void enable_link_state_events(struct switchtec_dev *stdev) 1233 { 1234 int idx; 1235 1236 for (idx = 0; idx < stdev->pff_csr_count; idx++) { 1237 iowrite32(SWITCHTEC_EVENT_CLEAR | 1238 SWITCHTEC_EVENT_EN_IRQ, 1239 &stdev->mmio_pff_csr[idx].link_state_hdr); 1240 } 1241 } 1242 1243 static void enable_dma_mrpc(struct switchtec_dev *stdev) 1244 { 1245 writeq(stdev->dma_mrpc_dma_addr, &stdev->mmio_mrpc->dma_addr); 1246 flush_wc_buf(stdev); 1247 iowrite32(SWITCHTEC_DMA_MRPC_EN, &stdev->mmio_mrpc->dma_en); 1248 } 1249 1250 static void stdev_release(struct device *dev) 1251 { 1252 struct switchtec_dev *stdev = to_stdev(dev); 1253 1254 if (stdev->dma_mrpc) { 1255 iowrite32(0, &stdev->mmio_mrpc->dma_en); 1256 flush_wc_buf(stdev); 1257 writeq(0, &stdev->mmio_mrpc->dma_addr); 1258 dma_free_coherent(&stdev->pdev->dev, sizeof(*stdev->dma_mrpc), 1259 stdev->dma_mrpc, stdev->dma_mrpc_dma_addr); 1260 } 1261 kfree(stdev); 1262 } 1263 1264 static void stdev_kill(struct switchtec_dev *stdev) 1265 { 1266 struct switchtec_user *stuser, *tmpuser; 1267 1268 pci_clear_master(stdev->pdev); 1269 1270 cancel_delayed_work_sync(&stdev->mrpc_timeout); 1271 1272 /* Mark the hardware as unavailable and complete all completions */ 1273 mutex_lock(&stdev->mrpc_mutex); 1274 stdev->alive = false; 1275 1276 /* Wake up and kill any users waiting on an MRPC request */ 1277 list_for_each_entry_safe(stuser, tmpuser, &stdev->mrpc_queue, list) { 1278 stuser->cmd_done = true; 1279 wake_up_interruptible(&stuser->cmd_comp); 1280 list_del_init(&stuser->list); 1281 stuser_put(stuser); 1282 } 1283 1284 mutex_unlock(&stdev->mrpc_mutex); 1285 1286 /* Wake up any users waiting on event_wq */ 1287 wake_up_interruptible(&stdev->event_wq); 1288 } 1289 1290 static struct switchtec_dev *stdev_create(struct pci_dev *pdev) 1291 { 1292 struct switchtec_dev *stdev; 1293 int minor; 1294 struct device *dev; 1295 struct cdev *cdev; 1296 int rc; 1297 1298 stdev = kzalloc_node(sizeof(*stdev), GFP_KERNEL, 1299 dev_to_node(&pdev->dev)); 1300 if (!stdev) 1301 return ERR_PTR(-ENOMEM); 1302 1303 stdev->alive = true; 1304 stdev->pdev = pdev; 1305 INIT_LIST_HEAD(&stdev->mrpc_queue); 1306 mutex_init(&stdev->mrpc_mutex); 1307 stdev->mrpc_busy = 0; 1308 INIT_WORK(&stdev->mrpc_work, mrpc_event_work); 1309 INIT_DELAYED_WORK(&stdev->mrpc_timeout, mrpc_timeout_work); 1310 INIT_WORK(&stdev->link_event_work, link_event_work); 1311 init_waitqueue_head(&stdev->event_wq); 1312 atomic_set(&stdev->event_cnt, 0); 1313 1314 dev = &stdev->dev; 1315 device_initialize(dev); 1316 dev->class = switchtec_class; 1317 dev->parent = &pdev->dev; 1318 dev->groups = switchtec_device_groups; 1319 dev->release = stdev_release; 1320 1321 minor = ida_simple_get(&switchtec_minor_ida, 0, 0, 1322 GFP_KERNEL); 1323 if (minor < 0) { 1324 rc = minor; 1325 goto err_put; 1326 } 1327 1328 dev->devt = MKDEV(MAJOR(switchtec_devt), minor); 1329 dev_set_name(dev, "switchtec%d", minor); 1330 1331 cdev = &stdev->cdev; 1332 cdev_init(cdev, &switchtec_fops); 1333 cdev->owner = THIS_MODULE; 1334 1335 return stdev; 1336 1337 err_put: 1338 put_device(&stdev->dev); 1339 return ERR_PTR(rc); 1340 } 1341 1342 static int mask_event(struct switchtec_dev *stdev, int eid, int idx) 1343 { 1344 size_t off = event_regs[eid].offset; 1345 u32 __iomem *hdr_reg; 1346 u32 hdr; 1347 1348 hdr_reg = event_regs[eid].map_reg(stdev, off, idx); 1349 hdr = ioread32(hdr_reg); 1350 1351 if (!(hdr & SWITCHTEC_EVENT_OCCURRED && hdr & SWITCHTEC_EVENT_EN_IRQ)) 1352 return 0; 1353 1354 dev_dbg(&stdev->dev, "%s: %d %d %x\n", __func__, eid, idx, hdr); 1355 hdr &= ~(SWITCHTEC_EVENT_EN_IRQ | SWITCHTEC_EVENT_OCCURRED); 1356 iowrite32(hdr, hdr_reg); 1357 1358 return 1; 1359 } 1360 1361 static int mask_all_events(struct switchtec_dev *stdev, int eid) 1362 { 1363 int idx; 1364 int count = 0; 1365 1366 if (event_regs[eid].map_reg == part_ev_reg) { 1367 for (idx = 0; idx < stdev->partition_count; idx++) 1368 count += mask_event(stdev, eid, idx); 1369 } else if (event_regs[eid].map_reg == pff_ev_reg) { 1370 for (idx = 0; idx < stdev->pff_csr_count; idx++) { 1371 if (!stdev->pff_local[idx]) 1372 continue; 1373 1374 count += mask_event(stdev, eid, idx); 1375 } 1376 } else { 1377 count += mask_event(stdev, eid, 0); 1378 } 1379 1380 return count; 1381 } 1382 1383 static irqreturn_t switchtec_event_isr(int irq, void *dev) 1384 { 1385 struct switchtec_dev *stdev = dev; 1386 u32 reg; 1387 irqreturn_t ret = IRQ_NONE; 1388 int eid, event_count = 0; 1389 1390 reg = ioread32(&stdev->mmio_part_cfg->mrpc_comp_hdr); 1391 if (reg & SWITCHTEC_EVENT_OCCURRED) { 1392 dev_dbg(&stdev->dev, "%s: mrpc comp\n", __func__); 1393 ret = IRQ_HANDLED; 1394 schedule_work(&stdev->mrpc_work); 1395 iowrite32(reg, &stdev->mmio_part_cfg->mrpc_comp_hdr); 1396 } 1397 1398 check_link_state_events(stdev); 1399 1400 for (eid = 0; eid < SWITCHTEC_IOCTL_MAX_EVENTS; eid++) { 1401 if (eid == SWITCHTEC_IOCTL_EVENT_LINK_STATE || 1402 eid == SWITCHTEC_IOCTL_EVENT_MRPC_COMP) 1403 continue; 1404 1405 event_count += mask_all_events(stdev, eid); 1406 } 1407 1408 if (event_count) { 1409 atomic_inc(&stdev->event_cnt); 1410 wake_up_interruptible(&stdev->event_wq); 1411 dev_dbg(&stdev->dev, "%s: %d events\n", __func__, 1412 event_count); 1413 return IRQ_HANDLED; 1414 } 1415 1416 return ret; 1417 } 1418 1419 1420 static irqreturn_t switchtec_dma_mrpc_isr(int irq, void *dev) 1421 { 1422 struct switchtec_dev *stdev = dev; 1423 irqreturn_t ret = IRQ_NONE; 1424 1425 iowrite32(SWITCHTEC_EVENT_CLEAR | 1426 SWITCHTEC_EVENT_EN_IRQ, 1427 &stdev->mmio_part_cfg->mrpc_comp_hdr); 1428 schedule_work(&stdev->mrpc_work); 1429 1430 ret = IRQ_HANDLED; 1431 return ret; 1432 } 1433 1434 static int switchtec_init_isr(struct switchtec_dev *stdev) 1435 { 1436 int nvecs; 1437 int event_irq; 1438 int dma_mrpc_irq; 1439 int rc; 1440 1441 if (nirqs < 4) 1442 nirqs = 4; 1443 1444 nvecs = pci_alloc_irq_vectors(stdev->pdev, 1, nirqs, 1445 PCI_IRQ_MSIX | PCI_IRQ_MSI | 1446 PCI_IRQ_VIRTUAL); 1447 if (nvecs < 0) 1448 return nvecs; 1449 1450 event_irq = ioread16(&stdev->mmio_part_cfg->vep_vector_number); 1451 if (event_irq < 0 || event_irq >= nvecs) 1452 return -EFAULT; 1453 1454 event_irq = pci_irq_vector(stdev->pdev, event_irq); 1455 if (event_irq < 0) 1456 return event_irq; 1457 1458 rc = devm_request_irq(&stdev->pdev->dev, event_irq, 1459 switchtec_event_isr, 0, 1460 KBUILD_MODNAME, stdev); 1461 1462 if (rc) 1463 return rc; 1464 1465 if (!stdev->dma_mrpc) 1466 return rc; 1467 1468 dma_mrpc_irq = ioread32(&stdev->mmio_mrpc->dma_vector); 1469 if (dma_mrpc_irq < 0 || dma_mrpc_irq >= nvecs) 1470 return -EFAULT; 1471 1472 dma_mrpc_irq = pci_irq_vector(stdev->pdev, dma_mrpc_irq); 1473 if (dma_mrpc_irq < 0) 1474 return dma_mrpc_irq; 1475 1476 rc = devm_request_irq(&stdev->pdev->dev, dma_mrpc_irq, 1477 switchtec_dma_mrpc_isr, 0, 1478 KBUILD_MODNAME, stdev); 1479 1480 return rc; 1481 } 1482 1483 static void init_pff(struct switchtec_dev *stdev) 1484 { 1485 int i; 1486 u32 reg; 1487 struct part_cfg_regs *pcfg = stdev->mmio_part_cfg; 1488 1489 for (i = 0; i < SWITCHTEC_MAX_PFF_CSR; i++) { 1490 reg = ioread16(&stdev->mmio_pff_csr[i].vendor_id); 1491 if (reg != PCI_VENDOR_ID_MICROSEMI) 1492 break; 1493 } 1494 1495 stdev->pff_csr_count = i; 1496 1497 reg = ioread32(&pcfg->usp_pff_inst_id); 1498 if (reg < stdev->pff_csr_count) 1499 stdev->pff_local[reg] = 1; 1500 1501 reg = ioread32(&pcfg->vep_pff_inst_id); 1502 if (reg < stdev->pff_csr_count) 1503 stdev->pff_local[reg] = 1; 1504 1505 for (i = 0; i < ARRAY_SIZE(pcfg->dsp_pff_inst_id); i++) { 1506 reg = ioread32(&pcfg->dsp_pff_inst_id[i]); 1507 if (reg < stdev->pff_csr_count) 1508 stdev->pff_local[reg] = 1; 1509 } 1510 } 1511 1512 static int switchtec_init_pci(struct switchtec_dev *stdev, 1513 struct pci_dev *pdev) 1514 { 1515 int rc; 1516 void __iomem *map; 1517 unsigned long res_start, res_len; 1518 u32 __iomem *part_id; 1519 1520 rc = pcim_enable_device(pdev); 1521 if (rc) 1522 return rc; 1523 1524 rc = dma_set_mask_and_coherent(&pdev->dev, DMA_BIT_MASK(64)); 1525 if (rc) 1526 return rc; 1527 1528 pci_set_master(pdev); 1529 1530 res_start = pci_resource_start(pdev, 0); 1531 res_len = pci_resource_len(pdev, 0); 1532 1533 if (!devm_request_mem_region(&pdev->dev, res_start, 1534 res_len, KBUILD_MODNAME)) 1535 return -EBUSY; 1536 1537 stdev->mmio_mrpc = devm_ioremap_wc(&pdev->dev, res_start, 1538 SWITCHTEC_GAS_TOP_CFG_OFFSET); 1539 if (!stdev->mmio_mrpc) 1540 return -ENOMEM; 1541 1542 map = devm_ioremap(&pdev->dev, 1543 res_start + SWITCHTEC_GAS_TOP_CFG_OFFSET, 1544 res_len - SWITCHTEC_GAS_TOP_CFG_OFFSET); 1545 if (!map) 1546 return -ENOMEM; 1547 1548 stdev->mmio = map - SWITCHTEC_GAS_TOP_CFG_OFFSET; 1549 stdev->mmio_sw_event = stdev->mmio + SWITCHTEC_GAS_SW_EVENT_OFFSET; 1550 stdev->mmio_sys_info = stdev->mmio + SWITCHTEC_GAS_SYS_INFO_OFFSET; 1551 stdev->mmio_flash_info = stdev->mmio + SWITCHTEC_GAS_FLASH_INFO_OFFSET; 1552 stdev->mmio_ntb = stdev->mmio + SWITCHTEC_GAS_NTB_OFFSET; 1553 1554 if (stdev->gen == SWITCHTEC_GEN3) 1555 part_id = &stdev->mmio_sys_info->gen3.partition_id; 1556 else if (stdev->gen == SWITCHTEC_GEN4) 1557 part_id = &stdev->mmio_sys_info->gen4.partition_id; 1558 else 1559 return -ENOTSUPP; 1560 1561 stdev->partition = ioread8(part_id); 1562 stdev->partition_count = ioread8(&stdev->mmio_ntb->partition_count); 1563 stdev->mmio_part_cfg_all = stdev->mmio + SWITCHTEC_GAS_PART_CFG_OFFSET; 1564 stdev->mmio_part_cfg = &stdev->mmio_part_cfg_all[stdev->partition]; 1565 stdev->mmio_pff_csr = stdev->mmio + SWITCHTEC_GAS_PFF_CSR_OFFSET; 1566 1567 if (stdev->partition_count < 1) 1568 stdev->partition_count = 1; 1569 1570 init_pff(stdev); 1571 1572 pci_set_drvdata(pdev, stdev); 1573 1574 if (!use_dma_mrpc) 1575 return 0; 1576 1577 if (ioread32(&stdev->mmio_mrpc->dma_ver) == 0) 1578 return 0; 1579 1580 stdev->dma_mrpc = dma_alloc_coherent(&stdev->pdev->dev, 1581 sizeof(*stdev->dma_mrpc), 1582 &stdev->dma_mrpc_dma_addr, 1583 GFP_KERNEL); 1584 if (stdev->dma_mrpc == NULL) 1585 return -ENOMEM; 1586 1587 return 0; 1588 } 1589 1590 static int switchtec_pci_probe(struct pci_dev *pdev, 1591 const struct pci_device_id *id) 1592 { 1593 struct switchtec_dev *stdev; 1594 int rc; 1595 1596 if (pdev->class == (PCI_CLASS_BRIDGE_OTHER << 8)) 1597 request_module_nowait("ntb_hw_switchtec"); 1598 1599 stdev = stdev_create(pdev); 1600 if (IS_ERR(stdev)) 1601 return PTR_ERR(stdev); 1602 1603 stdev->gen = id->driver_data; 1604 1605 rc = switchtec_init_pci(stdev, pdev); 1606 if (rc) 1607 goto err_put; 1608 1609 rc = switchtec_init_isr(stdev); 1610 if (rc) { 1611 dev_err(&stdev->dev, "failed to init isr.\n"); 1612 goto err_put; 1613 } 1614 1615 iowrite32(SWITCHTEC_EVENT_CLEAR | 1616 SWITCHTEC_EVENT_EN_IRQ, 1617 &stdev->mmio_part_cfg->mrpc_comp_hdr); 1618 enable_link_state_events(stdev); 1619 1620 if (stdev->dma_mrpc) 1621 enable_dma_mrpc(stdev); 1622 1623 rc = cdev_device_add(&stdev->cdev, &stdev->dev); 1624 if (rc) 1625 goto err_devadd; 1626 1627 dev_info(&stdev->dev, "Management device registered.\n"); 1628 1629 return 0; 1630 1631 err_devadd: 1632 stdev_kill(stdev); 1633 err_put: 1634 ida_simple_remove(&switchtec_minor_ida, MINOR(stdev->dev.devt)); 1635 put_device(&stdev->dev); 1636 return rc; 1637 } 1638 1639 static void switchtec_pci_remove(struct pci_dev *pdev) 1640 { 1641 struct switchtec_dev *stdev = pci_get_drvdata(pdev); 1642 1643 pci_set_drvdata(pdev, NULL); 1644 1645 cdev_device_del(&stdev->cdev, &stdev->dev); 1646 ida_simple_remove(&switchtec_minor_ida, MINOR(stdev->dev.devt)); 1647 dev_info(&stdev->dev, "unregistered.\n"); 1648 stdev_kill(stdev); 1649 put_device(&stdev->dev); 1650 } 1651 1652 #define SWITCHTEC_PCI_DEVICE(device_id, gen) \ 1653 { \ 1654 .vendor = PCI_VENDOR_ID_MICROSEMI, \ 1655 .device = device_id, \ 1656 .subvendor = PCI_ANY_ID, \ 1657 .subdevice = PCI_ANY_ID, \ 1658 .class = (PCI_CLASS_MEMORY_OTHER << 8), \ 1659 .class_mask = 0xFFFFFFFF, \ 1660 .driver_data = gen, \ 1661 }, \ 1662 { \ 1663 .vendor = PCI_VENDOR_ID_MICROSEMI, \ 1664 .device = device_id, \ 1665 .subvendor = PCI_ANY_ID, \ 1666 .subdevice = PCI_ANY_ID, \ 1667 .class = (PCI_CLASS_BRIDGE_OTHER << 8), \ 1668 .class_mask = 0xFFFFFFFF, \ 1669 .driver_data = gen, \ 1670 } 1671 1672 static const struct pci_device_id switchtec_pci_tbl[] = { 1673 SWITCHTEC_PCI_DEVICE(0x8531, SWITCHTEC_GEN3), //PFX 24xG3 1674 SWITCHTEC_PCI_DEVICE(0x8532, SWITCHTEC_GEN3), //PFX 32xG3 1675 SWITCHTEC_PCI_DEVICE(0x8533, SWITCHTEC_GEN3), //PFX 48xG3 1676 SWITCHTEC_PCI_DEVICE(0x8534, SWITCHTEC_GEN3), //PFX 64xG3 1677 SWITCHTEC_PCI_DEVICE(0x8535, SWITCHTEC_GEN3), //PFX 80xG3 1678 SWITCHTEC_PCI_DEVICE(0x8536, SWITCHTEC_GEN3), //PFX 96xG3 1679 SWITCHTEC_PCI_DEVICE(0x8541, SWITCHTEC_GEN3), //PSX 24xG3 1680 SWITCHTEC_PCI_DEVICE(0x8542, SWITCHTEC_GEN3), //PSX 32xG3 1681 SWITCHTEC_PCI_DEVICE(0x8543, SWITCHTEC_GEN3), //PSX 48xG3 1682 SWITCHTEC_PCI_DEVICE(0x8544, SWITCHTEC_GEN3), //PSX 64xG3 1683 SWITCHTEC_PCI_DEVICE(0x8545, SWITCHTEC_GEN3), //PSX 80xG3 1684 SWITCHTEC_PCI_DEVICE(0x8546, SWITCHTEC_GEN3), //PSX 96xG3 1685 SWITCHTEC_PCI_DEVICE(0x8551, SWITCHTEC_GEN3), //PAX 24XG3 1686 SWITCHTEC_PCI_DEVICE(0x8552, SWITCHTEC_GEN3), //PAX 32XG3 1687 SWITCHTEC_PCI_DEVICE(0x8553, SWITCHTEC_GEN3), //PAX 48XG3 1688 SWITCHTEC_PCI_DEVICE(0x8554, SWITCHTEC_GEN3), //PAX 64XG3 1689 SWITCHTEC_PCI_DEVICE(0x8555, SWITCHTEC_GEN3), //PAX 80XG3 1690 SWITCHTEC_PCI_DEVICE(0x8556, SWITCHTEC_GEN3), //PAX 96XG3 1691 SWITCHTEC_PCI_DEVICE(0x8561, SWITCHTEC_GEN3), //PFXL 24XG3 1692 SWITCHTEC_PCI_DEVICE(0x8562, SWITCHTEC_GEN3), //PFXL 32XG3 1693 SWITCHTEC_PCI_DEVICE(0x8563, SWITCHTEC_GEN3), //PFXL 48XG3 1694 SWITCHTEC_PCI_DEVICE(0x8564, SWITCHTEC_GEN3), //PFXL 64XG3 1695 SWITCHTEC_PCI_DEVICE(0x8565, SWITCHTEC_GEN3), //PFXL 80XG3 1696 SWITCHTEC_PCI_DEVICE(0x8566, SWITCHTEC_GEN3), //PFXL 96XG3 1697 SWITCHTEC_PCI_DEVICE(0x8571, SWITCHTEC_GEN3), //PFXI 24XG3 1698 SWITCHTEC_PCI_DEVICE(0x8572, SWITCHTEC_GEN3), //PFXI 32XG3 1699 SWITCHTEC_PCI_DEVICE(0x8573, SWITCHTEC_GEN3), //PFXI 48XG3 1700 SWITCHTEC_PCI_DEVICE(0x8574, SWITCHTEC_GEN3), //PFXI 64XG3 1701 SWITCHTEC_PCI_DEVICE(0x8575, SWITCHTEC_GEN3), //PFXI 80XG3 1702 SWITCHTEC_PCI_DEVICE(0x8576, SWITCHTEC_GEN3), //PFXI 96XG3 1703 SWITCHTEC_PCI_DEVICE(0x4000, SWITCHTEC_GEN4), //PFX 100XG4 1704 SWITCHTEC_PCI_DEVICE(0x4084, SWITCHTEC_GEN4), //PFX 84XG4 1705 SWITCHTEC_PCI_DEVICE(0x4068, SWITCHTEC_GEN4), //PFX 68XG4 1706 SWITCHTEC_PCI_DEVICE(0x4052, SWITCHTEC_GEN4), //PFX 52XG4 1707 SWITCHTEC_PCI_DEVICE(0x4036, SWITCHTEC_GEN4), //PFX 36XG4 1708 SWITCHTEC_PCI_DEVICE(0x4028, SWITCHTEC_GEN4), //PFX 28XG4 1709 SWITCHTEC_PCI_DEVICE(0x4100, SWITCHTEC_GEN4), //PSX 100XG4 1710 SWITCHTEC_PCI_DEVICE(0x4184, SWITCHTEC_GEN4), //PSX 84XG4 1711 SWITCHTEC_PCI_DEVICE(0x4168, SWITCHTEC_GEN4), //PSX 68XG4 1712 SWITCHTEC_PCI_DEVICE(0x4152, SWITCHTEC_GEN4), //PSX 52XG4 1713 SWITCHTEC_PCI_DEVICE(0x4136, SWITCHTEC_GEN4), //PSX 36XG4 1714 SWITCHTEC_PCI_DEVICE(0x4128, SWITCHTEC_GEN4), //PSX 28XG4 1715 SWITCHTEC_PCI_DEVICE(0x4200, SWITCHTEC_GEN4), //PAX 100XG4 1716 SWITCHTEC_PCI_DEVICE(0x4284, SWITCHTEC_GEN4), //PAX 84XG4 1717 SWITCHTEC_PCI_DEVICE(0x4268, SWITCHTEC_GEN4), //PAX 68XG4 1718 SWITCHTEC_PCI_DEVICE(0x4252, SWITCHTEC_GEN4), //PAX 52XG4 1719 SWITCHTEC_PCI_DEVICE(0x4236, SWITCHTEC_GEN4), //PAX 36XG4 1720 SWITCHTEC_PCI_DEVICE(0x4228, SWITCHTEC_GEN4), //PAX 28XG4 1721 {0} 1722 }; 1723 MODULE_DEVICE_TABLE(pci, switchtec_pci_tbl); 1724 1725 static struct pci_driver switchtec_pci_driver = { 1726 .name = KBUILD_MODNAME, 1727 .id_table = switchtec_pci_tbl, 1728 .probe = switchtec_pci_probe, 1729 .remove = switchtec_pci_remove, 1730 }; 1731 1732 static int __init switchtec_init(void) 1733 { 1734 int rc; 1735 1736 rc = alloc_chrdev_region(&switchtec_devt, 0, max_devices, 1737 "switchtec"); 1738 if (rc) 1739 return rc; 1740 1741 switchtec_class = class_create(THIS_MODULE, "switchtec"); 1742 if (IS_ERR(switchtec_class)) { 1743 rc = PTR_ERR(switchtec_class); 1744 goto err_create_class; 1745 } 1746 1747 rc = pci_register_driver(&switchtec_pci_driver); 1748 if (rc) 1749 goto err_pci_register; 1750 1751 pr_info(KBUILD_MODNAME ": loaded.\n"); 1752 1753 return 0; 1754 1755 err_pci_register: 1756 class_destroy(switchtec_class); 1757 1758 err_create_class: 1759 unregister_chrdev_region(switchtec_devt, max_devices); 1760 1761 return rc; 1762 } 1763 module_init(switchtec_init); 1764 1765 static void __exit switchtec_exit(void) 1766 { 1767 pci_unregister_driver(&switchtec_pci_driver); 1768 class_destroy(switchtec_class); 1769 unregister_chrdev_region(switchtec_devt, max_devices); 1770 ida_destroy(&switchtec_minor_ida); 1771 1772 pr_info(KBUILD_MODNAME ": unloaded.\n"); 1773 } 1774 module_exit(switchtec_exit); 1775