tjh.dev / kernel
Linux kernel mirror (for testing) git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git
kernel os linux
fork atom
kernel / drivers / usb / typec / class.c
at v6.14-rc6 2762 lines 71 kB view raw
1// SPDX-License-Identifier: GPL-2.0 2/* 3 * USB Type-C Connector Class 4 * 5 * Copyright (C) 2017, Intel Corporation 6 * Author: Heikki Krogerus <heikki.krogerus@linux.intel.com> 7 */ 8 9#include <linux/module.h> 10#include <linux/mutex.h> 11#include <linux/property.h> 12#include <linux/slab.h> 13#include <linux/string_choices.h> 14#include <linux/usb/pd_vdo.h> 15#include <linux/usb/typec_mux.h> 16#include <linux/usb/typec_retimer.h> 17#include <linux/usb.h> 18 19#include "bus.h" 20#include "class.h" 21#include "pd.h" 22 23static DEFINE_IDA(typec_index_ida); 24 25const struct class typec_class = { 26 .name = "typec", 27}; 28 29/* ------------------------------------------------------------------------- */ 30/* Common attributes */ 31 32static const char * const typec_accessory_modes[] = { 33 [TYPEC_ACCESSORY_NONE] = "none", 34 [TYPEC_ACCESSORY_AUDIO] = "analog_audio", 35 [TYPEC_ACCESSORY_DEBUG] = "debug", 36}; 37 38/* Product types defined in USB PD Specification R3.0 V2.0 */ 39static const char * const product_type_ufp[8] = { 40 [IDH_PTYPE_NOT_UFP] = "not_ufp", 41 [IDH_PTYPE_HUB] = "hub", 42 [IDH_PTYPE_PERIPH] = "peripheral", 43 [IDH_PTYPE_PSD] = "psd", 44 [IDH_PTYPE_AMA] = "ama", 45}; 46 47static const char * const product_type_dfp[8] = { 48 [IDH_PTYPE_NOT_DFP] = "not_dfp", 49 [IDH_PTYPE_DFP_HUB] = "hub", 50 [IDH_PTYPE_DFP_HOST] = "host", 51 [IDH_PTYPE_DFP_PB] = "power_brick", 52}; 53 54static const char * const product_type_cable[8] = { 55 [IDH_PTYPE_NOT_CABLE] = "not_cable", 56 [IDH_PTYPE_PCABLE] = "passive", 57 [IDH_PTYPE_ACABLE] = "active", 58 [IDH_PTYPE_VPD] = "vpd", 59}; 60 61static struct usb_pd_identity *get_pd_identity(struct device *dev) 62{ 63 if (is_typec_partner(dev)) { 64 struct typec_partner *partner = to_typec_partner(dev); 65 66 return partner->identity; 67 } else if (is_typec_cable(dev)) { 68 struct typec_cable *cable = to_typec_cable(dev); 69 70 return cable->identity; 71 } 72 return NULL; 73} 74 75static const char *get_pd_product_type(struct device *dev) 76{ 77 struct typec_port *port = to_typec_port(dev->parent); 78 struct usb_pd_identity *id = get_pd_identity(dev); 79 const char *ptype = NULL; 80 81 if (is_typec_partner(dev)) { 82 if (!id) 83 return NULL; 84 85 if (port->data_role == TYPEC_HOST) 86 ptype = product_type_ufp[PD_IDH_PTYPE(id->id_header)]; 87 else 88 ptype = product_type_dfp[PD_IDH_DFP_PTYPE(id->id_header)]; 89 } else if (is_typec_cable(dev)) { 90 if (id) 91 ptype = product_type_cable[PD_IDH_PTYPE(id->id_header)]; 92 else 93 ptype = to_typec_cable(dev)->active ? 94 product_type_cable[IDH_PTYPE_ACABLE] : 95 product_type_cable[IDH_PTYPE_PCABLE]; 96 } 97 98 return ptype; 99} 100 101static ssize_t id_header_show(struct device *dev, struct device_attribute *attr, 102 char *buf) 103{ 104 struct usb_pd_identity *id = get_pd_identity(dev); 105 106 return sprintf(buf, "0x%08x\n", id->id_header); 107} 108static DEVICE_ATTR_RO(id_header); 109 110static ssize_t cert_stat_show(struct device *dev, struct device_attribute *attr, 111 char *buf) 112{ 113 struct usb_pd_identity *id = get_pd_identity(dev); 114 115 return sprintf(buf, "0x%08x\n", id->cert_stat); 116} 117static DEVICE_ATTR_RO(cert_stat); 118 119static ssize_t product_show(struct device *dev, struct device_attribute *attr, 120 char *buf) 121{ 122 struct usb_pd_identity *id = get_pd_identity(dev); 123 124 return sprintf(buf, "0x%08x\n", id->product); 125} 126static DEVICE_ATTR_RO(product); 127 128static ssize_t product_type_vdo1_show(struct device *dev, struct device_attribute *attr, 129 char *buf) 130{ 131 struct usb_pd_identity *id = get_pd_identity(dev); 132 133 return sysfs_emit(buf, "0x%08x\n", id->vdo[0]); 134} 135static DEVICE_ATTR_RO(product_type_vdo1); 136 137static ssize_t product_type_vdo2_show(struct device *dev, struct device_attribute *attr, 138 char *buf) 139{ 140 struct usb_pd_identity *id = get_pd_identity(dev); 141 142 return sysfs_emit(buf, "0x%08x\n", id->vdo[1]); 143} 144static DEVICE_ATTR_RO(product_type_vdo2); 145 146static ssize_t product_type_vdo3_show(struct device *dev, struct device_attribute *attr, 147 char *buf) 148{ 149 struct usb_pd_identity *id = get_pd_identity(dev); 150 151 return sysfs_emit(buf, "0x%08x\n", id->vdo[2]); 152} 153static DEVICE_ATTR_RO(product_type_vdo3); 154 155static struct attribute *usb_pd_id_attrs[] = { 156 &dev_attr_id_header.attr, 157 &dev_attr_cert_stat.attr, 158 &dev_attr_product.attr, 159 &dev_attr_product_type_vdo1.attr, 160 &dev_attr_product_type_vdo2.attr, 161 &dev_attr_product_type_vdo3.attr, 162 NULL 163}; 164 165static const struct attribute_group usb_pd_id_group = { 166 .name = "identity", 167 .attrs = usb_pd_id_attrs, 168}; 169 170static const struct attribute_group *usb_pd_id_groups[] = { 171 &usb_pd_id_group, 172 NULL, 173}; 174 175static void typec_product_type_notify(struct device *dev) 176{ 177 char *envp[2] = { }; 178 const char *ptype; 179 180 ptype = get_pd_product_type(dev); 181 if (!ptype) 182 return; 183 184 sysfs_notify(&dev->kobj, NULL, "type"); 185 186 envp[0] = kasprintf(GFP_KERNEL, "PRODUCT_TYPE=%s", ptype); 187 if (!envp[0]) 188 return; 189 190 kobject_uevent_env(&dev->kobj, KOBJ_CHANGE, envp); 191 kfree(envp[0]); 192} 193 194static void typec_report_identity(struct device *dev) 195{ 196 sysfs_notify(&dev->kobj, "identity", "id_header"); 197 sysfs_notify(&dev->kobj, "identity", "cert_stat"); 198 sysfs_notify(&dev->kobj, "identity", "product"); 199 sysfs_notify(&dev->kobj, "identity", "product_type_vdo1"); 200 sysfs_notify(&dev->kobj, "identity", "product_type_vdo2"); 201 sysfs_notify(&dev->kobj, "identity", "product_type_vdo3"); 202 typec_product_type_notify(dev); 203} 204 205static ssize_t 206type_show(struct device *dev, struct device_attribute *attr, char *buf) 207{ 208 const char *ptype; 209 210 ptype = get_pd_product_type(dev); 211 if (!ptype) 212 return 0; 213 214 return sysfs_emit(buf, "%s\n", ptype); 215} 216static DEVICE_ATTR_RO(type); 217 218static ssize_t usb_power_delivery_revision_show(struct device *dev, 219 struct device_attribute *attr, 220 char *buf); 221static DEVICE_ATTR_RO(usb_power_delivery_revision); 222 223static const char * const usb_modes[] = { 224 [USB_MODE_NONE] = "none", 225 [USB_MODE_USB2] = "usb2", 226 [USB_MODE_USB3] = "usb3", 227 [USB_MODE_USB4] = "usb4" 228}; 229 230/* ------------------------------------------------------------------------- */ 231/* Alternate Modes */ 232 233static int altmode_match(struct device *dev, const void *data) 234{ 235 struct typec_altmode *adev = to_typec_altmode(dev); 236 const struct typec_device_id *id = data; 237 238 if (!is_typec_altmode(dev)) 239 return 0; 240 241 return (adev->svid == id->svid); 242} 243 244static void typec_altmode_set_partner(struct altmode *altmode) 245{ 246 struct typec_altmode *adev = &altmode->adev; 247 struct typec_device_id id = { adev->svid }; 248 struct typec_port *port = typec_altmode2port(adev); 249 struct altmode *partner; 250 struct device *dev; 251 252 dev = device_find_child(&port->dev, &id, altmode_match); 253 if (!dev) 254 return; 255 256 /* Bind the port alt mode to the partner/plug alt mode. */ 257 partner = to_altmode(to_typec_altmode(dev)); 258 altmode->partner = partner; 259 260 /* Bind the partner/plug alt mode to the port alt mode. */ 261 if (is_typec_plug(adev->dev.parent)) { 262 struct typec_plug *plug = to_typec_plug(adev->dev.parent); 263 264 partner->plug[plug->index] = altmode; 265 } else { 266 partner->partner = altmode; 267 } 268} 269 270static void typec_altmode_put_partner(struct altmode *altmode) 271{ 272 struct altmode *partner = altmode->partner; 273 struct typec_altmode *adev; 274 struct typec_altmode *partner_adev; 275 276 if (!partner) 277 return; 278 279 adev = &altmode->adev; 280 partner_adev = &partner->adev; 281 282 if (is_typec_plug(adev->dev.parent)) { 283 struct typec_plug *plug = to_typec_plug(adev->dev.parent); 284 285 partner->plug[plug->index] = NULL; 286 } else { 287 partner->partner = NULL; 288 } 289 put_device(&partner_adev->dev); 290} 291 292/** 293 * typec_altmode_update_active - Report Enter/Exit mode 294 * @adev: Handle to the alternate mode 295 * @active: True when the mode has been entered 296 * 297 * If a partner or cable plug executes Enter/Exit Mode command successfully, the 298 * drivers use this routine to report the updated state of the mode. 299 */ 300void typec_altmode_update_active(struct typec_altmode *adev, bool active) 301{ 302 char dir[6]; 303 304 if (adev->active == active) 305 return; 306 307 if (!is_typec_port(adev->dev.parent) && adev->dev.driver) { 308 if (!active) 309 module_put(adev->dev.driver->owner); 310 else 311 WARN_ON(!try_module_get(adev->dev.driver->owner)); 312 } 313 314 adev->active = active; 315 snprintf(dir, sizeof(dir), "mode%d", adev->mode); 316 sysfs_notify(&adev->dev.kobj, dir, "active"); 317 sysfs_notify(&adev->dev.kobj, NULL, "active"); 318 kobject_uevent(&adev->dev.kobj, KOBJ_CHANGE); 319} 320EXPORT_SYMBOL_GPL(typec_altmode_update_active); 321 322/** 323 * typec_altmode2port - Alternate Mode to USB Type-C port 324 * @alt: The Alternate Mode 325 * 326 * Returns handle to the port that a cable plug or partner with @alt is 327 * connected to. 328 */ 329struct typec_port *typec_altmode2port(struct typec_altmode *alt) 330{ 331 if (is_typec_plug(alt->dev.parent)) 332 return to_typec_port(alt->dev.parent->parent->parent); 333 if (is_typec_partner(alt->dev.parent)) 334 return to_typec_port(alt->dev.parent->parent); 335 if (is_typec_port(alt->dev.parent)) 336 return to_typec_port(alt->dev.parent); 337 338 return NULL; 339} 340EXPORT_SYMBOL_GPL(typec_altmode2port); 341 342static ssize_t 343vdo_show(struct device *dev, struct device_attribute *attr, char *buf) 344{ 345 struct typec_altmode *alt = to_typec_altmode(dev); 346 347 return sprintf(buf, "0x%08x\n", alt->vdo); 348} 349static DEVICE_ATTR_RO(vdo); 350 351static ssize_t 352description_show(struct device *dev, struct device_attribute *attr, char *buf) 353{ 354 struct typec_altmode *alt = to_typec_altmode(dev); 355 356 return sprintf(buf, "%s\n", alt->desc ? alt->desc : ""); 357} 358static DEVICE_ATTR_RO(description); 359 360static ssize_t 361active_show(struct device *dev, struct device_attribute *attr, char *buf) 362{ 363 struct typec_altmode *alt = to_typec_altmode(dev); 364 365 return sprintf(buf, "%s\n", str_yes_no(alt->active)); 366} 367 368static ssize_t active_store(struct device *dev, struct device_attribute *attr, 369 const char *buf, size_t size) 370{ 371 struct typec_altmode *adev = to_typec_altmode(dev); 372 struct altmode *altmode = to_altmode(adev); 373 bool enter; 374 int ret; 375 376 ret = kstrtobool(buf, &enter); 377 if (ret) 378 return ret; 379 380 if (adev->active == enter) 381 return size; 382 383 if (is_typec_port(adev->dev.parent)) { 384 typec_altmode_update_active(adev, enter); 385 386 /* Make sure that the partner exits the mode before disabling */ 387 if (altmode->partner && !enter && altmode->partner->adev.active) 388 typec_altmode_exit(&altmode->partner->adev); 389 } else if (altmode->partner) { 390 if (enter && !altmode->partner->adev.active) { 391 dev_warn(dev, "port has the mode disabled\n"); 392 return -EPERM; 393 } 394 } 395 396 /* Note: If there is no driver, the mode will not be entered */ 397 if (adev->ops && adev->ops->activate) { 398 ret = adev->ops->activate(adev, enter); 399 if (ret) 400 return ret; 401 } 402 403 return size; 404} 405static DEVICE_ATTR_RW(active); 406 407static ssize_t 408supported_roles_show(struct device *dev, struct device_attribute *attr, 409 char *buf) 410{ 411 struct altmode *alt = to_altmode(to_typec_altmode(dev)); 412 ssize_t ret; 413 414 switch (alt->roles) { 415 case TYPEC_PORT_SRC: 416 ret = sprintf(buf, "source\n"); 417 break; 418 case TYPEC_PORT_SNK: 419 ret = sprintf(buf, "sink\n"); 420 break; 421 case TYPEC_PORT_DRP: 422 default: 423 ret = sprintf(buf, "source sink\n"); 424 break; 425 } 426 return ret; 427} 428static DEVICE_ATTR_RO(supported_roles); 429 430static ssize_t 431mode_show(struct device *dev, struct device_attribute *attr, char *buf) 432{ 433 struct typec_altmode *adev = to_typec_altmode(dev); 434 435 return sprintf(buf, "%u\n", adev->mode); 436} 437static DEVICE_ATTR_RO(mode); 438 439static ssize_t 440svid_show(struct device *dev, struct device_attribute *attr, char *buf) 441{ 442 struct typec_altmode *adev = to_typec_altmode(dev); 443 444 return sprintf(buf, "%04x\n", adev->svid); 445} 446static DEVICE_ATTR_RO(svid); 447 448static struct attribute *typec_altmode_attrs[] = { 449 &dev_attr_active.attr, 450 &dev_attr_mode.attr, 451 &dev_attr_svid.attr, 452 &dev_attr_vdo.attr, 453 NULL 454}; 455 456static umode_t typec_altmode_attr_is_visible(struct kobject *kobj, 457 struct attribute *attr, int n) 458{ 459 struct typec_altmode *adev = to_typec_altmode(kobj_to_dev(kobj)); 460 461 if (attr == &dev_attr_active.attr) 462 if (!is_typec_port(adev->dev.parent) && 463 (!adev->ops || !adev->ops->activate)) 464 return 0444; 465 466 return attr->mode; 467} 468 469static const struct attribute_group typec_altmode_group = { 470 .is_visible = typec_altmode_attr_is_visible, 471 .attrs = typec_altmode_attrs, 472}; 473 474static const struct attribute_group *typec_altmode_groups[] = { 475 &typec_altmode_group, 476 NULL 477}; 478 479/** 480 * typec_altmode_set_ops - Set ops for altmode 481 * @adev: Handle to the alternate mode 482 * @ops: Ops for the alternate mode 483 * 484 * After setting ops, attribute visiblity needs to be refreshed if the alternate 485 * mode can be activated. 486 */ 487void typec_altmode_set_ops(struct typec_altmode *adev, 488 const struct typec_altmode_ops *ops) 489{ 490 adev->ops = ops; 491 sysfs_update_group(&adev->dev.kobj, &typec_altmode_group); 492} 493EXPORT_SYMBOL_GPL(typec_altmode_set_ops); 494 495static int altmode_id_get(struct device *dev) 496{ 497 struct ida *ids; 498 499 if (is_typec_partner(dev)) 500 ids = &to_typec_partner(dev)->mode_ids; 501 else if (is_typec_plug(dev)) 502 ids = &to_typec_plug(dev)->mode_ids; 503 else 504 ids = &to_typec_port(dev)->mode_ids; 505 506 return ida_alloc(ids, GFP_KERNEL); 507} 508 509static void altmode_id_remove(struct device *dev, int id) 510{ 511 struct ida *ids; 512 513 if (is_typec_partner(dev)) 514 ids = &to_typec_partner(dev)->mode_ids; 515 else if (is_typec_plug(dev)) 516 ids = &to_typec_plug(dev)->mode_ids; 517 else 518 ids = &to_typec_port(dev)->mode_ids; 519 520 ida_free(ids, id); 521} 522 523static void typec_altmode_release(struct device *dev) 524{ 525 struct altmode *alt = to_altmode(to_typec_altmode(dev)); 526 527 if (!is_typec_port(dev->parent)) 528 typec_altmode_put_partner(alt); 529 530 altmode_id_remove(alt->adev.dev.parent, alt->id); 531 put_device(alt->adev.dev.parent); 532 kfree(alt); 533} 534 535const struct device_type typec_altmode_dev_type = { 536 .name = "typec_alternate_mode", 537 .groups = typec_altmode_groups, 538 .release = typec_altmode_release, 539}; 540 541static struct typec_altmode * 542typec_register_altmode(struct device *parent, 543 const struct typec_altmode_desc *desc) 544{ 545 unsigned int id = altmode_id_get(parent); 546 bool is_port = is_typec_port(parent); 547 struct altmode *alt; 548 int ret; 549 550 alt = kzalloc(sizeof(*alt), GFP_KERNEL); 551 if (!alt) { 552 altmode_id_remove(parent, id); 553 return ERR_PTR(-ENOMEM); 554 } 555 556 alt->adev.svid = desc->svid; 557 alt->adev.mode = desc->mode; 558 alt->adev.vdo = desc->vdo; 559 alt->roles = desc->roles; 560 alt->id = id; 561 562 alt->attrs[0] = &dev_attr_vdo.attr; 563 alt->attrs[1] = &dev_attr_description.attr; 564 alt->attrs[2] = &dev_attr_active.attr; 565 566 if (is_port) { 567 alt->attrs[3] = &dev_attr_supported_roles.attr; 568 alt->adev.active = !desc->inactive; /* Enabled by default */ 569 } 570 571 sprintf(alt->group_name, "mode%d", desc->mode); 572 alt->group.name = alt->group_name; 573 alt->group.attrs = alt->attrs; 574 alt->groups[0] = &alt->group; 575 576 alt->adev.dev.parent = parent; 577 alt->adev.dev.groups = alt->groups; 578 alt->adev.dev.type = &typec_altmode_dev_type; 579 dev_set_name(&alt->adev.dev, "%s.%u", dev_name(parent), id); 580 581 get_device(alt->adev.dev.parent); 582 583 /* Link partners and plugs with the ports */ 584 if (!is_port) 585 typec_altmode_set_partner(alt); 586 587 /* The partners are bind to drivers */ 588 if (is_typec_partner(parent)) 589 alt->adev.dev.bus = &typec_bus; 590 591 /* Plug alt modes need a class to generate udev events. */ 592 if (is_typec_plug(parent)) 593 alt->adev.dev.class = &typec_class; 594 595 ret = device_register(&alt->adev.dev); 596 if (ret) { 597 dev_err(parent, "failed to register alternate mode (%d)\n", 598 ret); 599 put_device(&alt->adev.dev); 600 return ERR_PTR(ret); 601 } 602 603 return &alt->adev; 604} 605 606/** 607 * typec_unregister_altmode - Unregister Alternate Mode 608 * @adev: The alternate mode to be unregistered 609 * 610 * Unregister device created with typec_partner_register_altmode(), 611 * typec_plug_register_altmode() or typec_port_register_altmode(). 612 */ 613void typec_unregister_altmode(struct typec_altmode *adev) 614{ 615 if (IS_ERR_OR_NULL(adev)) 616 return; 617 typec_retimer_put(to_altmode(adev)->retimer); 618 typec_mux_put(to_altmode(adev)->mux); 619 device_unregister(&adev->dev); 620} 621EXPORT_SYMBOL_GPL(typec_unregister_altmode); 622 623/* ------------------------------------------------------------------------- */ 624/* Type-C Partners */ 625 626/** 627 * typec_partner_set_usb_mode - Assign active USB Mode for the partner 628 * @partner: USB Type-C partner 629 * @mode: USB Mode (USB2, USB3 or USB4) 630 * 631 * The port drivers can use this function to assign the active USB Mode to 632 * @partner. The USB Mode can change for example due to Data Reset. 633 */ 634void typec_partner_set_usb_mode(struct typec_partner *partner, enum usb_mode mode) 635{ 636 if (!partner || partner->usb_mode == mode) 637 return; 638 639 partner->usb_capability |= BIT(mode - 1); 640 partner->usb_mode = mode; 641 sysfs_notify(&partner->dev.kobj, NULL, "usb_mode"); 642} 643EXPORT_SYMBOL_GPL(typec_partner_set_usb_mode); 644 645static ssize_t 646usb_mode_show(struct device *dev, struct device_attribute *attr, char *buf) 647{ 648 struct typec_partner *partner = to_typec_partner(dev); 649 int len = 0; 650 int i; 651 652 for (i = USB_MODE_USB2; i < USB_MODE_USB4 + 1; i++) { 653 if (!(BIT(i - 1) & partner->usb_capability)) 654 continue; 655 656 if (i == partner->usb_mode) 657 len += sysfs_emit_at(buf, len, "[%s] ", usb_modes[i]); 658 else 659 len += sysfs_emit_at(buf, len, "%s ", usb_modes[i]); 660 } 661 662 sysfs_emit_at(buf, len - 1, "\n"); 663 664 return len; 665} 666 667static ssize_t usb_mode_store(struct device *dev, struct device_attribute *attr, 668 const char *buf, size_t size) 669{ 670 struct typec_partner *partner = to_typec_partner(dev); 671 struct typec_port *port = to_typec_port(dev->parent); 672 int mode; 673 int ret; 674 675 if (!port->ops || !port->ops->enter_usb_mode) 676 return -EOPNOTSUPP; 677 678 mode = sysfs_match_string(usb_modes, buf); 679 if (mode < 0) 680 return mode; 681 682 if (mode == partner->usb_mode) 683 return size; 684 685 ret = port->ops->enter_usb_mode(port, mode); 686 if (ret) 687 return ret; 688 689 typec_partner_set_usb_mode(partner, mode); 690 691 return size; 692} 693static DEVICE_ATTR_RW(usb_mode); 694 695static ssize_t accessory_mode_show(struct device *dev, 696 struct device_attribute *attr, 697 char *buf) 698{ 699 struct typec_partner *p = to_typec_partner(dev); 700 701 return sprintf(buf, "%s\n", typec_accessory_modes[p->accessory]); 702} 703static DEVICE_ATTR_RO(accessory_mode); 704 705static ssize_t supports_usb_power_delivery_show(struct device *dev, 706 struct device_attribute *attr, 707 char *buf) 708{ 709 struct typec_partner *p = to_typec_partner(dev); 710 711 return sprintf(buf, "%s\n", str_yes_no(p->usb_pd)); 712} 713static DEVICE_ATTR_RO(supports_usb_power_delivery); 714 715static ssize_t number_of_alternate_modes_show(struct device *dev, struct device_attribute *attr, 716 char *buf) 717{ 718 struct typec_partner *partner; 719 struct typec_plug *plug; 720 int num_altmodes; 721 722 if (is_typec_partner(dev)) { 723 partner = to_typec_partner(dev); 724 num_altmodes = partner->num_altmodes; 725 } else if (is_typec_plug(dev)) { 726 plug = to_typec_plug(dev); 727 num_altmodes = plug->num_altmodes; 728 } else { 729 return 0; 730 } 731 732 return sysfs_emit(buf, "%d\n", num_altmodes); 733} 734static DEVICE_ATTR_RO(number_of_alternate_modes); 735 736static struct attribute *typec_partner_attrs[] = { 737 &dev_attr_accessory_mode.attr, 738 &dev_attr_supports_usb_power_delivery.attr, 739 &dev_attr_number_of_alternate_modes.attr, 740 &dev_attr_type.attr, 741 &dev_attr_usb_mode.attr, 742 &dev_attr_usb_power_delivery_revision.attr, 743 NULL 744}; 745 746static umode_t typec_partner_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) 747{ 748 struct typec_partner *partner = to_typec_partner(kobj_to_dev(kobj)); 749 struct typec_port *port = to_typec_port(partner->dev.parent); 750 751 if (attr == &dev_attr_usb_mode.attr) { 752 if (!partner->usb_capability) 753 return 0; 754 if (!port->ops || !port->ops->enter_usb_mode) 755 return 0444; 756 } 757 758 if (attr == &dev_attr_number_of_alternate_modes.attr) { 759 if (partner->num_altmodes < 0) 760 return 0; 761 } 762 763 if (attr == &dev_attr_type.attr) 764 if (!get_pd_product_type(kobj_to_dev(kobj))) 765 return 0; 766 767 return attr->mode; 768} 769 770static const struct attribute_group typec_partner_group = { 771 .is_visible = typec_partner_attr_is_visible, 772 .attrs = typec_partner_attrs 773}; 774 775static const struct attribute_group *typec_partner_groups[] = { 776 &typec_partner_group, 777 NULL 778}; 779 780static void typec_partner_release(struct device *dev) 781{ 782 struct typec_partner *partner = to_typec_partner(dev); 783 784 ida_destroy(&partner->mode_ids); 785 kfree(partner); 786} 787 788const struct device_type typec_partner_dev_type = { 789 .name = "typec_partner", 790 .groups = typec_partner_groups, 791 .release = typec_partner_release, 792}; 793 794static void typec_partner_link_device(struct typec_partner *partner, struct device *dev) 795{ 796 int ret; 797 798 ret = sysfs_create_link(&dev->kobj, &partner->dev.kobj, "typec"); 799 if (ret) 800 return; 801 802 ret = sysfs_create_link(&partner->dev.kobj, &dev->kobj, dev_name(dev)); 803 if (ret) { 804 sysfs_remove_link(&dev->kobj, "typec"); 805 return; 806 } 807 808 if (partner->attach) 809 partner->attach(partner, dev); 810} 811 812static void typec_partner_unlink_device(struct typec_partner *partner, struct device *dev) 813{ 814 sysfs_remove_link(&partner->dev.kobj, dev_name(dev)); 815 sysfs_remove_link(&dev->kobj, "typec"); 816 817 if (partner->deattach) 818 partner->deattach(partner, dev); 819} 820 821/** 822 * typec_partner_set_identity - Report result from Discover Identity command 823 * @partner: The partner updated identity values 824 * 825 * This routine is used to report that the result of Discover Identity USB power 826 * delivery command has become available. 827 */ 828int typec_partner_set_identity(struct typec_partner *partner) 829{ 830 u8 usb_capability = partner->usb_capability; 831 struct device *dev = &partner->dev; 832 struct usb_pd_identity *id; 833 834 id = get_pd_identity(dev); 835 if (!id) 836 return -EINVAL; 837 838 if (to_typec_port(dev->parent)->data_role == TYPEC_HOST) { 839 u32 devcap = PD_VDO_UFP_DEVCAP(id->vdo[0]); 840 841 if (devcap & (DEV_USB2_CAPABLE | DEV_USB2_BILLBOARD)) 842 usb_capability |= USB_CAPABILITY_USB2; 843 if (devcap & DEV_USB3_CAPABLE) 844 usb_capability |= USB_CAPABILITY_USB3; 845 if (devcap & DEV_USB4_CAPABLE) 846 usb_capability |= USB_CAPABILITY_USB4; 847 } else { 848 usb_capability = PD_VDO_DFP_HOSTCAP(id->vdo[0]); 849 } 850 851 if (partner->usb_capability != usb_capability) { 852 partner->usb_capability = usb_capability; 853 sysfs_notify(&dev->kobj, NULL, "usb_mode"); 854 } 855 856 typec_report_identity(dev); 857 return 0; 858} 859EXPORT_SYMBOL_GPL(typec_partner_set_identity); 860 861/** 862 * typec_partner_set_pd_revision - Set the PD revision supported by the partner 863 * @partner: The partner to be updated. 864 * @pd_revision: USB Power Delivery Specification Revision supported by partner 865 * 866 * This routine is used to report that the PD revision of the port partner has 867 * become available. 868 */ 869void typec_partner_set_pd_revision(struct typec_partner *partner, u16 pd_revision) 870{ 871 if (partner->pd_revision == pd_revision) 872 return; 873 874 partner->pd_revision = pd_revision; 875 sysfs_notify(&partner->dev.kobj, NULL, "usb_power_delivery_revision"); 876 if (pd_revision != 0 && !partner->usb_pd) { 877 partner->usb_pd = 1; 878 sysfs_notify(&partner->dev.kobj, NULL, 879 "supports_usb_power_delivery"); 880 } 881 kobject_uevent(&partner->dev.kobj, KOBJ_CHANGE); 882} 883EXPORT_SYMBOL_GPL(typec_partner_set_pd_revision); 884 885/** 886 * typec_partner_set_usb_power_delivery - Declare USB Power Delivery Contract. 887 * @partner: The partner device. 888 * @pd: The USB PD instance. 889 * 890 * This routine can be used to declare USB Power Delivery Contract with @partner 891 * by linking @partner to @pd which contains the objects that were used during the 892 * negotiation of the contract. 893 * 894 * If @pd is NULL, the link is removed and the contract with @partner has ended. 895 */ 896int typec_partner_set_usb_power_delivery(struct typec_partner *partner, 897 struct usb_power_delivery *pd) 898{ 899 int ret; 900 901 if (IS_ERR_OR_NULL(partner) || partner->pd == pd) 902 return 0; 903 904 if (pd) { 905 ret = usb_power_delivery_link_device(pd, &partner->dev); 906 if (ret) 907 return ret; 908 } else { 909 usb_power_delivery_unlink_device(partner->pd, &partner->dev); 910 } 911 912 partner->pd = pd; 913 914 return 0; 915} 916EXPORT_SYMBOL_GPL(typec_partner_set_usb_power_delivery); 917 918/** 919 * typec_partner_set_num_altmodes - Set the number of available partner altmodes 920 * @partner: The partner to be updated. 921 * @num_altmodes: The number of altmodes we want to specify as available. 922 * 923 * This routine is used to report the number of alternate modes supported by the 924 * partner. This value is *not* enforced in alternate mode registration routines. 925 * 926 * @partner.num_altmodes is set to -1 on partner registration, denoting that 927 * a valid value has not been set for it yet. 928 * 929 * Returns 0 on success or negative error number on failure. 930 */ 931int typec_partner_set_num_altmodes(struct typec_partner *partner, int num_altmodes) 932{ 933 int ret; 934 935 if (num_altmodes < 0) 936 return -EINVAL; 937 938 partner->num_altmodes = num_altmodes; 939 ret = sysfs_update_group(&partner->dev.kobj, &typec_partner_group); 940 if (ret < 0) 941 return ret; 942 943 sysfs_notify(&partner->dev.kobj, NULL, "number_of_alternate_modes"); 944 kobject_uevent(&partner->dev.kobj, KOBJ_CHANGE); 945 946 return 0; 947} 948EXPORT_SYMBOL_GPL(typec_partner_set_num_altmodes); 949 950/** 951 * typec_partner_register_altmode - Register USB Type-C Partner Alternate Mode 952 * @partner: USB Type-C Partner that supports the alternate mode 953 * @desc: Description of the alternate mode 954 * 955 * This routine is used to register each alternate mode individually that 956 * @partner has listed in response to Discover SVIDs command. The modes for a 957 * SVID listed in response to Discover Modes command need to be listed in an 958 * array in @desc. 959 * 960 * Returns handle to the alternate mode on success or ERR_PTR on failure. 961 */ 962struct typec_altmode * 963typec_partner_register_altmode(struct typec_partner *partner, 964 const struct typec_altmode_desc *desc) 965{ 966 return typec_register_altmode(&partner->dev, desc); 967} 968EXPORT_SYMBOL_GPL(typec_partner_register_altmode); 969 970/** 971 * typec_partner_set_svdm_version - Set negotiated Structured VDM (SVDM) Version 972 * @partner: USB Type-C Partner that supports SVDM 973 * @svdm_version: Negotiated SVDM Version 974 * 975 * This routine is used to save the negotiated SVDM Version. 976 */ 977void typec_partner_set_svdm_version(struct typec_partner *partner, 978 enum usb_pd_svdm_ver svdm_version) 979{ 980 partner->svdm_version = svdm_version; 981} 982EXPORT_SYMBOL_GPL(typec_partner_set_svdm_version); 983 984/** 985 * typec_partner_usb_power_delivery_register - Register Type-C partner USB Power Delivery Support 986 * @partner: Type-C partner device. 987 * @desc: Description of the USB PD contract. 988 * 989 * This routine is a wrapper around usb_power_delivery_register(). It registers 990 * USB Power Delivery Capabilities for a Type-C partner device. Specifically, 991 * it sets the Type-C partner device as a parent for the resulting USB Power Delivery object. 992 * 993 * Returns handle to struct usb_power_delivery or ERR_PTR. 994 */ 995struct usb_power_delivery * 996typec_partner_usb_power_delivery_register(struct typec_partner *partner, 997 struct usb_power_delivery_desc *desc) 998{ 999 return usb_power_delivery_register(&partner->dev, desc); 1000} 1001EXPORT_SYMBOL_GPL(typec_partner_usb_power_delivery_register); 1002 1003/** 1004 * typec_register_partner - Register a USB Type-C Partner 1005 * @port: The USB Type-C Port the partner is connected to 1006 * @desc: Description of the partner 1007 * 1008 * Registers a device for USB Type-C Partner described in @desc. 1009 * 1010 * Returns handle to the partner on success or ERR_PTR on failure. 1011 */ 1012struct typec_partner *typec_register_partner(struct typec_port *port, 1013 struct typec_partner_desc *desc) 1014{ 1015 struct typec_partner *partner; 1016 int ret; 1017 1018 partner = kzalloc(sizeof(*partner), GFP_KERNEL); 1019 if (!partner) 1020 return ERR_PTR(-ENOMEM); 1021 1022 ida_init(&partner->mode_ids); 1023 partner->usb_pd = desc->usb_pd; 1024 partner->accessory = desc->accessory; 1025 partner->num_altmodes = -1; 1026 partner->usb_capability = desc->usb_capability; 1027 partner->pd_revision = desc->pd_revision; 1028 partner->svdm_version = port->cap->svdm_version; 1029 partner->attach = desc->attach; 1030 partner->deattach = desc->deattach; 1031 1032 if (desc->identity) { 1033 /* 1034 * Creating directory for the identity only if the driver is 1035 * able to provide data to it. 1036 */ 1037 partner->dev.groups = usb_pd_id_groups; 1038 partner->identity = desc->identity; 1039 } 1040 1041 partner->dev.class = &typec_class; 1042 partner->dev.parent = &port->dev; 1043 partner->dev.type = &typec_partner_dev_type; 1044 dev_set_name(&partner->dev, "%s-partner", dev_name(&port->dev)); 1045 1046 if (port->usb2_dev) { 1047 partner->usb_capability |= USB_CAPABILITY_USB2; 1048 partner->usb_mode = USB_MODE_USB2; 1049 } 1050 if (port->usb3_dev) { 1051 partner->usb_capability |= USB_CAPABILITY_USB2 | USB_CAPABILITY_USB3; 1052 partner->usb_mode = USB_MODE_USB3; 1053 } 1054 1055 ret = device_register(&partner->dev); 1056 if (ret) { 1057 dev_err(&port->dev, "failed to register partner (%d)\n", ret); 1058 put_device(&partner->dev); 1059 return ERR_PTR(ret); 1060 } 1061 1062 if (port->usb2_dev) 1063 typec_partner_link_device(partner, port->usb2_dev); 1064 if (port->usb3_dev) 1065 typec_partner_link_device(partner, port->usb3_dev); 1066 1067 return partner; 1068} 1069EXPORT_SYMBOL_GPL(typec_register_partner); 1070 1071/** 1072 * typec_unregister_partner - Unregister a USB Type-C Partner 1073 * @partner: The partner to be unregistered 1074 * 1075 * Unregister device created with typec_register_partner(). 1076 */ 1077void typec_unregister_partner(struct typec_partner *partner) 1078{ 1079 struct typec_port *port; 1080 1081 if (IS_ERR_OR_NULL(partner)) 1082 return; 1083 1084 port = to_typec_port(partner->dev.parent); 1085 1086 if (port->usb2_dev) 1087 typec_partner_unlink_device(partner, port->usb2_dev); 1088 if (port->usb3_dev) 1089 typec_partner_unlink_device(partner, port->usb3_dev); 1090 1091 device_unregister(&partner->dev); 1092} 1093EXPORT_SYMBOL_GPL(typec_unregister_partner); 1094 1095/* ------------------------------------------------------------------------- */ 1096/* Type-C Cable Plugs */ 1097 1098static void typec_plug_release(struct device *dev) 1099{ 1100 struct typec_plug *plug = to_typec_plug(dev); 1101 1102 ida_destroy(&plug->mode_ids); 1103 kfree(plug); 1104} 1105 1106static struct attribute *typec_plug_attrs[] = { 1107 &dev_attr_number_of_alternate_modes.attr, 1108 NULL 1109}; 1110 1111static umode_t typec_plug_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) 1112{ 1113 struct typec_plug *plug = to_typec_plug(kobj_to_dev(kobj)); 1114 1115 if (attr == &dev_attr_number_of_alternate_modes.attr) { 1116 if (plug->num_altmodes < 0) 1117 return 0; 1118 } 1119 1120 return attr->mode; 1121} 1122 1123static const struct attribute_group typec_plug_group = { 1124 .is_visible = typec_plug_attr_is_visible, 1125 .attrs = typec_plug_attrs 1126}; 1127 1128static const struct attribute_group *typec_plug_groups[] = { 1129 &typec_plug_group, 1130 NULL 1131}; 1132 1133const struct device_type typec_plug_dev_type = { 1134 .name = "typec_plug", 1135 .groups = typec_plug_groups, 1136 .release = typec_plug_release, 1137}; 1138 1139/** 1140 * typec_plug_set_num_altmodes - Set the number of available plug altmodes 1141 * @plug: The plug to be updated. 1142 * @num_altmodes: The number of altmodes we want to specify as available. 1143 * 1144 * This routine is used to report the number of alternate modes supported by the 1145 * plug. This value is *not* enforced in alternate mode registration routines. 1146 * 1147 * @plug.num_altmodes is set to -1 on plug registration, denoting that 1148 * a valid value has not been set for it yet. 1149 * 1150 * Returns 0 on success or negative error number on failure. 1151 */ 1152int typec_plug_set_num_altmodes(struct typec_plug *plug, int num_altmodes) 1153{ 1154 int ret; 1155 1156 if (num_altmodes < 0) 1157 return -EINVAL; 1158 1159 plug->num_altmodes = num_altmodes; 1160 ret = sysfs_update_group(&plug->dev.kobj, &typec_plug_group); 1161 if (ret < 0) 1162 return ret; 1163 1164 sysfs_notify(&plug->dev.kobj, NULL, "number_of_alternate_modes"); 1165 kobject_uevent(&plug->dev.kobj, KOBJ_CHANGE); 1166 1167 return 0; 1168} 1169EXPORT_SYMBOL_GPL(typec_plug_set_num_altmodes); 1170 1171/** 1172 * typec_plug_register_altmode - Register USB Type-C Cable Plug Alternate Mode 1173 * @plug: USB Type-C Cable Plug that supports the alternate mode 1174 * @desc: Description of the alternate mode 1175 * 1176 * This routine is used to register each alternate mode individually that @plug 1177 * has listed in response to Discover SVIDs command. The modes for a SVID that 1178 * the plug lists in response to Discover Modes command need to be listed in an 1179 * array in @desc. 1180 * 1181 * Returns handle to the alternate mode on success or ERR_PTR on failure. 1182 */ 1183struct typec_altmode * 1184typec_plug_register_altmode(struct typec_plug *plug, 1185 const struct typec_altmode_desc *desc) 1186{ 1187 return typec_register_altmode(&plug->dev, desc); 1188} 1189EXPORT_SYMBOL_GPL(typec_plug_register_altmode); 1190 1191/** 1192 * typec_register_plug - Register a USB Type-C Cable Plug 1193 * @cable: USB Type-C Cable with the plug 1194 * @desc: Description of the cable plug 1195 * 1196 * Registers a device for USB Type-C Cable Plug described in @desc. A USB Type-C 1197 * Cable Plug represents a plug with electronics in it that can response to USB 1198 * Power Delivery SOP Prime or SOP Double Prime packages. 1199 * 1200 * Returns handle to the cable plug on success or ERR_PTR on failure. 1201 */ 1202struct typec_plug *typec_register_plug(struct typec_cable *cable, 1203 struct typec_plug_desc *desc) 1204{ 1205 struct typec_plug *plug; 1206 char name[8]; 1207 int ret; 1208 1209 plug = kzalloc(sizeof(*plug), GFP_KERNEL); 1210 if (!plug) 1211 return ERR_PTR(-ENOMEM); 1212 1213 sprintf(name, "plug%d", desc->index); 1214 1215 ida_init(&plug->mode_ids); 1216 plug->num_altmodes = -1; 1217 plug->index = desc->index; 1218 plug->dev.class = &typec_class; 1219 plug->dev.parent = &cable->dev; 1220 plug->dev.type = &typec_plug_dev_type; 1221 dev_set_name(&plug->dev, "%s-%s", dev_name(cable->dev.parent), name); 1222 1223 ret = device_register(&plug->dev); 1224 if (ret) { 1225 dev_err(&cable->dev, "failed to register plug (%d)\n", ret); 1226 put_device(&plug->dev); 1227 return ERR_PTR(ret); 1228 } 1229 1230 return plug; 1231} 1232EXPORT_SYMBOL_GPL(typec_register_plug); 1233 1234/** 1235 * typec_unregister_plug - Unregister a USB Type-C Cable Plug 1236 * @plug: The cable plug to be unregistered 1237 * 1238 * Unregister device created with typec_register_plug(). 1239 */ 1240void typec_unregister_plug(struct typec_plug *plug) 1241{ 1242 if (!IS_ERR_OR_NULL(plug)) 1243 device_unregister(&plug->dev); 1244} 1245EXPORT_SYMBOL_GPL(typec_unregister_plug); 1246 1247/* Type-C Cables */ 1248 1249static const char * const typec_plug_types[] = { 1250 [USB_PLUG_NONE] = "unknown", 1251 [USB_PLUG_TYPE_A] = "type-a", 1252 [USB_PLUG_TYPE_B] = "type-b", 1253 [USB_PLUG_TYPE_C] = "type-c", 1254 [USB_PLUG_CAPTIVE] = "captive", 1255}; 1256 1257static ssize_t plug_type_show(struct device *dev, 1258 struct device_attribute *attr, char *buf) 1259{ 1260 struct typec_cable *cable = to_typec_cable(dev); 1261 1262 return sprintf(buf, "%s\n", typec_plug_types[cable->type]); 1263} 1264static DEVICE_ATTR_RO(plug_type); 1265 1266static struct attribute *typec_cable_attrs[] = { 1267 &dev_attr_type.attr, 1268 &dev_attr_plug_type.attr, 1269 &dev_attr_usb_power_delivery_revision.attr, 1270 NULL 1271}; 1272ATTRIBUTE_GROUPS(typec_cable); 1273 1274static void typec_cable_release(struct device *dev) 1275{ 1276 struct typec_cable *cable = to_typec_cable(dev); 1277 1278 kfree(cable); 1279} 1280 1281const struct device_type typec_cable_dev_type = { 1282 .name = "typec_cable", 1283 .groups = typec_cable_groups, 1284 .release = typec_cable_release, 1285}; 1286 1287/** 1288 * typec_cable_get - Get a reference to the USB Type-C cable 1289 * @port: The USB Type-C Port the cable is connected to 1290 * 1291 * The caller must decrement the reference count with typec_cable_put() after 1292 * use. 1293 */ 1294struct typec_cable *typec_cable_get(struct typec_port *port) 1295{ 1296 struct device *dev; 1297 1298 dev = device_find_child(&port->dev, &typec_cable_dev_type, 1299 device_match_type); 1300 if (!dev) 1301 return NULL; 1302 1303 return to_typec_cable(dev); 1304} 1305EXPORT_SYMBOL_GPL(typec_cable_get); 1306 1307/** 1308 * typec_cable_put - Decrement the reference count on USB Type-C cable 1309 * @cable: The USB Type-C cable 1310 */ 1311void typec_cable_put(struct typec_cable *cable) 1312{ 1313 put_device(&cable->dev); 1314} 1315EXPORT_SYMBOL_GPL(typec_cable_put); 1316 1317/** 1318 * typec_cable_is_active - Check is the USB Type-C cable active or passive 1319 * @cable: The USB Type-C Cable 1320 * 1321 * Return 1 if the cable is active or 0 if it's passive. 1322 */ 1323int typec_cable_is_active(struct typec_cable *cable) 1324{ 1325 return cable->active; 1326} 1327EXPORT_SYMBOL_GPL(typec_cable_is_active); 1328 1329/** 1330 * typec_cable_set_identity - Report result from Discover Identity command 1331 * @cable: The cable updated identity values 1332 * 1333 * This routine is used to report that the result of Discover Identity USB power 1334 * delivery command has become available. 1335 */ 1336int typec_cable_set_identity(struct typec_cable *cable) 1337{ 1338 if (!cable->identity) 1339 return -EINVAL; 1340 1341 typec_report_identity(&cable->dev); 1342 return 0; 1343} 1344EXPORT_SYMBOL_GPL(typec_cable_set_identity); 1345 1346/** 1347 * typec_register_cable - Register a USB Type-C Cable 1348 * @port: The USB Type-C Port the cable is connected to 1349 * @desc: Description of the cable 1350 * 1351 * Registers a device for USB Type-C Cable described in @desc. The cable will be 1352 * parent for the optional cable plug devises. 1353 * 1354 * Returns handle to the cable on success or ERR_PTR on failure. 1355 */ 1356struct typec_cable *typec_register_cable(struct typec_port *port, 1357 struct typec_cable_desc *desc) 1358{ 1359 struct typec_cable *cable; 1360 int ret; 1361 1362 cable = kzalloc(sizeof(*cable), GFP_KERNEL); 1363 if (!cable) 1364 return ERR_PTR(-ENOMEM); 1365 1366 cable->type = desc->type; 1367 cable->active = desc->active; 1368 cable->pd_revision = desc->pd_revision; 1369 1370 if (desc->identity) { 1371 /* 1372 * Creating directory for the identity only if the driver is 1373 * able to provide data to it. 1374 */ 1375 cable->dev.groups = usb_pd_id_groups; 1376 cable->identity = desc->identity; 1377 } 1378 1379 cable->dev.class = &typec_class; 1380 cable->dev.parent = &port->dev; 1381 cable->dev.type = &typec_cable_dev_type; 1382 dev_set_name(&cable->dev, "%s-cable", dev_name(&port->dev)); 1383 1384 ret = device_register(&cable->dev); 1385 if (ret) { 1386 dev_err(&port->dev, "failed to register cable (%d)\n", ret); 1387 put_device(&cable->dev); 1388 return ERR_PTR(ret); 1389 } 1390 1391 return cable; 1392} 1393EXPORT_SYMBOL_GPL(typec_register_cable); 1394 1395/** 1396 * typec_unregister_cable - Unregister a USB Type-C Cable 1397 * @cable: The cable to be unregistered 1398 * 1399 * Unregister device created with typec_register_cable(). 1400 */ 1401void typec_unregister_cable(struct typec_cable *cable) 1402{ 1403 if (!IS_ERR_OR_NULL(cable)) 1404 device_unregister(&cable->dev); 1405} 1406EXPORT_SYMBOL_GPL(typec_unregister_cable); 1407 1408/* ------------------------------------------------------------------------- */ 1409/* USB Type-C ports */ 1410 1411/** 1412 * typec_port_set_usb_mode - Set the operational USB mode for the port 1413 * @port: USB Type-C port 1414 * @mode: USB Mode (USB2, USB3 or USB4) 1415 * 1416 * @mode will be used with the next Enter_USB message. Existing connections are 1417 * not affected. 1418 */ 1419void typec_port_set_usb_mode(struct typec_port *port, enum usb_mode mode) 1420{ 1421 port->usb_mode = mode; 1422} 1423EXPORT_SYMBOL_GPL(typec_port_set_usb_mode); 1424 1425static ssize_t 1426usb_capability_show(struct device *dev, struct device_attribute *attr, char *buf) 1427{ 1428 struct typec_port *port = to_typec_port(dev); 1429 int len = 0; 1430 int i; 1431 1432 for (i = USB_MODE_USB2; i < USB_MODE_USB4 + 1; i++) { 1433 if (!(BIT(i - 1) & port->cap->usb_capability)) 1434 continue; 1435 1436 if (i == port->usb_mode) 1437 len += sysfs_emit_at(buf, len, "[%s] ", usb_modes[i]); 1438 else 1439 len += sysfs_emit_at(buf, len, "%s ", usb_modes[i]); 1440 } 1441 1442 sysfs_emit_at(buf, len - 1, "\n"); 1443 1444 return len; 1445} 1446 1447static ssize_t 1448usb_capability_store(struct device *dev, struct device_attribute *attr, 1449 const char *buf, size_t size) 1450{ 1451 struct typec_port *port = to_typec_port(dev); 1452 int ret = 0; 1453 int mode; 1454 1455 if (!port->ops || !port->ops->default_usb_mode_set) 1456 return -EOPNOTSUPP; 1457 1458 mode = sysfs_match_string(usb_modes, buf); 1459 if (mode < 0) 1460 return mode; 1461 1462 ret = port->ops->default_usb_mode_set(port, mode); 1463 if (ret) 1464 return ret; 1465 1466 port->usb_mode = mode; 1467 1468 return size; 1469} 1470static DEVICE_ATTR_RW(usb_capability); 1471 1472/** 1473 * typec_port_set_usb_power_delivery - Assign USB PD for port. 1474 * @port: USB Type-C port. 1475 * @pd: USB PD instance. 1476 * 1477 * This routine can be used to set the USB Power Delivery Capabilities for @port 1478 * that it will advertise to the partner. 1479 * 1480 * If @pd is NULL, the assignment is removed. 1481 */ 1482int typec_port_set_usb_power_delivery(struct typec_port *port, struct usb_power_delivery *pd) 1483{ 1484 int ret; 1485 1486 if (IS_ERR_OR_NULL(port) || port->pd == pd) 1487 return 0; 1488 1489 if (pd) { 1490 ret = usb_power_delivery_link_device(pd, &port->dev); 1491 if (ret) 1492 return ret; 1493 } else { 1494 usb_power_delivery_unlink_device(port->pd, &port->dev); 1495 } 1496 1497 port->pd = pd; 1498 1499 return 0; 1500} 1501EXPORT_SYMBOL_GPL(typec_port_set_usb_power_delivery); 1502 1503static ssize_t select_usb_power_delivery_store(struct device *dev, 1504 struct device_attribute *attr, 1505 const char *buf, size_t size) 1506{ 1507 struct typec_port *port = to_typec_port(dev); 1508 struct usb_power_delivery *pd; 1509 int ret; 1510 1511 if (!port->ops || !port->ops->pd_set) 1512 return -EOPNOTSUPP; 1513 1514 pd = usb_power_delivery_find(buf); 1515 if (!pd) 1516 return -EINVAL; 1517 1518 ret = port->ops->pd_set(port, pd); 1519 if (ret) 1520 return ret; 1521 1522 return size; 1523} 1524 1525static ssize_t select_usb_power_delivery_show(struct device *dev, 1526 struct device_attribute *attr, char *buf) 1527{ 1528 struct typec_port *port = to_typec_port(dev); 1529 struct usb_power_delivery **pds; 1530 int i, ret = 0; 1531 1532 if (!port->ops || !port->ops->pd_get) 1533 return -EOPNOTSUPP; 1534 1535 pds = port->ops->pd_get(port); 1536 if (!pds) 1537 return 0; 1538 1539 for (i = 0; pds[i]; i++) { 1540 if (pds[i] == port->pd) 1541 ret += sysfs_emit_at(buf, ret, "[%s] ", dev_name(&pds[i]->dev)); 1542 else 1543 ret += sysfs_emit_at(buf, ret, "%s ", dev_name(&pds[i]->dev)); 1544 } 1545 1546 buf[ret - 1] = '\n'; 1547 1548 return ret; 1549} 1550static DEVICE_ATTR_RW(select_usb_power_delivery); 1551 1552static struct attribute *port_attrs[] = { 1553 &dev_attr_select_usb_power_delivery.attr, 1554 NULL 1555}; 1556 1557static umode_t port_attr_is_visible(struct kobject *kobj, struct attribute *attr, int n) 1558{ 1559 struct typec_port *port = to_typec_port(kobj_to_dev(kobj)); 1560 1561 if (!port->pd || !port->ops || !port->ops->pd_get) 1562 return 0; 1563 if (!port->ops->pd_set) 1564 return 0444; 1565 1566 return attr->mode; 1567} 1568 1569static const struct attribute_group pd_group = { 1570 .is_visible = port_attr_is_visible, 1571 .attrs = port_attrs, 1572}; 1573 1574static const char * const typec_orientations[] = { 1575 [TYPEC_ORIENTATION_NONE] = "unknown", 1576 [TYPEC_ORIENTATION_NORMAL] = "normal", 1577 [TYPEC_ORIENTATION_REVERSE] = "reverse", 1578}; 1579 1580static const char * const typec_roles[] = { 1581 [TYPEC_SINK] = "sink", 1582 [TYPEC_SOURCE] = "source", 1583}; 1584 1585static const char * const typec_data_roles[] = { 1586 [TYPEC_DEVICE] = "device", 1587 [TYPEC_HOST] = "host", 1588}; 1589 1590static const char * const typec_port_power_roles[] = { 1591 [TYPEC_PORT_SRC] = "source", 1592 [TYPEC_PORT_SNK] = "sink", 1593 [TYPEC_PORT_DRP] = "dual", 1594}; 1595 1596static const char * const typec_port_data_roles[] = { 1597 [TYPEC_PORT_DFP] = "host", 1598 [TYPEC_PORT_UFP] = "device", 1599 [TYPEC_PORT_DRD] = "dual", 1600}; 1601 1602static const char * const typec_port_types_drp[] = { 1603 [TYPEC_PORT_SRC] = "dual [source] sink", 1604 [TYPEC_PORT_SNK] = "dual source [sink]", 1605 [TYPEC_PORT_DRP] = "[dual] source sink", 1606}; 1607 1608static ssize_t 1609preferred_role_store(struct device *dev, struct device_attribute *attr, 1610 const char *buf, size_t size) 1611{ 1612 struct typec_port *port = to_typec_port(dev); 1613 int role; 1614 int ret; 1615 1616 if (port->cap->type != TYPEC_PORT_DRP) { 1617 dev_dbg(dev, "Preferred role only supported with DRP ports\n"); 1618 return -EOPNOTSUPP; 1619 } 1620 1621 if (!port->ops || !port->ops->try_role) { 1622 dev_dbg(dev, "Setting preferred role not supported\n"); 1623 return -EOPNOTSUPP; 1624 } 1625 1626 role = sysfs_match_string(typec_roles, buf); 1627 if (role < 0) { 1628 if (sysfs_streq(buf, "none")) 1629 role = TYPEC_NO_PREFERRED_ROLE; 1630 else 1631 return -EINVAL; 1632 } 1633 1634 ret = port->ops->try_role(port, role); 1635 if (ret) 1636 return ret; 1637 1638 port->prefer_role = role; 1639 return size; 1640} 1641 1642static ssize_t 1643preferred_role_show(struct device *dev, struct device_attribute *attr, 1644 char *buf) 1645{ 1646 struct typec_port *port = to_typec_port(dev); 1647 1648 if (port->cap->type != TYPEC_PORT_DRP) 1649 return 0; 1650 1651 if (port->prefer_role < 0) 1652 return 0; 1653 1654 return sprintf(buf, "%s\n", typec_roles[port->prefer_role]); 1655} 1656static DEVICE_ATTR_RW(preferred_role); 1657 1658static ssize_t data_role_store(struct device *dev, 1659 struct device_attribute *attr, 1660 const char *buf, size_t size) 1661{ 1662 struct typec_port *port = to_typec_port(dev); 1663 int ret; 1664 1665 if (!port->ops || !port->ops->dr_set) { 1666 dev_dbg(dev, "data role swapping not supported\n"); 1667 return -EOPNOTSUPP; 1668 } 1669 1670 ret = sysfs_match_string(typec_data_roles, buf); 1671 if (ret < 0) 1672 return ret; 1673 1674 mutex_lock(&port->port_type_lock); 1675 if (port->cap->data != TYPEC_PORT_DRD) { 1676 ret = -EOPNOTSUPP; 1677 goto unlock_and_ret; 1678 } 1679 1680 ret = port->ops->dr_set(port, ret); 1681 if (ret) 1682 goto unlock_and_ret; 1683 1684 ret = size; 1685unlock_and_ret: 1686 mutex_unlock(&port->port_type_lock); 1687 return ret; 1688} 1689 1690static ssize_t data_role_show(struct device *dev, 1691 struct device_attribute *attr, char *buf) 1692{ 1693 struct typec_port *port = to_typec_port(dev); 1694 1695 if (port->cap->data == TYPEC_PORT_DRD) 1696 return sprintf(buf, "%s\n", port->data_role == TYPEC_HOST ? 1697 "[host] device" : "host [device]"); 1698 1699 return sprintf(buf, "[%s]\n", typec_data_roles[port->data_role]); 1700} 1701static DEVICE_ATTR_RW(data_role); 1702 1703static ssize_t power_role_store(struct device *dev, 1704 struct device_attribute *attr, 1705 const char *buf, size_t size) 1706{ 1707 struct typec_port *port = to_typec_port(dev); 1708 int ret; 1709 1710 if (!port->ops || !port->ops->pr_set) { 1711 dev_dbg(dev, "power role swapping not supported\n"); 1712 return -EOPNOTSUPP; 1713 } 1714 1715 if (port->pwr_opmode != TYPEC_PWR_MODE_PD) { 1716 dev_dbg(dev, "partner unable to swap power role\n"); 1717 return -EIO; 1718 } 1719 1720 ret = sysfs_match_string(typec_roles, buf); 1721 if (ret < 0) 1722 return ret; 1723 1724 mutex_lock(&port->port_type_lock); 1725 if (port->port_type != TYPEC_PORT_DRP) { 1726 dev_dbg(dev, "port type fixed at \"%s\"", 1727 typec_port_power_roles[port->port_type]); 1728 ret = -EOPNOTSUPP; 1729 goto unlock_and_ret; 1730 } 1731 1732 ret = port->ops->pr_set(port, ret); 1733 if (ret) 1734 goto unlock_and_ret; 1735 1736 ret = size; 1737unlock_and_ret: 1738 mutex_unlock(&port->port_type_lock); 1739 return ret; 1740} 1741 1742static ssize_t power_role_show(struct device *dev, 1743 struct device_attribute *attr, char *buf) 1744{ 1745 struct typec_port *port = to_typec_port(dev); 1746 1747 if (port->cap->type == TYPEC_PORT_DRP) 1748 return sprintf(buf, "%s\n", port->pwr_role == TYPEC_SOURCE ? 1749 "[source] sink" : "source [sink]"); 1750 1751 return sprintf(buf, "[%s]\n", typec_roles[port->pwr_role]); 1752} 1753static DEVICE_ATTR_RW(power_role); 1754 1755static ssize_t 1756port_type_store(struct device *dev, struct device_attribute *attr, 1757 const char *buf, size_t size) 1758{ 1759 struct typec_port *port = to_typec_port(dev); 1760 int ret; 1761 enum typec_port_type type; 1762 1763 if (port->cap->type != TYPEC_PORT_DRP || 1764 !port->ops || !port->ops->port_type_set) { 1765 dev_dbg(dev, "changing port type not supported\n"); 1766 return -EOPNOTSUPP; 1767 } 1768 1769 ret = sysfs_match_string(typec_port_power_roles, buf); 1770 if (ret < 0) 1771 return ret; 1772 1773 type = ret; 1774 mutex_lock(&port->port_type_lock); 1775 1776 if (port->port_type == type) { 1777 ret = size; 1778 goto unlock_and_ret; 1779 } 1780 1781 ret = port->ops->port_type_set(port, type); 1782 if (ret) 1783 goto unlock_and_ret; 1784 1785 port->port_type = type; 1786 ret = size; 1787 1788unlock_and_ret: 1789 mutex_unlock(&port->port_type_lock); 1790 return ret; 1791} 1792 1793static ssize_t 1794port_type_show(struct device *dev, struct device_attribute *attr, 1795 char *buf) 1796{ 1797 struct typec_port *port = to_typec_port(dev); 1798 1799 if (port->cap->type == TYPEC_PORT_DRP) 1800 return sprintf(buf, "%s\n", 1801 typec_port_types_drp[port->port_type]); 1802 1803 return sprintf(buf, "[%s]\n", typec_port_power_roles[port->cap->type]); 1804} 1805static DEVICE_ATTR_RW(port_type); 1806 1807static const char * const typec_pwr_opmodes[] = { 1808 [TYPEC_PWR_MODE_USB] = "default", 1809 [TYPEC_PWR_MODE_1_5A] = "1.5A", 1810 [TYPEC_PWR_MODE_3_0A] = "3.0A", 1811 [TYPEC_PWR_MODE_PD] = "usb_power_delivery", 1812}; 1813 1814static ssize_t power_operation_mode_show(struct device *dev, 1815 struct device_attribute *attr, 1816 char *buf) 1817{ 1818 struct typec_port *port = to_typec_port(dev); 1819 1820 return sprintf(buf, "%s\n", typec_pwr_opmodes[port->pwr_opmode]); 1821} 1822static DEVICE_ATTR_RO(power_operation_mode); 1823 1824static ssize_t vconn_source_store(struct device *dev, 1825 struct device_attribute *attr, 1826 const char *buf, size_t size) 1827{ 1828 struct typec_port *port = to_typec_port(dev); 1829 bool source; 1830 int ret; 1831 1832 if (!port->cap->pd_revision) { 1833 dev_dbg(dev, "VCONN swap depends on USB Power Delivery\n"); 1834 return -EOPNOTSUPP; 1835 } 1836 1837 if (!port->ops || !port->ops->vconn_set) { 1838 dev_dbg(dev, "VCONN swapping not supported\n"); 1839 return -EOPNOTSUPP; 1840 } 1841 1842 ret = kstrtobool(buf, &source); 1843 if (ret) 1844 return ret; 1845 1846 ret = port->ops->vconn_set(port, (enum typec_role)source); 1847 if (ret) 1848 return ret; 1849 1850 return size; 1851} 1852 1853static ssize_t vconn_source_show(struct device *dev, 1854 struct device_attribute *attr, char *buf) 1855{ 1856 struct typec_port *port = to_typec_port(dev); 1857 1858 return sprintf(buf, "%s\n", 1859 str_yes_no(port->vconn_role == TYPEC_SOURCE)); 1860} 1861static DEVICE_ATTR_RW(vconn_source); 1862 1863static ssize_t supported_accessory_modes_show(struct device *dev, 1864 struct device_attribute *attr, 1865 char *buf) 1866{ 1867 struct typec_port *port = to_typec_port(dev); 1868 ssize_t ret = 0; 1869 int i; 1870 1871 for (i = 0; i < ARRAY_SIZE(port->cap->accessory); i++) { 1872 if (port->cap->accessory[i]) 1873 ret += sprintf(buf + ret, "%s ", 1874 typec_accessory_modes[port->cap->accessory[i]]); 1875 } 1876 1877 if (!ret) 1878 return sprintf(buf, "none\n"); 1879 1880 buf[ret - 1] = '\n'; 1881 1882 return ret; 1883} 1884static DEVICE_ATTR_RO(supported_accessory_modes); 1885 1886static ssize_t usb_typec_revision_show(struct device *dev, 1887 struct device_attribute *attr, 1888 char *buf) 1889{ 1890 struct typec_port *port = to_typec_port(dev); 1891 u16 rev = port->cap->revision; 1892 1893 return sprintf(buf, "%d.%d\n", (rev >> 8) & 0xff, (rev >> 4) & 0xf); 1894} 1895static DEVICE_ATTR_RO(usb_typec_revision); 1896 1897static ssize_t usb_power_delivery_revision_show(struct device *dev, 1898 struct device_attribute *attr, 1899 char *buf) 1900{ 1901 u16 rev = 0; 1902 1903 if (is_typec_partner(dev)) { 1904 struct typec_partner *partner = to_typec_partner(dev); 1905 1906 rev = partner->pd_revision; 1907 } else if (is_typec_cable(dev)) { 1908 struct typec_cable *cable = to_typec_cable(dev); 1909 1910 rev = cable->pd_revision; 1911 } else if (is_typec_port(dev)) { 1912 struct typec_port *p = to_typec_port(dev); 1913 1914 rev = p->cap->pd_revision; 1915 } 1916 return sysfs_emit(buf, "%d.%d\n", (rev >> 8) & 0xff, (rev >> 4) & 0xf); 1917} 1918 1919static ssize_t orientation_show(struct device *dev, 1920 struct device_attribute *attr, 1921 char *buf) 1922{ 1923 struct typec_port *port = to_typec_port(dev); 1924 1925 return sprintf(buf, "%s\n", typec_orientations[port->orientation]); 1926} 1927static DEVICE_ATTR_RO(orientation); 1928 1929static struct attribute *typec_attrs[] = { 1930 &dev_attr_data_role.attr, 1931 &dev_attr_power_operation_mode.attr, 1932 &dev_attr_power_role.attr, 1933 &dev_attr_preferred_role.attr, 1934 &dev_attr_supported_accessory_modes.attr, 1935 &dev_attr_usb_power_delivery_revision.attr, 1936 &dev_attr_usb_typec_revision.attr, 1937 &dev_attr_vconn_source.attr, 1938 &dev_attr_port_type.attr, 1939 &dev_attr_orientation.attr, 1940 &dev_attr_usb_capability.attr, 1941 NULL, 1942}; 1943 1944static umode_t typec_attr_is_visible(struct kobject *kobj, 1945 struct attribute *attr, int n) 1946{ 1947 struct typec_port *port = to_typec_port(kobj_to_dev(kobj)); 1948 1949 if (attr == &dev_attr_data_role.attr) { 1950 if (port->cap->data != TYPEC_PORT_DRD || 1951 !port->ops || !port->ops->dr_set) 1952 return 0444; 1953 } else if (attr == &dev_attr_power_role.attr) { 1954 if (port->cap->type != TYPEC_PORT_DRP || 1955 !port->ops || !port->ops->pr_set) 1956 return 0444; 1957 } else if (attr == &dev_attr_vconn_source.attr) { 1958 if (!port->cap->pd_revision || 1959 !port->ops || !port->ops->vconn_set) 1960 return 0444; 1961 } else if (attr == &dev_attr_preferred_role.attr) { 1962 if (port->cap->type != TYPEC_PORT_DRP || 1963 !port->ops || !port->ops->try_role) 1964 return 0444; 1965 } else if (attr == &dev_attr_port_type.attr) { 1966 if (!port->ops || !port->ops->port_type_set) 1967 return 0; 1968 if (port->cap->type != TYPEC_PORT_DRP) 1969 return 0444; 1970 } else if (attr == &dev_attr_orientation.attr) { 1971 if (port->cap->orientation_aware) 1972 return 0444; 1973 return 0; 1974 } else if (attr == &dev_attr_usb_capability.attr) { 1975 if (!port->cap->usb_capability) 1976 return 0; 1977 if (!port->ops || !port->ops->default_usb_mode_set) 1978 return 0444; 1979 } 1980 1981 return attr->mode; 1982} 1983 1984static const struct attribute_group typec_group = { 1985 .is_visible = typec_attr_is_visible, 1986 .attrs = typec_attrs, 1987}; 1988 1989static const struct attribute_group *typec_groups[] = { 1990 &typec_group, 1991 &pd_group, 1992 NULL 1993}; 1994 1995static int typec_uevent(const struct device *dev, struct kobj_uevent_env *env) 1996{ 1997 int ret; 1998 1999 ret = add_uevent_var(env, "TYPEC_PORT=%s", dev_name(dev)); 2000 if (ret) 2001 dev_err(dev, "failed to add uevent TYPEC_PORT\n"); 2002 2003 return ret; 2004} 2005 2006static void typec_release(struct device *dev) 2007{ 2008 struct typec_port *port = to_typec_port(dev); 2009 2010 ida_free(&typec_index_ida, port->id); 2011 ida_destroy(&port->mode_ids); 2012 typec_switch_put(port->sw); 2013 typec_mux_put(port->mux); 2014 typec_retimer_put(port->retimer); 2015 kfree(port->cap); 2016 kfree(port); 2017} 2018 2019const struct device_type typec_port_dev_type = { 2020 .name = "typec_port", 2021 .groups = typec_groups, 2022 .uevent = typec_uevent, 2023 .release = typec_release, 2024}; 2025 2026/* --------------------------------------- */ 2027/* Driver callbacks to report role updates */ 2028 2029static struct typec_partner *typec_get_partner(struct typec_port *port) 2030{ 2031 struct device *dev; 2032 2033 dev = device_find_child(&port->dev, &typec_partner_dev_type, 2034 device_match_type); 2035 if (!dev) 2036 return NULL; 2037 2038 return to_typec_partner(dev); 2039} 2040 2041static void typec_partner_attach(struct typec_connector *con, struct device *dev) 2042{ 2043 struct typec_port *port = container_of(con, struct typec_port, con); 2044 struct typec_partner *partner = typec_get_partner(port); 2045 struct usb_device *udev = to_usb_device(dev); 2046 enum usb_mode usb_mode; 2047 2048 if (udev->speed < USB_SPEED_SUPER) { 2049 usb_mode = USB_MODE_USB2; 2050 port->usb2_dev = dev; 2051 } else { 2052 usb_mode = USB_MODE_USB3; 2053 port->usb3_dev = dev; 2054 } 2055 2056 if (partner) { 2057 typec_partner_set_usb_mode(partner, usb_mode); 2058 typec_partner_link_device(partner, dev); 2059 put_device(&partner->dev); 2060 } 2061} 2062 2063static void typec_partner_deattach(struct typec_connector *con, struct device *dev) 2064{ 2065 struct typec_port *port = container_of(con, struct typec_port, con); 2066 struct typec_partner *partner = typec_get_partner(port); 2067 2068 if (partner) { 2069 typec_partner_unlink_device(partner, dev); 2070 put_device(&partner->dev); 2071 } 2072 2073 if (port->usb2_dev == dev) 2074 port->usb2_dev = NULL; 2075 else if (port->usb3_dev == dev) 2076 port->usb3_dev = NULL; 2077} 2078 2079/** 2080 * typec_set_data_role - Report data role change 2081 * @port: The USB Type-C Port where the role was changed 2082 * @role: The new data role 2083 * 2084 * This routine is used by the port drivers to report data role changes. 2085 */ 2086void typec_set_data_role(struct typec_port *port, enum typec_data_role role) 2087{ 2088 struct typec_partner *partner; 2089 2090 if (port->data_role == role) 2091 return; 2092 2093 port->data_role = role; 2094 sysfs_notify(&port->dev.kobj, NULL, "data_role"); 2095 kobject_uevent(&port->dev.kobj, KOBJ_CHANGE); 2096 2097 partner = typec_get_partner(port); 2098 if (!partner) 2099 return; 2100 2101 if (partner->identity) 2102 typec_product_type_notify(&partner->dev); 2103 2104 put_device(&partner->dev); 2105} 2106EXPORT_SYMBOL_GPL(typec_set_data_role); 2107 2108/** 2109 * typec_set_pwr_role - Report power role change 2110 * @port: The USB Type-C Port where the role was changed 2111 * @role: The new data role 2112 * 2113 * This routine is used by the port drivers to report power role changes. 2114 */ 2115void typec_set_pwr_role(struct typec_port *port, enum typec_role role) 2116{ 2117 if (port->pwr_role == role) 2118 return; 2119 2120 port->pwr_role = role; 2121 sysfs_notify(&port->dev.kobj, NULL, "power_role"); 2122 kobject_uevent(&port->dev.kobj, KOBJ_CHANGE); 2123} 2124EXPORT_SYMBOL_GPL(typec_set_pwr_role); 2125 2126/** 2127 * typec_set_vconn_role - Report VCONN source change 2128 * @port: The USB Type-C Port which VCONN role changed 2129 * @role: Source when @port is sourcing VCONN, or Sink when it's not 2130 * 2131 * This routine is used by the port drivers to report if the VCONN source is 2132 * changes. 2133 */ 2134void typec_set_vconn_role(struct typec_port *port, enum typec_role role) 2135{ 2136 if (port->vconn_role == role) 2137 return; 2138 2139 port->vconn_role = role; 2140 sysfs_notify(&port->dev.kobj, NULL, "vconn_source"); 2141 kobject_uevent(&port->dev.kobj, KOBJ_CHANGE); 2142} 2143EXPORT_SYMBOL_GPL(typec_set_vconn_role); 2144 2145/** 2146 * typec_set_pwr_opmode - Report changed power operation mode 2147 * @port: The USB Type-C Port where the mode was changed 2148 * @opmode: New power operation mode 2149 * 2150 * This routine is used by the port drivers to report changed power operation 2151 * mode in @port. The modes are USB (default), 1.5A, 3.0A as defined in USB 2152 * Type-C specification, and "USB Power Delivery" when the power levels are 2153 * negotiated with methods defined in USB Power Delivery specification. 2154 */ 2155void typec_set_pwr_opmode(struct typec_port *port, 2156 enum typec_pwr_opmode opmode) 2157{ 2158 struct device *partner_dev; 2159 2160 if (port->pwr_opmode == opmode) 2161 return; 2162 2163 port->pwr_opmode = opmode; 2164 sysfs_notify(&port->dev.kobj, NULL, "power_operation_mode"); 2165 kobject_uevent(&port->dev.kobj, KOBJ_CHANGE); 2166 2167 partner_dev = device_find_child(&port->dev, 2168 &typec_partner_dev_type, 2169 device_match_type); 2170 if (partner_dev) { 2171 struct typec_partner *partner = to_typec_partner(partner_dev); 2172 2173 if (opmode == TYPEC_PWR_MODE_PD && !partner->usb_pd) { 2174 partner->usb_pd = 1; 2175 sysfs_notify(&partner_dev->kobj, NULL, 2176 "supports_usb_power_delivery"); 2177 kobject_uevent(&partner_dev->kobj, KOBJ_CHANGE); 2178 } 2179 put_device(partner_dev); 2180 } 2181} 2182EXPORT_SYMBOL_GPL(typec_set_pwr_opmode); 2183 2184/** 2185 * typec_find_pwr_opmode - Get the typec power operation mode capability 2186 * @name: power operation mode string 2187 * 2188 * This routine is used to find the typec_pwr_opmode by its string @name. 2189 * 2190 * Returns typec_pwr_opmode if success, otherwise negative error code. 2191 */ 2192int typec_find_pwr_opmode(const char *name) 2193{ 2194 return match_string(typec_pwr_opmodes, 2195 ARRAY_SIZE(typec_pwr_opmodes), name); 2196} 2197EXPORT_SYMBOL_GPL(typec_find_pwr_opmode); 2198 2199/** 2200 * typec_find_orientation - Convert orientation string to enum typec_orientation 2201 * @name: Orientation string 2202 * 2203 * This routine is used to find the typec_orientation by its string name @name. 2204 * 2205 * Returns the orientation value on success, otherwise negative error code. 2206 */ 2207int typec_find_orientation(const char *name) 2208{ 2209 return match_string(typec_orientations, ARRAY_SIZE(typec_orientations), 2210 name); 2211} 2212EXPORT_SYMBOL_GPL(typec_find_orientation); 2213 2214/** 2215 * typec_find_port_power_role - Get the typec port power capability 2216 * @name: port power capability string 2217 * 2218 * This routine is used to find the typec_port_type by its string name. 2219 * 2220 * Returns typec_port_type if success, otherwise negative error code. 2221 */ 2222int typec_find_port_power_role(const char *name) 2223{ 2224 return match_string(typec_port_power_roles, 2225 ARRAY_SIZE(typec_port_power_roles), name); 2226} 2227EXPORT_SYMBOL_GPL(typec_find_port_power_role); 2228 2229/** 2230 * typec_find_power_role - Find the typec one specific power role 2231 * @name: power role string 2232 * 2233 * This routine is used to find the typec_role by its string name. 2234 * 2235 * Returns typec_role if success, otherwise negative error code. 2236 */ 2237int typec_find_power_role(const char *name) 2238{ 2239 return match_string(typec_roles, ARRAY_SIZE(typec_roles), name); 2240} 2241EXPORT_SYMBOL_GPL(typec_find_power_role); 2242 2243/** 2244 * typec_find_port_data_role - Get the typec port data capability 2245 * @name: port data capability string 2246 * 2247 * This routine is used to find the typec_port_data by its string name. 2248 * 2249 * Returns typec_port_data if success, otherwise negative error code. 2250 */ 2251int typec_find_port_data_role(const char *name) 2252{ 2253 return match_string(typec_port_data_roles, 2254 ARRAY_SIZE(typec_port_data_roles), name); 2255} 2256EXPORT_SYMBOL_GPL(typec_find_port_data_role); 2257 2258/* ------------------------------------------ */ 2259/* API for Multiplexer/DeMultiplexer Switches */ 2260 2261/** 2262 * typec_set_orientation - Set USB Type-C cable plug orientation 2263 * @port: USB Type-C Port 2264 * @orientation: USB Type-C cable plug orientation 2265 * 2266 * Set cable plug orientation for @port. 2267 */ 2268int typec_set_orientation(struct typec_port *port, 2269 enum typec_orientation orientation) 2270{ 2271 int ret; 2272 2273 ret = typec_switch_set(port->sw, orientation); 2274 if (ret) 2275 return ret; 2276 2277 port->orientation = orientation; 2278 sysfs_notify(&port->dev.kobj, NULL, "orientation"); 2279 kobject_uevent(&port->dev.kobj, KOBJ_CHANGE); 2280 2281 return 0; 2282} 2283EXPORT_SYMBOL_GPL(typec_set_orientation); 2284 2285/** 2286 * typec_get_orientation - Get USB Type-C cable plug orientation 2287 * @port: USB Type-C Port 2288 * 2289 * Get current cable plug orientation for @port. 2290 */ 2291enum typec_orientation typec_get_orientation(struct typec_port *port) 2292{ 2293 return port->orientation; 2294} 2295EXPORT_SYMBOL_GPL(typec_get_orientation); 2296 2297/** 2298 * typec_set_mode - Set mode of operation for USB Type-C connector 2299 * @port: USB Type-C connector 2300 * @mode: Accessory Mode, USB Operation or Safe State 2301 * 2302 * Configure @port for Accessory Mode @mode. This function will configure the 2303 * muxes needed for @mode. 2304 */ 2305int typec_set_mode(struct typec_port *port, int mode) 2306{ 2307 struct typec_mux_state state = { }; 2308 2309 state.mode = mode; 2310 2311 return typec_mux_set(port->mux, &state); 2312} 2313EXPORT_SYMBOL_GPL(typec_set_mode); 2314 2315/* --------------------------------------- */ 2316 2317/** 2318 * typec_get_negotiated_svdm_version - Get negotiated SVDM Version 2319 * @port: USB Type-C Port. 2320 * 2321 * Get the negotiated SVDM Version. The Version is set to the port default 2322 * value stored in typec_capability on partner registration, and updated after 2323 * a successful Discover Identity if the negotiated value is less than the 2324 * default value. 2325 * 2326 * Returns usb_pd_svdm_ver if the partner has been registered otherwise -ENODEV. 2327 */ 2328int typec_get_negotiated_svdm_version(struct typec_port *port) 2329{ 2330 enum usb_pd_svdm_ver svdm_version; 2331 struct device *partner_dev; 2332 2333 partner_dev = device_find_child(&port->dev, 2334 &typec_partner_dev_type, 2335 device_match_type); 2336 if (!partner_dev) 2337 return -ENODEV; 2338 2339 svdm_version = to_typec_partner(partner_dev)->svdm_version; 2340 put_device(partner_dev); 2341 2342 return svdm_version; 2343} 2344EXPORT_SYMBOL_GPL(typec_get_negotiated_svdm_version); 2345 2346/** 2347 * typec_get_cable_svdm_version - Get cable negotiated SVDM Version 2348 * @port: USB Type-C Port. 2349 * 2350 * Get the negotiated SVDM Version for the cable. The Version is set to the port 2351 * default value based on the PD Revision during cable registration, and updated 2352 * after a successful Discover Identity if the negotiated value is less than the 2353 * default. 2354 * 2355 * Returns usb_pd_svdm_ver if the cable has been registered otherwise -ENODEV. 2356 */ 2357int typec_get_cable_svdm_version(struct typec_port *port) 2358{ 2359 enum usb_pd_svdm_ver svdm_version; 2360 struct device *cable_dev; 2361 2362 cable_dev = device_find_child(&port->dev, &typec_cable_dev_type, 2363 device_match_type); 2364 if (!cable_dev) 2365 return -ENODEV; 2366 2367 svdm_version = to_typec_cable(cable_dev)->svdm_version; 2368 put_device(cable_dev); 2369 2370 return svdm_version; 2371} 2372EXPORT_SYMBOL_GPL(typec_get_cable_svdm_version); 2373 2374/** 2375 * typec_cable_set_svdm_version - Set negotiated Structured VDM (SVDM) Version 2376 * @cable: USB Type-C Active Cable that supports SVDM 2377 * @svdm_version: Negotiated SVDM Version 2378 * 2379 * This routine is used to save the negotiated SVDM Version. 2380 */ 2381void typec_cable_set_svdm_version(struct typec_cable *cable, enum usb_pd_svdm_ver svdm_version) 2382{ 2383 cable->svdm_version = svdm_version; 2384} 2385EXPORT_SYMBOL_GPL(typec_cable_set_svdm_version); 2386 2387/** 2388 * typec_get_drvdata - Return private driver data pointer 2389 * @port: USB Type-C port 2390 */ 2391void *typec_get_drvdata(struct typec_port *port) 2392{ 2393 return dev_get_drvdata(&port->dev); 2394} 2395EXPORT_SYMBOL_GPL(typec_get_drvdata); 2396 2397int typec_get_fw_cap(struct typec_capability *cap, 2398 struct fwnode_handle *fwnode) 2399{ 2400 const char *cap_str; 2401 int ret; 2402 2403 cap->fwnode = fwnode; 2404 2405 ret = fwnode_property_read_string(fwnode, "power-role", &cap_str); 2406 if (ret < 0) 2407 return ret; 2408 2409 ret = typec_find_port_power_role(cap_str); 2410 if (ret < 0) 2411 return ret; 2412 cap->type = ret; 2413 2414 /* USB data support is optional */ 2415 ret = fwnode_property_read_string(fwnode, "data-role", &cap_str); 2416 if (ret == 0) { 2417 ret = typec_find_port_data_role(cap_str); 2418 if (ret < 0) 2419 return ret; 2420 cap->data = ret; 2421 } 2422 2423 /* Get the preferred power role for a DRP */ 2424 if (cap->type == TYPEC_PORT_DRP) { 2425 cap->prefer_role = TYPEC_NO_PREFERRED_ROLE; 2426 2427 ret = fwnode_property_read_string(fwnode, "try-power-role", &cap_str); 2428 if (ret == 0) { 2429 ret = typec_find_power_role(cap_str); 2430 if (ret < 0) 2431 return ret; 2432 cap->prefer_role = ret; 2433 } 2434 } 2435 2436 return 0; 2437} 2438EXPORT_SYMBOL_GPL(typec_get_fw_cap); 2439 2440/** 2441 * typec_port_register_altmode - Register USB Type-C Port Alternate Mode 2442 * @port: USB Type-C Port that supports the alternate mode 2443 * @desc: Description of the alternate mode 2444 * 2445 * This routine is used to register an alternate mode that @port is capable of 2446 * supporting. 2447 * 2448 * Returns handle to the alternate mode on success or ERR_PTR on failure. 2449 */ 2450struct typec_altmode * 2451typec_port_register_altmode(struct typec_port *port, 2452 const struct typec_altmode_desc *desc) 2453{ 2454 struct typec_altmode *adev; 2455 struct typec_mux *mux; 2456 struct typec_retimer *retimer; 2457 2458 mux = typec_mux_get(&port->dev); 2459 if (IS_ERR(mux)) 2460 return ERR_CAST(mux); 2461 2462 retimer = typec_retimer_get(&port->dev); 2463 if (IS_ERR(retimer)) { 2464 typec_mux_put(mux); 2465 return ERR_CAST(retimer); 2466 } 2467 2468 adev = typec_register_altmode(&port->dev, desc); 2469 if (IS_ERR(adev)) { 2470 typec_retimer_put(retimer); 2471 typec_mux_put(mux); 2472 } else { 2473 to_altmode(adev)->mux = mux; 2474 to_altmode(adev)->retimer = retimer; 2475 } 2476 2477 return adev; 2478} 2479EXPORT_SYMBOL_GPL(typec_port_register_altmode); 2480 2481void typec_port_register_altmodes(struct typec_port *port, 2482 const struct typec_altmode_ops *ops, void *drvdata, 2483 struct typec_altmode **altmodes, size_t n) 2484{ 2485 struct fwnode_handle *child; 2486 struct typec_altmode_desc desc; 2487 struct typec_altmode *alt; 2488 size_t index = 0; 2489 u16 svid; 2490 u32 vdo; 2491 int ret; 2492 2493 struct fwnode_handle *altmodes_node __free(fwnode_handle) = 2494 device_get_named_child_node(&port->dev, "altmodes"); 2495 2496 if (!altmodes_node) 2497 return; /* No altmodes specified */ 2498 2499 fwnode_for_each_child_node(altmodes_node, child) { 2500 ret = fwnode_property_read_u16(child, "svid", &svid); 2501 if (ret) { 2502 dev_err(&port->dev, "Error reading svid for altmode %s\n", 2503 fwnode_get_name(child)); 2504 continue; 2505 } 2506 2507 ret = fwnode_property_read_u32(child, "vdo", &vdo); 2508 if (ret) { 2509 dev_err(&port->dev, "Error reading vdo for altmode %s\n", 2510 fwnode_get_name(child)); 2511 continue; 2512 } 2513 2514 if (index >= n) { 2515 dev_err(&port->dev, "Error not enough space for altmode %s\n", 2516 fwnode_get_name(child)); 2517 continue; 2518 } 2519 2520 desc.svid = svid; 2521 desc.vdo = vdo; 2522 desc.mode = index + 1; 2523 alt = typec_port_register_altmode(port, &desc); 2524 if (IS_ERR(alt)) { 2525 dev_err(&port->dev, "Error registering altmode %s\n", 2526 fwnode_get_name(child)); 2527 continue; 2528 } 2529 2530 typec_altmode_set_ops(alt, ops); 2531 typec_altmode_set_drvdata(alt, drvdata); 2532 altmodes[index] = alt; 2533 index++; 2534 } 2535} 2536EXPORT_SYMBOL_GPL(typec_port_register_altmodes); 2537 2538/** 2539 * typec_port_register_cable_ops - Register typec_cable_ops to port altmodes 2540 * @altmodes: USB Type-C Port's altmode vector 2541 * @max_altmodes: The maximum number of alt modes supported by the port 2542 * @ops: Cable alternate mode vector 2543 */ 2544void typec_port_register_cable_ops(struct typec_altmode **altmodes, int max_altmodes, 2545 const struct typec_cable_ops *ops) 2546{ 2547 int i; 2548 2549 for (i = 0; i < max_altmodes; i++) { 2550 if (!altmodes[i]) 2551 return; 2552 altmodes[i]->cable_ops = ops; 2553 } 2554} 2555EXPORT_SYMBOL_GPL(typec_port_register_cable_ops); 2556 2557/** 2558 * typec_register_port - Register a USB Type-C Port 2559 * @parent: Parent device 2560 * @cap: Description of the port 2561 * 2562 * Registers a device for USB Type-C Port described in @cap. 2563 * 2564 * Returns handle to the port on success or ERR_PTR on failure. 2565 */ 2566struct typec_port *typec_register_port(struct device *parent, 2567 const struct typec_capability *cap) 2568{ 2569 struct typec_port *port; 2570 int ret; 2571 int id; 2572 2573 port = kzalloc(sizeof(*port), GFP_KERNEL); 2574 if (!port) 2575 return ERR_PTR(-ENOMEM); 2576 2577 id = ida_alloc(&typec_index_ida, GFP_KERNEL); 2578 if (id < 0) { 2579 kfree(port); 2580 return ERR_PTR(id); 2581 } 2582 2583 switch (cap->type) { 2584 case TYPEC_PORT_SRC: 2585 port->pwr_role = TYPEC_SOURCE; 2586 port->vconn_role = TYPEC_SOURCE; 2587 break; 2588 case TYPEC_PORT_SNK: 2589 port->pwr_role = TYPEC_SINK; 2590 port->vconn_role = TYPEC_SINK; 2591 break; 2592 case TYPEC_PORT_DRP: 2593 if (cap->prefer_role != TYPEC_NO_PREFERRED_ROLE) 2594 port->pwr_role = cap->prefer_role; 2595 else 2596 port->pwr_role = TYPEC_SINK; 2597 break; 2598 } 2599 2600 switch (cap->data) { 2601 case TYPEC_PORT_DFP: 2602 port->data_role = TYPEC_HOST; 2603 break; 2604 case TYPEC_PORT_UFP: 2605 port->data_role = TYPEC_DEVICE; 2606 break; 2607 case TYPEC_PORT_DRD: 2608 if (cap->prefer_role == TYPEC_SOURCE) 2609 port->data_role = TYPEC_HOST; 2610 else 2611 port->data_role = TYPEC_DEVICE; 2612 break; 2613 } 2614 2615 ida_init(&port->mode_ids); 2616 mutex_init(&port->port_type_lock); 2617 2618 port->id = id; 2619 port->ops = cap->ops; 2620 port->port_type = cap->type; 2621 port->prefer_role = cap->prefer_role; 2622 port->con.attach = typec_partner_attach; 2623 port->con.deattach = typec_partner_deattach; 2624 2625 if (cap->usb_capability & USB_CAPABILITY_USB4) 2626 port->usb_mode = USB_MODE_USB4; 2627 else if (cap->usb_capability & USB_CAPABILITY_USB3) 2628 port->usb_mode = USB_MODE_USB3; 2629 else if (cap->usb_capability & USB_CAPABILITY_USB2) 2630 port->usb_mode = USB_MODE_USB2; 2631 2632 device_initialize(&port->dev); 2633 port->dev.class = &typec_class; 2634 port->dev.parent = parent; 2635 port->dev.fwnode = cap->fwnode; 2636 port->dev.type = &typec_port_dev_type; 2637 dev_set_name(&port->dev, "port%d", id); 2638 dev_set_drvdata(&port->dev, cap->driver_data); 2639 2640 port->cap = kmemdup(cap, sizeof(*cap), GFP_KERNEL); 2641 if (!port->cap) { 2642 put_device(&port->dev); 2643 return ERR_PTR(-ENOMEM); 2644 } 2645 2646 port->sw = typec_switch_get(&port->dev); 2647 if (IS_ERR(port->sw)) { 2648 ret = PTR_ERR(port->sw); 2649 put_device(&port->dev); 2650 return ERR_PTR(ret); 2651 } 2652 2653 port->mux = typec_mux_get(&port->dev); 2654 if (IS_ERR(port->mux)) { 2655 ret = PTR_ERR(port->mux); 2656 put_device(&port->dev); 2657 return ERR_PTR(ret); 2658 } 2659 2660 port->retimer = typec_retimer_get(&port->dev); 2661 if (IS_ERR(port->retimer)) { 2662 ret = PTR_ERR(port->retimer); 2663 put_device(&port->dev); 2664 return ERR_PTR(ret); 2665 } 2666 2667 port->pd = cap->pd; 2668 2669 ret = device_add(&port->dev); 2670 if (ret) { 2671 dev_err(parent, "failed to register port (%d)\n", ret); 2672 put_device(&port->dev); 2673 return ERR_PTR(ret); 2674 } 2675 2676 ret = usb_power_delivery_link_device(port->pd, &port->dev); 2677 if (ret) { 2678 dev_err(&port->dev, "failed to link pd\n"); 2679 device_unregister(&port->dev); 2680 return ERR_PTR(ret); 2681 } 2682 2683 ret = typec_link_ports(port); 2684 if (ret) 2685 dev_warn(&port->dev, "failed to create symlinks (%d)\n", ret); 2686 2687 return port; 2688} 2689EXPORT_SYMBOL_GPL(typec_register_port); 2690 2691/** 2692 * typec_unregister_port - Unregister a USB Type-C Port 2693 * @port: The port to be unregistered 2694 * 2695 * Unregister device created with typec_register_port(). 2696 */ 2697void typec_unregister_port(struct typec_port *port) 2698{ 2699 if (!IS_ERR_OR_NULL(port)) { 2700 typec_unlink_ports(port); 2701 typec_port_set_usb_power_delivery(port, NULL); 2702 device_unregister(&port->dev); 2703 } 2704} 2705EXPORT_SYMBOL_GPL(typec_unregister_port); 2706 2707static int __init typec_init(void) 2708{ 2709 int ret; 2710 2711 ret = bus_register(&typec_bus); 2712 if (ret) 2713 return ret; 2714 2715 ret = class_register(&typec_mux_class); 2716 if (ret) 2717 goto err_unregister_bus; 2718 2719 ret = class_register(&retimer_class); 2720 if (ret) 2721 goto err_unregister_mux_class; 2722 2723 ret = class_register(&typec_class); 2724 if (ret) 2725 goto err_unregister_retimer_class; 2726 2727 ret = usb_power_delivery_init(); 2728 if (ret) 2729 goto err_unregister_class; 2730 2731 return 0; 2732 2733err_unregister_class: 2734 class_unregister(&typec_class); 2735 2736err_unregister_retimer_class: 2737 class_unregister(&retimer_class); 2738 2739err_unregister_mux_class: 2740 class_unregister(&typec_mux_class); 2741 2742err_unregister_bus: 2743 bus_unregister(&typec_bus); 2744 2745 return ret; 2746} 2747subsys_initcall(typec_init); 2748 2749static void __exit typec_exit(void) 2750{ 2751 usb_power_delivery_exit(); 2752 class_unregister(&typec_class); 2753 ida_destroy(&typec_index_ida); 2754 bus_unregister(&typec_bus); 2755 class_unregister(&typec_mux_class); 2756 class_unregister(&retimer_class); 2757} 2758module_exit(typec_exit); 2759 2760MODULE_AUTHOR("Heikki Krogerus <heikki.krogerus@linux.intel.com>"); 2761MODULE_LICENSE("GPL v2"); 2762MODULE_DESCRIPTION("USB Type-C Connector Class");