1 #ifndef QDEV_CORE_H 2 #define QDEV_CORE_H 3 4 #include "qemu/queue.h" 5 #include "qemu/bitmap.h" 6 #include "qemu/rcu.h" 7 #include "qemu/rcu_queue.h" 8 #include "qom/object.h" 9 #include "hw/hotplug.h" 10 #include "hw/resettable.h" 11 12 enum { 13 DEV_NVECTORS_UNSPECIFIED = -1, 14 }; 15 16 #define TYPE_DEVICE "device" 17 OBJECT_DECLARE_TYPE(DeviceState, DeviceClass, DEVICE) 18 19 typedef enum DeviceCategory { 20 DEVICE_CATEGORY_BRIDGE, 21 DEVICE_CATEGORY_USB, 22 DEVICE_CATEGORY_STORAGE, 23 DEVICE_CATEGORY_NETWORK, 24 DEVICE_CATEGORY_INPUT, 25 DEVICE_CATEGORY_DISPLAY, 26 DEVICE_CATEGORY_SOUND, 27 DEVICE_CATEGORY_MISC, 28 DEVICE_CATEGORY_CPU, 29 DEVICE_CATEGORY_WATCHDOG, 30 DEVICE_CATEGORY_MAX 31 } DeviceCategory; 32 33 typedef void (*DeviceRealize)(DeviceState *dev, Error **errp); 34 typedef void (*DeviceUnrealize)(DeviceState *dev); 35 typedef void (*DeviceReset)(DeviceState *dev); 36 typedef void (*BusRealize)(BusState *bus, Error **errp); 37 typedef void (*BusUnrealize)(BusState *bus); 38 39 /** 40 * DeviceClass: 41 * @props: Properties accessing state fields. 42 * @realize: Callback function invoked when the #DeviceState:realized 43 * property is changed to %true. 44 * @unrealize: Callback function invoked when the #DeviceState:realized 45 * property is changed to %false. 46 * @hotpluggable: indicates if #DeviceClass is hotpluggable, available 47 * as readonly "hotpluggable" property of #DeviceState instance 48 * 49 * # Realization # 50 * Devices are constructed in two stages, 51 * 1) object instantiation via object_initialize() and 52 * 2) device realization via #DeviceState:realized property. 53 * The former may not fail (and must not abort or exit, since it is called 54 * during device introspection already), and the latter may return error 55 * information to the caller and must be re-entrant. 56 * Trivial field initializations should go into #TypeInfo.instance_init. 57 * Operations depending on @props static properties should go into @realize. 58 * After successful realization, setting static properties will fail. 59 * 60 * As an interim step, the #DeviceState:realized property can also be 61 * set with qdev_realize(). 62 * In the future, devices will propagate this state change to their children 63 * and along busses they expose. 64 * The point in time will be deferred to machine creation, so that values 65 * set in @realize will not be introspectable beforehand. Therefore devices 66 * must not create children during @realize; they should initialize them via 67 * object_initialize() in their own #TypeInfo.instance_init and forward the 68 * realization events appropriately. 69 * 70 * Any type may override the @realize and/or @unrealize callbacks but needs 71 * to call the parent type's implementation if keeping their functionality 72 * is desired. Refer to QOM documentation for further discussion and examples. 73 * 74 * <note> 75 * <para> 76 * Since TYPE_DEVICE doesn't implement @realize and @unrealize, types 77 * derived directly from it need not call their parent's @realize and 78 * @unrealize. 79 * For other types consult the documentation and implementation of the 80 * respective parent types. 81 * </para> 82 * </note> 83 * 84 * # Hiding a device # 85 * To hide a device, a DeviceListener function hide_device() needs to 86 * be registered. 87 * It can be used to defer adding a device and therefore hide it from 88 * the guest. The handler registering to this DeviceListener can save 89 * the QOpts passed to it for re-using it later. It must return if it 90 * wants the device to be hidden or visible. When the handler function 91 * decides the device shall be visible it will be added with 92 * qdev_device_add() and realized as any other device. Otherwise 93 * qdev_device_add() will return early without adding the device. The 94 * guest will not see a "hidden" device until it was marked visible 95 * and qdev_device_add called again. 96 * 97 */ 98 struct DeviceClass { 99 /*< private >*/ 100 ObjectClass parent_class; 101 /*< public >*/ 102 103 DECLARE_BITMAP(categories, DEVICE_CATEGORY_MAX); 104 const char *fw_name; 105 const char *desc; 106 107 /* 108 * The underscore at the end ensures a compile-time error if someone 109 * assigns to dc->props instead of using device_class_set_props. 110 */ 111 Property *props_; 112 113 /* 114 * Can this device be instantiated with -device / device_add? 115 * All devices should support instantiation with device_add, and 116 * this flag should not exist. But we're not there, yet. Some 117 * devices fail to instantiate with cryptic error messages. 118 * Others instantiate, but don't work. Exposing users to such 119 * behavior would be cruel; clearing this flag will protect them. 120 * It should never be cleared without a comment explaining why it 121 * is cleared. 122 * TODO remove once we're there 123 */ 124 bool user_creatable; 125 bool hotpluggable; 126 127 /* callbacks */ 128 /* 129 * Reset method here is deprecated and replaced by methods in the 130 * resettable class interface to implement a multi-phase reset. 131 * TODO: remove once every reset callback is unused 132 */ 133 DeviceReset reset; 134 DeviceRealize realize; 135 DeviceUnrealize unrealize; 136 137 /* device state */ 138 const VMStateDescription *vmsd; 139 140 /* Private to qdev / bus. */ 141 const char *bus_type; 142 }; 143 144 typedef struct NamedGPIOList NamedGPIOList; 145 146 struct NamedGPIOList { 147 char *name; 148 qemu_irq *in; 149 int num_in; 150 int num_out; 151 QLIST_ENTRY(NamedGPIOList) node; 152 }; 153 154 typedef struct Clock Clock; 155 typedef struct NamedClockList NamedClockList; 156 157 struct NamedClockList { 158 char *name; 159 Clock *clock; 160 bool output; 161 bool alias; 162 QLIST_ENTRY(NamedClockList) node; 163 }; 164 165 /** 166 * DeviceState: 167 * @realized: Indicates whether the device has been fully constructed. 168 * When accessed outside big qemu lock, must be accessed with 169 * qatomic_load_acquire() 170 * @reset: ResettableState for the device; handled by Resettable interface. 171 * 172 * This structure should not be accessed directly. We declare it here 173 * so that it can be embedded in individual device state structures. 174 */ 175 struct DeviceState { 176 /*< private >*/ 177 Object parent_obj; 178 /*< public >*/ 179 180 char *id; 181 char *canonical_path; 182 bool realized; 183 bool pending_deleted_event; 184 int64_t pending_deleted_expires_ms; 185 QDict *opts; 186 int hotplugged; 187 bool allow_unplug_during_migration; 188 BusState *parent_bus; 189 QLIST_HEAD(, NamedGPIOList) gpios; 190 QLIST_HEAD(, NamedClockList) clocks; 191 QLIST_HEAD(, BusState) child_bus; 192 int num_child_bus; 193 int instance_id_alias; 194 int alias_required_for_version; 195 ResettableState reset; 196 GSList *unplug_blockers; 197 }; 198 199 struct DeviceListener { 200 void (*realize)(DeviceListener *listener, DeviceState *dev); 201 void (*unrealize)(DeviceListener *listener, DeviceState *dev); 202 /* 203 * This callback is called upon init of the DeviceState and 204 * informs qdev if a device should be visible or hidden. We can 205 * hide a failover device depending for example on the device 206 * opts. 207 * 208 * On errors, it returns false and errp is set. Device creation 209 * should fail in this case. 210 */ 211 bool (*hide_device)(DeviceListener *listener, const QDict *device_opts, 212 bool from_json, Error **errp); 213 QTAILQ_ENTRY(DeviceListener) link; 214 }; 215 216 #define TYPE_BUS "bus" 217 DECLARE_OBJ_CHECKERS(BusState, BusClass, 218 BUS, TYPE_BUS) 219 220 struct BusClass { 221 ObjectClass parent_class; 222 223 /* FIXME first arg should be BusState */ 224 void (*print_dev)(Monitor *mon, DeviceState *dev, int indent); 225 char *(*get_dev_path)(DeviceState *dev); 226 227 /* 228 * This callback is used to create Open Firmware device path in accordance 229 * with OF spec http://forthworks.com/standards/of1275.pdf. Individual bus 230 * bindings can be found at http://playground.sun.com/1275/bindings/. 231 */ 232 char *(*get_fw_dev_path)(DeviceState *dev); 233 234 void (*reset)(BusState *bus); 235 236 /* 237 * Return whether the device can be added to @bus, 238 * based on the address that was set (via device properties) 239 * before realize. If not, on return @errp contains the 240 * human-readable error message. 241 */ 242 bool (*check_address)(BusState *bus, DeviceState *dev, Error **errp); 243 244 BusRealize realize; 245 BusUnrealize unrealize; 246 247 /* maximum devices allowed on the bus, 0: no limit. */ 248 int max_dev; 249 /* number of automatically allocated bus ids (e.g. ide.0) */ 250 int automatic_ids; 251 }; 252 253 typedef struct BusChild { 254 struct rcu_head rcu; 255 DeviceState *child; 256 int index; 257 QTAILQ_ENTRY(BusChild) sibling; 258 } BusChild; 259 260 #define QDEV_HOTPLUG_HANDLER_PROPERTY "hotplug-handler" 261 262 /** 263 * BusState: 264 * @hotplug_handler: link to a hotplug handler associated with bus. 265 * @reset: ResettableState for the bus; handled by Resettable interface. 266 */ 267 struct BusState { 268 Object obj; 269 DeviceState *parent; 270 char *name; 271 HotplugHandler *hotplug_handler; 272 int max_index; 273 bool realized; 274 bool full; 275 int num_children; 276 277 /* 278 * children is a RCU QTAILQ, thus readers must use RCU to access it, 279 * and writers must hold the big qemu lock 280 */ 281 282 QTAILQ_HEAD(, BusChild) children; 283 QLIST_ENTRY(BusState) sibling; 284 ResettableState reset; 285 }; 286 287 /** 288 * GlobalProperty: 289 * @used: Set to true if property was used when initializing a device. 290 * @optional: If set to true, GlobalProperty will be skipped without errors 291 * if the property doesn't exist. 292 * 293 * An error is fatal for non-hotplugged devices, when the global is applied. 294 */ 295 typedef struct GlobalProperty { 296 const char *driver; 297 const char *property; 298 const char *value; 299 bool used; 300 bool optional; 301 } GlobalProperty; 302 303 static inline void 304 compat_props_add(GPtrArray *arr, 305 GlobalProperty props[], size_t nelem) 306 { 307 int i; 308 for (i = 0; i < nelem; i++) { 309 g_ptr_array_add(arr, (void *)&props[i]); 310 } 311 } 312 313 /*** Board API. This should go away once we have a machine config file. ***/ 314 315 /** 316 * qdev_new: Create a device on the heap 317 * @name: device type to create (we assert() that this type exists) 318 * 319 * This only allocates the memory and initializes the device state 320 * structure, ready for the caller to set properties if they wish. 321 * The device still needs to be realized. 322 * The returned object has a reference count of 1. 323 */ 324 DeviceState *qdev_new(const char *name); 325 326 /** 327 * qdev_try_new: Try to create a device on the heap 328 * @name: device type to create 329 * 330 * This is like qdev_new(), except it returns %NULL when type @name 331 * does not exist, rather than asserting. 332 */ 333 DeviceState *qdev_try_new(const char *name); 334 335 /** 336 * qdev_realize: Realize @dev. 337 * @dev: device to realize 338 * @bus: bus to plug it into (may be NULL) 339 * @errp: pointer to error object 340 * 341 * "Realize" the device, i.e. perform the second phase of device 342 * initialization. 343 * @dev must not be plugged into a bus already. 344 * If @bus, plug @dev into @bus. This takes a reference to @dev. 345 * If @dev has no QOM parent, make one up, taking another reference. 346 * On success, return true. 347 * On failure, store an error through @errp and return false. 348 * 349 * If you created @dev using qdev_new(), you probably want to use 350 * qdev_realize_and_unref() instead. 351 */ 352 bool qdev_realize(DeviceState *dev, BusState *bus, Error **errp); 353 354 /** 355 * qdev_realize_and_unref: Realize @dev and drop a reference 356 * @dev: device to realize 357 * @bus: bus to plug it into (may be NULL) 358 * @errp: pointer to error object 359 * 360 * Realize @dev and drop a reference. 361 * This is like qdev_realize(), except the caller must hold a 362 * (private) reference, which is dropped on return regardless of 363 * success or failure. Intended use:: 364 * 365 * dev = qdev_new(); 366 * [...] 367 * qdev_realize_and_unref(dev, bus, errp); 368 * 369 * Now @dev can go away without further ado. 370 * 371 * If you are embedding the device into some other QOM device and 372 * initialized it via some variant on object_initialize_child() then 373 * do not use this function, because that family of functions arrange 374 * for the only reference to the child device to be held by the parent 375 * via the child<> property, and so the reference-count-drop done here 376 * would be incorrect. For that use case you want qdev_realize(). 377 */ 378 bool qdev_realize_and_unref(DeviceState *dev, BusState *bus, Error **errp); 379 380 /** 381 * qdev_unrealize: Unrealize a device 382 * @dev: device to unrealize 383 * 384 * This function will "unrealize" a device, which is the first phase 385 * of correctly destroying a device that has been realized. It will: 386 * 387 * - unrealize any child buses by calling qbus_unrealize() 388 * (this will recursively unrealize any devices on those buses) 389 * - call the the unrealize method of @dev 390 * 391 * The device can then be freed by causing its reference count to go 392 * to zero. 393 * 394 * Warning: most devices in QEMU do not expect to be unrealized. Only 395 * devices which are hot-unpluggable should be unrealized (as part of 396 * the unplugging process); all other devices are expected to last for 397 * the life of the simulation and should not be unrealized and freed. 398 */ 399 void qdev_unrealize(DeviceState *dev); 400 void qdev_set_legacy_instance_id(DeviceState *dev, int alias_id, 401 int required_for_version); 402 HotplugHandler *qdev_get_bus_hotplug_handler(DeviceState *dev); 403 HotplugHandler *qdev_get_machine_hotplug_handler(DeviceState *dev); 404 bool qdev_hotplug_allowed(DeviceState *dev, Error **errp); 405 /** 406 * qdev_get_hotplug_handler: Get handler responsible for device wiring 407 * 408 * Find HOTPLUG_HANDLER for @dev that provides [pre|un]plug callbacks for it. 409 * 410 * Note: in case @dev has a parent bus, it will be returned as handler unless 411 * machine handler overrides it. 412 * 413 * Returns: pointer to object that implements TYPE_HOTPLUG_HANDLER interface 414 * or NULL if there aren't any. 415 */ 416 HotplugHandler *qdev_get_hotplug_handler(DeviceState *dev); 417 void qdev_unplug(DeviceState *dev, Error **errp); 418 void qdev_simple_device_unplug_cb(HotplugHandler *hotplug_dev, 419 DeviceState *dev, Error **errp); 420 void qdev_machine_creation_done(void); 421 bool qdev_machine_modified(void); 422 423 /** 424 * qdev_add_unplug_blocker: Add an unplug blocker to a device 425 * 426 * @dev: Device to be blocked from unplug 427 * @reason: Reason for blocking 428 */ 429 void qdev_add_unplug_blocker(DeviceState *dev, Error *reason); 430 431 /** 432 * qdev_del_unplug_blocker: Remove an unplug blocker from a device 433 * 434 * @dev: Device to be unblocked 435 * @reason: Pointer to the Error used with qdev_add_unplug_blocker. 436 * Used as a handle to lookup the blocker for deletion. 437 */ 438 void qdev_del_unplug_blocker(DeviceState *dev, Error *reason); 439 440 /** 441 * qdev_unplug_blocked: Confirm if a device is blocked from unplug 442 * 443 * @dev: Device to be tested 444 * @reason: Returns one of the reasons why the device is blocked, 445 * if any 446 * 447 * Returns: true if device is blocked from unplug, false otherwise 448 */ 449 bool qdev_unplug_blocked(DeviceState *dev, Error **errp); 450 451 /** 452 * GpioPolarity: Polarity of a GPIO line 453 * 454 * GPIO lines use either positive (active-high) logic, 455 * or negative (active-low) logic. 456 * 457 * In active-high logic (%GPIO_POLARITY_ACTIVE_HIGH), a pin is 458 * active when the voltage on the pin is high (relative to ground); 459 * whereas in active-low logic (%GPIO_POLARITY_ACTIVE_LOW), a pin 460 * is active when the voltage on the pin is low (or grounded). 461 */ 462 typedef enum { 463 GPIO_POLARITY_ACTIVE_LOW, 464 GPIO_POLARITY_ACTIVE_HIGH 465 } GpioPolarity; 466 467 /** 468 * qdev_get_gpio_in: Get one of a device's anonymous input GPIO lines 469 * @dev: Device whose GPIO we want 470 * @n: Number of the anonymous GPIO line (which must be in range) 471 * 472 * Returns the qemu_irq corresponding to an anonymous input GPIO line 473 * (which the device has set up with qdev_init_gpio_in()). The index 474 * @n of the GPIO line must be valid (i.e. be at least 0 and less than 475 * the total number of anonymous input GPIOs the device has); this 476 * function will assert() if passed an invalid index. 477 * 478 * This function is intended to be used by board code or SoC "container" 479 * device models to wire up the GPIO lines; usually the return value 480 * will be passed to qdev_connect_gpio_out() or a similar function to 481 * connect another device's output GPIO line to this input. 482 * 483 * For named input GPIO lines, use qdev_get_gpio_in_named(). 484 */ 485 qemu_irq qdev_get_gpio_in(DeviceState *dev, int n); 486 487 /** 488 * qdev_get_gpio_in_named: Get one of a device's named input GPIO lines 489 * @dev: Device whose GPIO we want 490 * @name: Name of the input GPIO array 491 * @n: Number of the GPIO line in that array (which must be in range) 492 * 493 * Returns the qemu_irq corresponding to a named input GPIO line 494 * (which the device has set up with qdev_init_gpio_in_named()). 495 * The @name string must correspond to an input GPIO array which exists on 496 * the device, and the index @n of the GPIO line must be valid (i.e. 497 * be at least 0 and less than the total number of input GPIOs in that 498 * array); this function will assert() if passed an invalid name or index. 499 * 500 * For anonymous input GPIO lines, use qdev_get_gpio_in(). 501 */ 502 qemu_irq qdev_get_gpio_in_named(DeviceState *dev, const char *name, int n); 503 504 /** 505 * qdev_connect_gpio_out: Connect one of a device's anonymous output GPIO lines 506 * @dev: Device whose GPIO to connect 507 * @n: Number of the anonymous output GPIO line (which must be in range) 508 * @input_pin: qemu_irq to connect the output line to 509 * 510 * This function connects an anonymous output GPIO line on a device 511 * up to an arbitrary qemu_irq, so that when the device asserts that 512 * output GPIO line, the qemu_irq's callback is invoked. 513 * The index @n of the GPIO line must be valid (i.e. be at least 0 and 514 * less than the total number of anonymous output GPIOs the device has 515 * created with qdev_init_gpio_out()); otherwise this function will assert(). 516 * 517 * Outbound GPIO lines can be connected to any qemu_irq, but the common 518 * case is connecting them to another device's inbound GPIO line, using 519 * the qemu_irq returned by qdev_get_gpio_in() or qdev_get_gpio_in_named(). 520 * 521 * It is not valid to try to connect one outbound GPIO to multiple 522 * qemu_irqs at once, or to connect multiple outbound GPIOs to the 523 * same qemu_irq. (Warning: there is no assertion or other guard to 524 * catch this error: the model will just not do the right thing.) 525 * Instead, for fan-out you can use the TYPE_SPLIT_IRQ device: connect 526 * a device's outbound GPIO to the splitter's input, and connect each 527 * of the splitter's outputs to a different device. For fan-in you 528 * can use the TYPE_OR_IRQ device, which is a model of a logical OR 529 * gate with multiple inputs and one output. 530 * 531 * For named output GPIO lines, use qdev_connect_gpio_out_named(). 532 */ 533 void qdev_connect_gpio_out(DeviceState *dev, int n, qemu_irq pin); 534 535 /** 536 * qdev_connect_gpio_out_named: Connect one of a device's named output 537 * GPIO lines 538 * @dev: Device whose GPIO to connect 539 * @name: Name of the output GPIO array 540 * @n: Number of the anonymous output GPIO line (which must be in range) 541 * @input_pin: qemu_irq to connect the output line to 542 * 543 * This function connects an anonymous output GPIO line on a device 544 * up to an arbitrary qemu_irq, so that when the device asserts that 545 * output GPIO line, the qemu_irq's callback is invoked. 546 * The @name string must correspond to an output GPIO array which exists on 547 * the device, and the index @n of the GPIO line must be valid (i.e. 548 * be at least 0 and less than the total number of input GPIOs in that 549 * array); this function will assert() if passed an invalid name or index. 550 * 551 * Outbound GPIO lines can be connected to any qemu_irq, but the common 552 * case is connecting them to another device's inbound GPIO line, using 553 * the qemu_irq returned by qdev_get_gpio_in() or qdev_get_gpio_in_named(). 554 * 555 * It is not valid to try to connect one outbound GPIO to multiple 556 * qemu_irqs at once, or to connect multiple outbound GPIOs to the 557 * same qemu_irq; see qdev_connect_gpio_out() for details. 558 * 559 * For anonymous output GPIO lines, use qdev_connect_gpio_out(). 560 */ 561 void qdev_connect_gpio_out_named(DeviceState *dev, const char *name, int n, 562 qemu_irq input_pin); 563 564 /** 565 * qdev_get_gpio_out_connector: Get the qemu_irq connected to an output GPIO 566 * @dev: Device whose output GPIO we are interested in 567 * @name: Name of the output GPIO array 568 * @n: Number of the output GPIO line within that array 569 * 570 * Returns whatever qemu_irq is currently connected to the specified 571 * output GPIO line of @dev. This will be NULL if the output GPIO line 572 * has never been wired up to the anything. Note that the qemu_irq 573 * returned does not belong to @dev -- it will be the input GPIO or 574 * IRQ of whichever device the board code has connected up to @dev's 575 * output GPIO. 576 * 577 * You probably don't need to use this function -- it is used only 578 * by the platform-bus subsystem. 579 */ 580 qemu_irq qdev_get_gpio_out_connector(DeviceState *dev, const char *name, int n); 581 582 /** 583 * qdev_intercept_gpio_out: Intercept an existing GPIO connection 584 * @dev: Device to intercept the outbound GPIO line from 585 * @icpt: New qemu_irq to connect instead 586 * @name: Name of the output GPIO array 587 * @n: Number of the GPIO line in the array 588 * 589 * This function is provided only for use by the qtest testing framework 590 * and is not suitable for use in non-testing parts of QEMU. 591 * 592 * This function breaks an existing connection of an outbound GPIO 593 * line from @dev, and replaces it with the new qemu_irq @icpt, as if 594 * ``qdev_connect_gpio_out_named(dev, icpt, name, n)`` had been called. 595 * The previously connected qemu_irq is returned, so it can be restored 596 * by a second call to qdev_intercept_gpio_out() if desired. 597 */ 598 qemu_irq qdev_intercept_gpio_out(DeviceState *dev, qemu_irq icpt, 599 const char *name, int n); 600 601 BusState *qdev_get_child_bus(DeviceState *dev, const char *name); 602 603 /*** Device API. ***/ 604 605 /** 606 * qdev_init_gpio_in: create an array of anonymous input GPIO lines 607 * @dev: Device to create input GPIOs for 608 * @handler: Function to call when GPIO line value is set 609 * @n: Number of GPIO lines to create 610 * 611 * Devices should use functions in the qdev_init_gpio_in* family in 612 * their instance_init or realize methods to create any input GPIO 613 * lines they need. There is no functional difference between 614 * anonymous and named GPIO lines. Stylistically, named GPIOs are 615 * preferable (easier to understand at callsites) unless a device 616 * has exactly one uniform kind of GPIO input whose purpose is obvious. 617 * Note that input GPIO lines can serve as 'sinks' for IRQ lines. 618 * 619 * See qdev_get_gpio_in() for how code that uses such a device can get 620 * hold of an input GPIO line to manipulate it. 621 */ 622 void qdev_init_gpio_in(DeviceState *dev, qemu_irq_handler handler, int n); 623 624 /** 625 * qdev_init_gpio_out: create an array of anonymous output GPIO lines 626 * @dev: Device to create output GPIOs for 627 * @pins: Pointer to qemu_irq or qemu_irq array for the GPIO lines 628 * @n: Number of GPIO lines to create 629 * 630 * Devices should use functions in the qdev_init_gpio_out* family 631 * in their instance_init or realize methods to create any output 632 * GPIO lines they need. There is no functional difference between 633 * anonymous and named GPIO lines. Stylistically, named GPIOs are 634 * preferable (easier to understand at callsites) unless a device 635 * has exactly one uniform kind of GPIO output whose purpose is obvious. 636 * 637 * The @pins argument should be a pointer to either a "qemu_irq" 638 * (if @n == 1) or a "qemu_irq []" array (if @n > 1) in the device's 639 * state structure. The device implementation can then raise and 640 * lower the GPIO line by calling qemu_set_irq(). (If anything is 641 * connected to the other end of the GPIO this will cause the handler 642 * function for that input GPIO to be called.) 643 * 644 * See qdev_connect_gpio_out() for how code that uses such a device 645 * can connect to one of its output GPIO lines. 646 * 647 * There is no need to release the @pins allocated array because it 648 * will be automatically released when @dev calls its instance_finalize() 649 * handler. 650 */ 651 void qdev_init_gpio_out(DeviceState *dev, qemu_irq *pins, int n); 652 653 /** 654 * qdev_init_gpio_out_named: create an array of named output GPIO lines 655 * @dev: Device to create output GPIOs for 656 * @pins: Pointer to qemu_irq or qemu_irq array for the GPIO lines 657 * @name: Name to give this array of GPIO lines 658 * @n: Number of GPIO lines to create 659 * 660 * Like qdev_init_gpio_out(), but creates an array of GPIO output lines 661 * with a name. Code using the device can then connect these GPIO lines 662 * using qdev_connect_gpio_out_named(). 663 */ 664 void qdev_init_gpio_out_named(DeviceState *dev, qemu_irq *pins, 665 const char *name, int n); 666 667 /** 668 * qdev_init_gpio_in_named_with_opaque: create an array of input GPIO lines 669 * for the specified device 670 * 671 * @dev: Device to create input GPIOs for 672 * @handler: Function to call when GPIO line value is set 673 * @opaque: Opaque data pointer to pass to @handler 674 * @name: Name of the GPIO input (must be unique for this device) 675 * @n: Number of GPIO lines in this input set 676 */ 677 void qdev_init_gpio_in_named_with_opaque(DeviceState *dev, 678 qemu_irq_handler handler, 679 void *opaque, 680 const char *name, int n); 681 682 /** 683 * qdev_init_gpio_in_named: create an array of input GPIO lines 684 * for the specified device 685 * 686 * Like qdev_init_gpio_in_named_with_opaque(), but the opaque pointer 687 * passed to the handler is @dev (which is the most commonly desired behaviour). 688 */ 689 static inline void qdev_init_gpio_in_named(DeviceState *dev, 690 qemu_irq_handler handler, 691 const char *name, int n) 692 { 693 qdev_init_gpio_in_named_with_opaque(dev, handler, dev, name, n); 694 } 695 696 /** 697 * qdev_pass_gpios: create GPIO lines on container which pass through to device 698 * @dev: Device which has GPIO lines 699 * @container: Container device which needs to expose them 700 * @name: Name of GPIO array to pass through (NULL for the anonymous GPIO array) 701 * 702 * In QEMU, complicated devices like SoCs are often modelled with a 703 * "container" QOM device which itself contains other QOM devices and 704 * which wires them up appropriately. This function allows the container 705 * to create GPIO arrays on itself which simply pass through to a GPIO 706 * array of one of its internal devices. 707 * 708 * If @dev has both input and output GPIOs named @name then both will 709 * be passed through. It is not possible to pass a subset of the array 710 * with this function. 711 * 712 * To users of the container device, the GPIO array created on @container 713 * behaves exactly like any other. 714 */ 715 void qdev_pass_gpios(DeviceState *dev, DeviceState *container, 716 const char *name); 717 718 BusState *qdev_get_parent_bus(DeviceState *dev); 719 720 /*** BUS API. ***/ 721 722 DeviceState *qdev_find_recursive(BusState *bus, const char *id); 723 724 /* Returns 0 to walk children, > 0 to skip walk, < 0 to terminate walk. */ 725 typedef int (qbus_walkerfn)(BusState *bus, void *opaque); 726 typedef int (qdev_walkerfn)(DeviceState *dev, void *opaque); 727 728 void qbus_init(void *bus, size_t size, const char *typename, 729 DeviceState *parent, const char *name); 730 BusState *qbus_new(const char *typename, DeviceState *parent, const char *name); 731 bool qbus_realize(BusState *bus, Error **errp); 732 void qbus_unrealize(BusState *bus); 733 734 /* Returns > 0 if either devfn or busfn skip walk somewhere in cursion, 735 * < 0 if either devfn or busfn terminate walk somewhere in cursion, 736 * 0 otherwise. */ 737 int qbus_walk_children(BusState *bus, 738 qdev_walkerfn *pre_devfn, qbus_walkerfn *pre_busfn, 739 qdev_walkerfn *post_devfn, qbus_walkerfn *post_busfn, 740 void *opaque); 741 int qdev_walk_children(DeviceState *dev, 742 qdev_walkerfn *pre_devfn, qbus_walkerfn *pre_busfn, 743 qdev_walkerfn *post_devfn, qbus_walkerfn *post_busfn, 744 void *opaque); 745 746 /** 747 * @qdev_reset_all: 748 * Reset @dev. See @qbus_reset_all() for more details. 749 * 750 * Note: This function is deprecated and will be removed when it becomes unused. 751 * Please use device_cold_reset() now. 752 */ 753 void qdev_reset_all(DeviceState *dev); 754 void qdev_reset_all_fn(void *opaque); 755 756 /** 757 * @qbus_reset_all: 758 * @bus: Bus to be reset. 759 * 760 * Reset @bus and perform a bus-level ("hard") reset of all devices connected 761 * to it, including recursive processing of all buses below @bus itself. A 762 * hard reset means that qbus_reset_all will reset all state of the device. 763 * For PCI devices, for example, this will include the base address registers 764 * or configuration space. 765 * 766 * Note: This function is deprecated and will be removed when it becomes unused. 767 * Please use bus_cold_reset() now. 768 */ 769 void qbus_reset_all(BusState *bus); 770 void qbus_reset_all_fn(void *opaque); 771 772 /** 773 * device_cold_reset: 774 * Reset device @dev and perform a recursive processing using the resettable 775 * interface. It triggers a RESET_TYPE_COLD. 776 */ 777 void device_cold_reset(DeviceState *dev); 778 779 /** 780 * bus_cold_reset: 781 * 782 * Reset bus @bus and perform a recursive processing using the resettable 783 * interface. It triggers a RESET_TYPE_COLD. 784 */ 785 void bus_cold_reset(BusState *bus); 786 787 /** 788 * device_is_in_reset: 789 * Return true if the device @dev is currently being reset. 790 */ 791 bool device_is_in_reset(DeviceState *dev); 792 793 /** 794 * bus_is_in_reset: 795 * Return true if the bus @bus is currently being reset. 796 */ 797 bool bus_is_in_reset(BusState *bus); 798 799 /* This should go away once we get rid of the NULL bus hack */ 800 BusState *sysbus_get_default(void); 801 802 char *qdev_get_fw_dev_path(DeviceState *dev); 803 char *qdev_get_own_fw_dev_path_from_handler(BusState *bus, DeviceState *dev); 804 805 /** 806 * device_legacy_reset: 807 * 808 * Reset a single device (by calling the reset method). 809 * Note: This function is deprecated and will be removed when it becomes unused. 810 * Please use device_cold_reset() now. 811 */ 812 void device_legacy_reset(DeviceState *dev); 813 814 void device_class_set_props(DeviceClass *dc, Property *props); 815 816 /** 817 * device_class_set_parent_reset: 818 * TODO: remove the function when DeviceClass's reset method 819 * is not used anymore. 820 */ 821 void device_class_set_parent_reset(DeviceClass *dc, 822 DeviceReset dev_reset, 823 DeviceReset *parent_reset); 824 void device_class_set_parent_realize(DeviceClass *dc, 825 DeviceRealize dev_realize, 826 DeviceRealize *parent_realize); 827 void device_class_set_parent_unrealize(DeviceClass *dc, 828 DeviceUnrealize dev_unrealize, 829 DeviceUnrealize *parent_unrealize); 830 831 const VMStateDescription *qdev_get_vmsd(DeviceState *dev); 832 833 const char *qdev_fw_name(DeviceState *dev); 834 835 void qdev_assert_realized_properly(void); 836 Object *qdev_get_machine(void); 837 838 /* FIXME: make this a link<> */ 839 bool qdev_set_parent_bus(DeviceState *dev, BusState *bus, Error **errp); 840 841 extern bool qdev_hot_removed; 842 843 char *qdev_get_dev_path(DeviceState *dev); 844 845 void qbus_set_hotplug_handler(BusState *bus, Object *handler); 846 void qbus_set_bus_hotplug_handler(BusState *bus); 847 848 static inline bool qbus_is_hotpluggable(BusState *bus) 849 { 850 return bus->hotplug_handler; 851 } 852 853 /** 854 * qbus_mark_full: Mark this bus as full, so no more devices can be attached 855 * @bus: Bus to mark as full 856 * 857 * By default, QEMU will allow devices to be plugged into a bus up 858 * to the bus class's device count limit. Calling this function 859 * marks a particular bus as full, so that no more devices can be 860 * plugged into it. In particular this means that the bus will not 861 * be considered as a candidate for plugging in devices created by 862 * the user on the commandline or via the monitor. 863 * If a machine has multiple buses of a given type, such as I2C, 864 * where some of those buses in the real hardware are used only for 865 * internal devices and some are exposed via expansion ports, you 866 * can use this function to mark the internal-only buses as full 867 * after you have created all their internal devices. Then user 868 * created devices will appear on the expansion-port bus where 869 * guest software expects them. 870 */ 871 static inline void qbus_mark_full(BusState *bus) 872 { 873 bus->full = true; 874 } 875 876 void device_listener_register(DeviceListener *listener); 877 void device_listener_unregister(DeviceListener *listener); 878 879 /** 880 * @qdev_should_hide_device: 881 * @opts: options QDict 882 * @from_json: true if @opts entries are typed, false for all strings 883 * @errp: pointer to error object 884 * 885 * Check if a device should be added. 886 * When a device is added via qdev_device_add() this will be called, 887 * and return if the device should be added now or not. 888 */ 889 bool qdev_should_hide_device(const QDict *opts, bool from_json, Error **errp); 890 891 typedef enum MachineInitPhase { 892 /* current_machine is NULL. */ 893 PHASE_NO_MACHINE, 894 895 /* current_machine is not NULL, but current_machine->accel is NULL. */ 896 PHASE_MACHINE_CREATED, 897 898 /* 899 * current_machine->accel is not NULL, but the machine properties have 900 * not been validated and machine_class->init has not yet been called. 901 */ 902 PHASE_ACCEL_CREATED, 903 904 /* 905 * machine_class->init has been called, thus creating any embedded 906 * devices and validating machine properties. Devices created at 907 * this time are considered to be cold-plugged. 908 */ 909 PHASE_MACHINE_INITIALIZED, 910 911 /* 912 * QEMU is ready to start CPUs and devices created at this time 913 * are considered to be hot-plugged. The monitor is not restricted 914 * to "preconfig" commands. 915 */ 916 PHASE_MACHINE_READY, 917 } MachineInitPhase; 918 919 extern bool phase_check(MachineInitPhase phase); 920 extern void phase_advance(MachineInitPhase phase); 921 922 #endif 923