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1/*
2 * Copyright (c) 1998-2016 Apple Inc. All rights reserved.
3 *
4 * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
5 *
6 * This file contains Original Code and/or Modifications of Original Code
7 * as defined in and that are subject to the Apple Public Source License
8 * Version 2.0 (the 'License'). You may not use this file except in
9 * compliance with the License. The rights granted to you under the License
10 * may not be used to create, or enable the creation or redistribution of,
11 * unlawful or unlicensed copies of an Apple operating system, or to
12 * circumvent, violate, or enable the circumvention or violation of, any
13 * terms of an Apple operating system software license agreement.
14 *
15 * Please obtain a copy of the License at
16 * http://www.opensource.apple.com/apsl/ and read it before using this file.
17 *
18 * The Original Code and all software distributed under the License are
19 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
20 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
22 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23 * Please see the License for the specific language governing rights and
24 * limitations under the License.
25 *
26 * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
27 */
28/*
29 * Copyright (c) 1998,1999 Apple Computer, Inc. All rights reserved.
30 *
31 * HISTORY
32 *
33 */
34/*!
35 @header
36 This header contains the definition of the IOService class. IOService is the sole direct subclass of IORegistryEntry and is the base class of almost all I/O Kit family superclasses. IOService defines methods that support the life cycle of I/O Kit drivers. For more information on IOService, see {@linkdoc //apple_ref/doc/uid/TP0000011 I/O Kit Fundamentals}.
37
38 @seealso //apple_ref/doc/header/IORegistryEntry.h IORegistryEntry
39*/
40
41#ifndef _IOKIT_IOSERVICE_H
42#define _IOKIT_IOSERVICE_H
43
44#include <IOKit/IORegistryEntry.h>
45#include <IOKit/IOReturn.h>
46#include <IOKit/IODeviceMemory.h>
47#include <IOKit/IONotifier.h>
48#include <IOKit/IOLocks.h>
49
50#include <IOKit/IOKitDebug.h>
51#include <IOKit/IOInterrupts.h>
52
53#include <IOKit/pwr_mgt/IOPMpowerState.h>
54#include <IOKit/IOServicePM.h>
55#include <IOKit/IOReportTypes.h>
56
57extern "C" {
58#include <kern/thread_call.h>
59}
60
61#ifndef UINT64_MAX
62#define UINT64_MAX 18446744073709551615ULL
63#endif
64
65
66enum {
67 kIODefaultProbeScore = 0
68};
69
70// masks for getState()
71enum {
72 kIOServiceInactiveState = 0x00000001,
73 kIOServiceRegisteredState = 0x00000002,
74 kIOServiceMatchedState = 0x00000004,
75 kIOServiceFirstPublishState = 0x00000008,
76 kIOServiceFirstMatchState = 0x00000010
77};
78
79enum {
80 // options for registerService()
81 kIOServiceExclusive = 0x00000001,
82
83 // options for terminate()
84 kIOServiceRequired = 0x00000001,
85 kIOServiceTerminate = 0x00000004,
86
87 // options for registerService() & terminate()
88 kIOServiceSynchronous = 0x00000002,
89 // options for registerService()
90 kIOServiceAsynchronous = 0x00000008
91};
92
93// options for open()
94enum {
95 kIOServiceSeize = 0x00000001,
96 kIOServiceFamilyOpenOptions = 0xffff0000
97};
98
99// options for close()
100enum {
101 kIOServiceFamilyCloseOptions = 0xffff0000
102};
103
104typedef void * IONotificationRef;
105
106extern const IORegistryPlane * gIOServicePlane;
107extern const IORegistryPlane * gIOPowerPlane;
108
109extern const OSSymbol * gIOResourcesKey;
110extern const OSSymbol * gIOResourceMatchKey;
111extern const OSSymbol * gIOResourceMatchedKey;
112extern const OSSymbol * gIOProviderClassKey;
113extern const OSSymbol * gIONameMatchKey;
114extern const OSSymbol * gIONameMatchedKey;
115extern const OSSymbol * gIOPropertyMatchKey;
116extern const OSSymbol * gIOLocationMatchKey;
117extern const OSSymbol * gIOParentMatchKey;
118extern const OSSymbol * gIOPathMatchKey;
119extern const OSSymbol * gIOMatchCategoryKey;
120extern const OSSymbol * gIODefaultMatchCategoryKey;
121extern const OSSymbol * gIOMatchedServiceCountKey;
122
123extern const OSSymbol * gIOUserClientClassKey;
124extern const OSSymbol * gIOKitDebugKey;
125extern const OSSymbol * gIOServiceKey;
126
127extern const OSSymbol * gIOCommandPoolSizeKey;
128
129extern const OSSymbol * gIOPublishNotification;
130extern const OSSymbol * gIOFirstPublishNotification;
131extern const OSSymbol * gIOMatchedNotification;
132extern const OSSymbol * gIOFirstMatchNotification;
133extern const OSSymbol * gIOTerminatedNotification;
134
135extern const OSSymbol * gIOGeneralInterest;
136extern const OSSymbol * gIOBusyInterest;
137extern const OSSymbol * gIOOpenInterest;
138extern const OSSymbol * gIOAppPowerStateInterest;
139extern const OSSymbol * gIOPriorityPowerStateInterest;
140extern const OSSymbol * gIOConsoleSecurityInterest;
141
142extern const OSSymbol * gIODeviceMemoryKey;
143extern const OSSymbol * gIOInterruptControllersKey;
144extern const OSSymbol * gIOInterruptSpecifiersKey;
145
146extern const OSSymbol * gIOBSDKey;
147extern const OSSymbol * gIOBSDNameKey;
148extern const OSSymbol * gIOBSDMajorKey;
149extern const OSSymbol * gIOBSDMinorKey;
150extern const OSSymbol * gIOBSDUnitKey;
151
152extern SInt32 IOServiceOrdering( const OSMetaClassBase * inObj1, const OSMetaClassBase * inObj2, void * ref );
153
154typedef void (*IOInterruptAction)( OSObject * target, void * refCon,
155 IOService * nub, int source );
156
157/*! @typedef IOServiceNotificationHandler
158 @param target Reference supplied when the notification was registered.
159 @param refCon Reference constant supplied when the notification was registered.
160 @param newService The IOService object the notification is delivering. It is retained for the duration of the handler's invocation and doesn't need to be released by the handler. */
161
162typedef bool (*IOServiceNotificationHandler)( void * target, void * refCon,
163 IOService * newService );
164
165typedef bool (*IOServiceMatchingNotificationHandler)( void * target, void * refCon,
166 IOService * newService,
167 IONotifier * notifier );
168
169/*! @typedef IOServiceInterestHandler
170 @param target Reference supplied when the notification was registered.
171 @param refCon Reference constant supplied when the notification was registered.
172 @param messageType Type of the message - IOKit defined in IOKit/IOMessage.h or family specific.
173 @param provider The IOService object who is delivering the notification. It is retained for the duration of the handler's invocation and doesn't need to be released by the handler.
174 @param messageArgument An argument for message, dependent on its type.
175 @param argSize Non zero if the argument represents a struct of that size, used when delivering messages outside the kernel. */
176
177typedef IOReturn (*IOServiceInterestHandler)( void * target, void * refCon,
178 UInt32 messageType, IOService * provider,
179 void * messageArgument, vm_size_t argSize );
180
181typedef void (*IOServiceApplierFunction)(IOService * service, void * context);
182typedef void (*OSObjectApplierFunction)(OSObject * object, void * context);
183
184class IOUserClient;
185class IOPlatformExpert;
186
187/*! @class IOService
188 @abstract The base class for most I/O Kit families, devices, and drivers.
189 @discussion The IOService base class defines APIs used to publish services, instantiate other services based on the existance of a providing service (ie. driver stacking), destroy a service and its dependent stack, notify interested parties of service state changes, and general utility functions useful across all families.
190
191Types of service are specified with a matching dictionary that describes properties of the service. For example, a matching dictionary might describe any IOUSBDevice (or subclass), an IOUSBDevice with a certain class code, or a IOPCIDevice with a set of matching names or device & vendor IDs. Since the matching dictionary is interpreted by the family which created the service, as well as generically by IOService, the list of properties considered for matching depends on the familiy.
192
193Matching dictionaries are associated with IOService classes by the catalogue, as driver property tables, and also supplied by clients of the notification APIs.
194
195IOService provides matching based on C++ class (via OSMetaClass dynamic casting), registry entry name, a registry path to the service (which includes device tree paths), a name assigned by BSD, or by its location (its point of attachment).
196
197<br><br>Driver Instantiation by IOService<br><br>
198
199Drivers are subclasses of IOService, and their availability is managed through the catalogue. They are instantiated based on the publication of an IOService they use (for example, an IOPCIDevice or IOUSBDevice), or when they are added to the catalogue and the IOService(s) they use are already available.
200
201When an IOService (the "provider") is published with the @link registerService registerService@/link method, the matching and probing process begins, which is always single threaded per provider. A list of matching dictionaries from the catalog and installed publish notification requests, that successfully match the IOService, is constructed, with ordering supplied by <code>kIOProbeScoreKey</code> ("IOProbeScore") property in the dictionary, or supplied with the notification.
202
203Each entry in the list is then processed in order - for notifications, the notification is delivered, for driver property tables a lot more happens.
204
205The driver class is instantiated and <code>init()</code> called with its property table. The new driver instance is then attached to the provider, and has its @link probe probe@/link method called with the provider as an argument. The default <code>probe</code> method does nothing but return success, but a driver may implement this method to interrogate the provider to make sure it can work with it. It may also modify its probe score at this time. After probe, the driver is detached and the next in the list is considered (ie. attached, probed, and detached).
206
207When the probing phase is complete, the list consists of successfully probed drivers, in order of their probe score (after adjustment during the @link probe probe@/link call). The list is then divided into categories based on the <code>kIOMatchCategoryKey</code> property ("IOMatchCategory"); drivers without a match category are all considered in one default category. Match categories allow multiple clients of a provider to be attached and started, though the provider may also enforce open/close semantics to gain active access to it.
208
209For each category, the highest scoring driver in that category is attached to the provider, and its @link start start@/link method called. If <code>start</code> is successful, the rest of the drivers in the same match category are discarded, otherwise the next highest scoring driver is started, and so on.
210
211The driver should only consider itself in action when the start method is called, meaning it has been selected for use on the provider, and consuming that particular match category. It should also be prepared to be allocated, probed and freed even if the probe was successful.
212
213After the drivers have all synchronously been started, the installed "matched" notifications that match the registered IOService are delivered.
214
215<br><br>Properties used by IOService<br><br>
216
217 <code>kIOClassKey, extern const OSSymbol * gIOClassKey, "IOClass"</code>
218<br>
219<br>
220Class of the driver to instantiate on matching providers.
221<br>
222<br>
223 <code>kIOProviderClassKey, extern const OSSymbol * gIOProviderClassKey, "IOProviderClass"</code>
224<br>
225<br>
226Class of the provider(s) to be considered for matching, checked with OSDynamicCast so subclasses will also match.
227<br>
228<br>
229 <code>kIOProbeScoreKey, extern const OSSymbol * gIOProbeScoreKey, "IOProbeScore"</code>
230<br>
231<br>
232The probe score initially used to order multiple matching drivers.
233<br>
234<br>
235 <code>kIOMatchCategoryKey, extern const OSSymbol * gIOMatchCategoryKey, "IOMatchCategory"</code>
236<br>
237<br>
238A string defining the driver category for matching purposes. All drivers with no <code>IOMatchCategory</code> property are considered to be in the same default category. Only one driver in a category can be started on each provider.
239<br>
240<br>
241 <code>kIONameMatchKey, extern const OSSymbol * gIONameMatchKey, "IONameMatch"</code>
242<br>
243A string or collection of strings that match the provider's name. The comparison is implemented with the @link //apple_ref/cpp/instm/IORegistryEntry/compareNames/virtualbool/(OSObject*,OSString**) IORegistryEntry::compareNames@/link method, which supports a single string, or any collection (OSArray, OSSet, OSDictionary etc.) of strings. IOService objects with device tree properties (eg. IOPCIDevice) will also be matched based on that standard's "compatible", "name", "device_type" properties. The matching name will be left in the driver's property table in the <code>kIONameMatchedKey</code> property.
244<br>
245Examples
246<pre>
247@textblock
248 <key>IONameMatch</key>
249 <string>pci106b,7</string>
250@/textblock
251</pre>
252
253For a list of possible matching names, a serialized array of strings should used, eg.
254<pre>
255@textblock
256 <key>IONameMatch</key>
257 <array>
258 <string>APPL,happy16</string>
259 <string>pci106b,7</string>
260 </array>
261@/textblock
262</pre>
263
264<br>
265 <code>kIONameMatchedKey, extern const OSSymbol * gIONameMatchedKey, "IONameMatched"</code>
266<br>
267The name successfully matched name from the <code>kIONameMatchKey</code> property will be left in the driver's property table as the <code>kIONameMatchedKey</code> property.
268<br>
269<br>
270 <code>kIOPropertyMatchKey, extern const OSSymbol * gIOPropertyMatchKey, "IOPropertyMatch"</code>
271<br>
272A dictionary of properties that each must exist in the matching IOService and compare successfully with the <code>isEqualTo</code> method.
273
274<pre>
275@textblock
276 <key>IOPropertyMatch</key>
277 <dictionary>
278 <key>APPL,happy16</key>
279 <string>APPL,meek8</string>
280 </dictionary>
281@/textblock
282</pre>
283
284<br>
285 <code>kIOUserClientClassKey, extern const OSSymbol * gIOUserClientClassKey, "IOUserClientClass"</code>
286<br>
287The class name that the service will attempt to allocate when a user client connection is requested. First the device nub is queried, then the nub's provider is queried by default.
288<br>
289<br>
290 <code>kIOKitDebugKey, extern const OSSymbol * gIOKitDebugKey, "IOKitDebug"</code>
291<br>
292Set some debug flags for logging the driver loading process. Flags are defined in <code>IOKit/IOKitDebug.h</code>, but <code>65535</code> works well.*/
293
294struct IOInterruptAccountingData;
295struct IOInterruptAccountingReporter;
296
297class IOService : public IORegistryEntry
298{
299 OSDeclareDefaultStructors(IOService)
300
301protected:
302/*! @struct ExpansionData
303 @discussion This structure will be used to expand the capablilties of this class in the future.
304 */
305 struct ExpansionData {
306 uint64_t authorizationID;
307 /*
308 * Variables associated with interrupt accounting. Consists of an array
309 * (that pairs reporters with opaque "statistics" objects), the count for
310 * the array, and a lock to guard both of the former variables. The lock
311 * is necessary as IOReporting will not update reports in a manner that is
312 * synchonized with the service (i.e, on a workloop).
313 */
314 IOLock * interruptStatisticsLock;
315 IOInterruptAccountingReporter * interruptStatisticsArray;
316 int interruptStatisticsArrayCount;
317 };
318
319/*! @var reserved
320 Reserved for future use. (Internal use only) */
321 ExpansionData * reserved;
322
323private:
324 IOService * __provider;
325 SInt32 __providerGeneration;
326 IOService * __owner;
327 IOOptionBits __state[2];
328 uint64_t __timeBusy;
329 uint64_t __accumBusy;
330 IOServicePM * pwrMgt;
331
332protected:
333 // TRUE once PMinit has been called
334 bool initialized;
335
336public:
337 // DEPRECATED
338 void * pm_vars;
339
340public:
341 /* methods available in Mac OS X 10.1 or later */
342/*! @function requestTerminate
343 @abstract Passes a termination up the stack.
344 @discussion When an IOService is made inactive the default behavior is to also make any of its clients that have it as their only provider also inactive, in this way recursing the termination up the driver stack. This method allows an IOService object to override this behavior. Returning <code>true</code> from this method when passed a just terminated provider will cause the client to also be terminated.
345 @param provider The terminated provider of this object.
346 @param options Options originally passed to terminate, plus <code>kIOServiceRecursing</code>.
347 @result <code>true</code> if this object should be terminated now that its provider has been. */
348
349 virtual bool requestTerminate( IOService * provider, IOOptionBits options );
350
351/*! @function willTerminate
352 @abstract Passes a termination up the stack.
353 @discussion Notification that a provider has been terminated, sent before recursing up the stack, in root-to-leaf order.
354 @param provider The terminated provider of this object.
355 @param options Options originally passed to terminate.
356 @result <code>true</code>. */
357
358 virtual bool willTerminate( IOService * provider, IOOptionBits options );
359
360/*! @function didTerminate
361 @abstract Passes a termination up the stack.
362 @discussion Notification that a provider has been terminated, sent after recursing up the stack, in leaf-to-root order.
363 @param provider The terminated provider of this object.
364 @param options Options originally passed to terminate.
365 @param defer If there is pending I/O that requires this object to persist, and the provider is not opened by this object set <code>defer</code> to <code>true</code> and call the <code>IOService::didTerminate()</code> implementation when the I/O completes. Otherwise, leave <code>defer</code> set to its default value of <code>false</code>.
366 @result <code>true</code>. */
367
368 virtual bool didTerminate( IOService * provider, IOOptionBits options, bool * defer );
369
370/*! @function nextIdleTimeout
371 @availability Mac OS X v10.4 and later
372 @abstract Allows subclasses to customize idle power management behavior.
373 @discussion Returns the next time that the device should idle into its next lower power state. Subclasses may override for custom idle behavior.
374
375 A power managed driver might override this method to provide a more sophisticated idle power off algorithm than the one defined by power management.
376 @param currentTime The current time
377 @param lastActivity The time of last activity on this device
378 @param powerState The device's current power state.
379 @result Returns the next time the device should idle off (in seconds, relative to the current time). */
380
381 virtual SInt32 nextIdleTimeout(AbsoluteTime currentTime,
382 AbsoluteTime lastActivity, unsigned int powerState);
383
384/*! @function systemWillShutdown
385 @availability Mac OS X v10.5 and later
386 @abstract Notifies members of the power plane of system shutdown and restart.
387 @discussion This function is called for all members of the power plane in leaf-to-root order. If a subclass needs to wait for a pending I/O, then the call to <code>systemWillShutdown</code> should be postponed until the I/O completes.
388
389 Any power managed driver (which has called @link joinPMtree joinPMtree@/link to join the power plane) interested in taking action at system shutdown or restart should override this method.
390 @param specifier <code>kIOMessageSystemWillPowerOff</code> or <code>kIOMessageSystemWillRestart</code>. */
391
392 virtual void systemWillShutdown( IOOptionBits specifier );
393
394/*! @function copyClientWithCategory
395 @availability Mac OS X v10.6 and later
396 @param category An OSSymbol corresponding to an IOMatchCategory matching property.
397 @result Returns a reference to the IOService child with the given category. The result should be released by the caller.
398*/
399
400 virtual IOService * copyClientWithCategory( const OSSymbol * category );
401
402public:
403/*! @function configureReport
404 @abstract configure IOReporting channels
405 @availability SPI on OS X v10.9 / iOS 7 and later
406
407 @param channels - channels to configure
408 @param action - enable/disable/size, etc
409 @param result - action-specific returned value
410 @param destination - action-specific default destination
411*/
412virtual IOReturn configureReport(IOReportChannelList *channels,
413 IOReportConfigureAction action,
414 void *result,
415 void *destination);
416
417/*! @function updateReport
418 @abstract request current data for the specified channels
419 @availability SPI on OS X 10.9 / iOS 7 and later
420
421 @param channels - channels to be updated
422 @param action - type/style of update
423 @param result - returned details about what was updated
424 @param destination - destination for this update (action-specific)
425*/
426virtual IOReturn updateReport(IOReportChannelList *channels,
427 IOReportUpdateAction action,
428 void *result,
429 void *destination);
430
431private:
432#if __LP64__
433 OSMetaClassDeclareReservedUsed(IOService, 0);
434 OSMetaClassDeclareReservedUsed(IOService, 1);
435 OSMetaClassDeclareReservedUnused(IOService, 2);
436 OSMetaClassDeclareReservedUnused(IOService, 3);
437 OSMetaClassDeclareReservedUnused(IOService, 4);
438 OSMetaClassDeclareReservedUnused(IOService, 5);
439 OSMetaClassDeclareReservedUnused(IOService, 6);
440 OSMetaClassDeclareReservedUnused(IOService, 7);
441#else
442 OSMetaClassDeclareReservedUsed(IOService, 0);
443 OSMetaClassDeclareReservedUsed(IOService, 1);
444 OSMetaClassDeclareReservedUsed(IOService, 2);
445 OSMetaClassDeclareReservedUsed(IOService, 3);
446 OSMetaClassDeclareReservedUsed(IOService, 4);
447 OSMetaClassDeclareReservedUsed(IOService, 5);
448 OSMetaClassDeclareReservedUsed(IOService, 6);
449 OSMetaClassDeclareReservedUsed(IOService, 7);
450#endif
451
452 OSMetaClassDeclareReservedUnused(IOService, 8);
453 OSMetaClassDeclareReservedUnused(IOService, 9);
454 OSMetaClassDeclareReservedUnused(IOService, 10);
455 OSMetaClassDeclareReservedUnused(IOService, 11);
456 OSMetaClassDeclareReservedUnused(IOService, 12);
457 OSMetaClassDeclareReservedUnused(IOService, 13);
458 OSMetaClassDeclareReservedUnused(IOService, 14);
459 OSMetaClassDeclareReservedUnused(IOService, 15);
460 OSMetaClassDeclareReservedUnused(IOService, 16);
461 OSMetaClassDeclareReservedUnused(IOService, 17);
462 OSMetaClassDeclareReservedUnused(IOService, 18);
463 OSMetaClassDeclareReservedUnused(IOService, 19);
464 OSMetaClassDeclareReservedUnused(IOService, 20);
465 OSMetaClassDeclareReservedUnused(IOService, 21);
466 OSMetaClassDeclareReservedUnused(IOService, 22);
467 OSMetaClassDeclareReservedUnused(IOService, 23);
468 OSMetaClassDeclareReservedUnused(IOService, 24);
469 OSMetaClassDeclareReservedUnused(IOService, 25);
470 OSMetaClassDeclareReservedUnused(IOService, 26);
471 OSMetaClassDeclareReservedUnused(IOService, 27);
472 OSMetaClassDeclareReservedUnused(IOService, 28);
473 OSMetaClassDeclareReservedUnused(IOService, 29);
474 OSMetaClassDeclareReservedUnused(IOService, 30);
475 OSMetaClassDeclareReservedUnused(IOService, 31);
476 OSMetaClassDeclareReservedUnused(IOService, 32);
477 OSMetaClassDeclareReservedUnused(IOService, 33);
478 OSMetaClassDeclareReservedUnused(IOService, 34);
479 OSMetaClassDeclareReservedUnused(IOService, 35);
480 OSMetaClassDeclareReservedUnused(IOService, 36);
481 OSMetaClassDeclareReservedUnused(IOService, 37);
482 OSMetaClassDeclareReservedUnused(IOService, 38);
483 OSMetaClassDeclareReservedUnused(IOService, 39);
484 OSMetaClassDeclareReservedUnused(IOService, 40);
485 OSMetaClassDeclareReservedUnused(IOService, 41);
486 OSMetaClassDeclareReservedUnused(IOService, 42);
487 OSMetaClassDeclareReservedUnused(IOService, 43);
488 OSMetaClassDeclareReservedUnused(IOService, 44);
489 OSMetaClassDeclareReservedUnused(IOService, 45);
490 OSMetaClassDeclareReservedUnused(IOService, 46);
491 OSMetaClassDeclareReservedUnused(IOService, 47);
492
493public:
494/*! @function getState
495 @abstract Accessor for IOService state bits, not normally needed or used outside IOService.
496 @result State bits for the IOService, eg. <code>kIOServiceInactiveState</code>, <code>kIOServiceRegisteredState</code>. */
497
498 virtual IOOptionBits getState( void ) const;
499
500/*! @function isInactive
501 @abstract Checks if the IOService object has been terminated, and is in the process of being destroyed.
502 @discussion When an IOService object is successfully terminated, it is immediately made inactive, which blocks further attach()es, matching or notifications occuring on the object. It remains inactive until the last client closes, and is then finalized and destroyed.
503 @result <code>true</code> if the IOService object has been terminated. */
504
505 bool isInactive( void ) const;
506
507 /* Stack creation */
508
509/*! @function registerService
510 @abstract Starts the registration process for a newly discovered IOService object.
511 @discussion This function allows an IOService subclass to be published and made available to possible clients, by starting the registration process and delivering notifications to registered clients. The object should be completely setup and ready to field requests from clients before <code>registerService</code> is called.
512 @param options The default zero options mask is recommended and should be used in most cases. The registration process is usually asynchronous, with possible driver probing and notification occurring some time later. <code>kIOServiceSynchronous</code> may be passed to carry out the matching and notification process for currently registered clients before returning to the caller. */
513
514 virtual void registerService( IOOptionBits options = 0 );
515
516/*! @function probe
517 @abstract During an IOService object's instantiation, probes a matched service to see if it can be used.
518 @discussion The registration process for an IOService object (the provider) includes instantiating possible driver clients. The <code>probe</code> method is called in the client instance to check the matched service can be used before the driver is considered to be started. Since matching screens many possible providers, in many cases the <code>probe</code> method can be left unimplemented by IOService subclasses. The client is already attached to the provider when <code>probe</code> is called.
519 @param provider The registered IOService object that matches a driver personality's matching dictionary.
520 @param score Pointer to the current driver's probe score, which is used to order multiple matching drivers in the same match category. It defaults to the value of the <code>IOProbeScore</code> property in the drivers property table, or <code>kIODefaultProbeScore</code> if none is specified. The <code>probe</code> method may alter the score to affect start order.
521 @result An IOService instance or zero when the probe is unsuccessful. In almost all cases the value of <code>this</code> is returned on success. If another IOService object is returned, the probed instance is detached and freed, and the returned instance is used in its stead for <code>start</code>. */
522
523 virtual IOService * probe( IOService * provider,
524 SInt32 * score );
525
526/*! @function start
527 @abstract During an IOService object's instantiation, starts the IOService object that has been selected to run on the provider.
528 @discussion The <code>start</code> method of an IOService instance is called by its provider when it has been selected (due to its probe score and match category) as the winning client. The client is already attached to the provider when <code>start</code> is called.<br>Implementations of <code>start</code> must call <code>start</code> on their superclass at an appropriate point. If an implementation of <code>start</code> has already called <code>super::start</code> but subsequently determines that it will fail, it must call <code>super::stop</code> to balance the prior call to <code>super::start</code> and prevent reference leaks.
529 @result <code>true</code> if the start was successful; <code>false</code> otherwise (which will cause the instance to be detached and usually freed). */
530
531 virtual bool start( IOService * provider );
532
533/*! @function stop
534 @abstract During an IOService termination, the stop method is called in its clients before they are detached & it is destroyed.
535 @discussion The termination process for an IOService (the provider) will call stop in each of its clients, after they have closed the provider if they had it open, or immediately on termination. */
536
537 virtual void stop( IOService * provider );
538
539 /* Open / Close */
540
541/*! @function open
542 @abstract Requests active access to a provider.
543 @discussion IOService provides generic open and close semantics to track clients of a provider that have established an active datapath. The use of <code>open</code> and @link close close@/link, and rules regarding ownership are family defined, and defined by the @link handleOpen handleOpen@/link and @link handleClose handleClose@/link methods in the provider. Some families will limit access to a provider based on its open state.
544 @param forClient Designates the client of the provider requesting the open.
545 @param options Options for the open. The provider family may implement options for open; IOService defines only <code>kIOServiceSeize</code> to request the device be withdrawn from its current owner.
546 @param arg Family specific arguments which are ignored by IOService.
547 @result <code>true</code> if the open was successful; <code>false</code> otherwise. */
548
549 virtual bool open( IOService * forClient,
550 IOOptionBits options = 0,
551 void * arg = 0 );
552
553/*! @function close
554 @abstract Releases active access to a provider.
555 @discussion IOService provides generic open and close semantics to track clients of a provider that have established an active datapath. The use of @link open open@/link and <code>close</code>, and rules regarding ownership are family defined, and defined by the @link handleOpen handleOpen@/link and @link handleClose handleClose@/link methods in the provider.
556 @param forClient Designates the client of the provider requesting the close.
557 @param options Options available for the close. The provider family may implement options for close; IOService defines none. */
558
559 virtual void close( IOService * forClient,
560 IOOptionBits options = 0 );
561
562/*! @function isOpen
563 @abstract Determines whether a specific, or any, client has an IOService object open.
564 @discussion Returns the open state of an IOService object with respect to the specified client, or when it is open by any client.
565 @param forClient If non-zero, <code>isOpen</code> returns the open state for that client. If zero is passed, <code>isOpen</code> returns the open state for all clients.
566 @result <code>true</code> if the specific, or any, client has the IOService object open. */
567
568 virtual bool isOpen( const IOService * forClient = 0 ) const;
569
570/*! @function handleOpen
571 @abstract Controls the open / close behavior of an IOService object (overrideable by subclasses).
572 @discussion IOService calls this method in its subclasses in response to the @link open open@/link method, so the subclass may implement the request. The default implementation provides single owner access to an IOService object via <code>open</code>. The object is locked via @link lockForArbitration lockForArbitration@/link before <code>handleOpen</code> is called.
573 @param forClient Designates the client of the provider requesting the open.
574 @param options Options for the open, may be interpreted by the implementor of <code>handleOpen</code>.
575 @result <code>true</code>if the open was successful; <code>false</code> otherwise. */
576
577 virtual bool handleOpen( IOService * forClient,
578 IOOptionBits options,
579 void * arg );
580
581/*! @function handleClose
582 @abstract Controls the open / close behavior of an IOService object (overrideable by subclasses).
583 @discussion IOService calls this method in its subclasses in response to the @link close close@/link method, so the subclass may implement the request. The default implementation provides single owner access to an IOService object via @link open open@/link. The object is locked via @link lockForArbitration lockForArbitration@/link before <code>handleClose</code> is called.
584 @param forClient Designates the client of the provider requesting the close.
585 @param options Options for the close, may be interpreted by the implementor of @link handleOpen handleOpen@/link. */
586
587 virtual void handleClose( IOService * forClient,
588 IOOptionBits options );
589
590/*! @function handleIsOpen
591 @abstract Controls the open / close behavior of an IOService object (overrideable by subclasses).
592 @discussion IOService calls this method in its subclasses in response to the @link open open@/link method, so the subclass may implement the request. The default implementation provides single owner access to an IOService object via @link open open@/link. The object is locked via @link lockForArbitration lockForArbitration@/link before <code>handleIsOpen</code> is called.
593 @param forClient If non-zero, <code>isOpen</code> returns the open state for that client. If zero is passed, <code>isOpen</code> returns the open state for all clients.
594 @result <code>true</code> if the specific, or any, client has the IOService object open. */
595
596 virtual bool handleIsOpen( const IOService * forClient ) const;
597
598 /* Stacking change */
599
600/*! @function terminate
601 @abstract Makes an IOService object inactive and begins its destruction.
602 @discussion Registering an IOService object informs possible clients of its existance and instantiates drivers that may be used with it; <code>terminate</code> involves the opposite process of informing clients that an IOService object is no longer able to be used and will be destroyed. By default, if any client has the service open, <code>terminate</code> fails. If the <code>kIOServiceRequired</code> flag is passed however, <code>terminate</code> will be successful though further progress in the destruction of the IOService object will not proceed until the last client has closed it. The service will be made inactive immediately upon successful termination, and all its clients will be notified via their @link message message@/link method with a message of type <code>kIOMessageServiceIsTerminated</code>. Both these actions take place on the caller's thread. After the IOService object is made inactive, further matching or attach calls will fail on it. Each client has its @link stop stop@/link method called upon their close of an inactive IOService object , or on its termination if they do not have it open. After <code>stop</code>, @link detach detach@/link is called in each client. When all clients have been detached, the @link finalize finalize@/link method is called in the inactive service. The termination process is inherently asynchronous because it will be deferred until all clients have chosen to close.
603 @param options In most cases no options are needed. <code>kIOServiceSynchronous</code> may be passed to cause <code>terminate</code> to not return until the service is finalized. */
604
605 virtual bool terminate( IOOptionBits options = 0 );
606
607/*! @function finalize
608 @abstract Finalizes the destruction of an IOService object.
609 @discussion The <code>finalize</code> method is called in an inactive (ie. terminated) IOService object after the last client has detached. IOService's implementation will call @link stop stop@/link, @link close close@/link, and @link detach detach@/link on each provider. When <code>finalize</code> returns, the object's retain count will have no references generated by IOService's registration process.
610 @param options The options passed to the @link terminate terminate@/link method of the IOService object are passed on to <code>finalize</code>.
611 @result <code>true</code>. */
612
613 virtual bool finalize( IOOptionBits options );
614
615/*! @function init
616 @abstract Initializes generic IOService data structures (expansion data, etc). */
617 virtual bool init( OSDictionary * dictionary = 0 ) APPLE_KEXT_OVERRIDE;
618
619/*! @function init
620 @abstract Initializes generic IOService data structures (expansion data, etc). */
621 virtual bool init( IORegistryEntry * from,
622 const IORegistryPlane * inPlane ) APPLE_KEXT_OVERRIDE;
623
624/*! @function free
625 @abstract Frees data structures that were allocated when power management was initialized on this service. */
626
627 virtual void free( void ) APPLE_KEXT_OVERRIDE;
628
629/*! @function lockForArbitration
630 @abstract Locks an IOService object against changes in state or ownership.
631 @discussion The registration, termination and open / close functions of IOService use <code>lockForArbtration</code> to single-thread access to an IOService object. <code>lockForArbitration</code> grants recursive access to the same thread.
632 @param isSuccessRequired If a request for access to an IOService object should be denied if it is terminated, pass <code>false</code>, otherwise pass <code>true</code>. */
633
634 virtual bool lockForArbitration( bool isSuccessRequired = true );
635
636/*! @function unlockForArbitration
637 @abstract Unlocks an IOService obkect after a successful @link lockForArbitration lockForArbitration@/link.
638 @discussion A thread granted exclusive access to an IOService object should release it with <code>unlockForArbitration</code>. */
639
640 virtual void unlockForArbitration( void );
641
642/*! @function terminateClient
643 @abstract Passes a termination up the stack.
644 @discussion When an IOService object is made inactive the default behavior is to also make any of its clients that have it as their only provider inactive, in this way recursing the termination up the driver stack. This method allows a terminated IOService object to override this behavior. Note the client may also override this behavior by overriding its @link terminate terminate@/link method.
645 @param client The client of the terminated provider.
646 @param options Options originally passed to @link terminate terminate@/link, plus <code>kIOServiceRecursing</code>.
647 @result result of the terminate request on the client. */
648
649 virtual bool terminateClient( IOService * client, IOOptionBits options );
650
651 /* Busy state indicates discovery, matching or termination is in progress */
652
653/*! @function getBusyState
654 @abstract Returns the <code>busyState</code> of an IOService object.
655 @discussion Many activities in IOService are asynchronous. When registration, matching, or termination is in progress on an IOService object, its <code>busyState</code> is increased by one. Change in <code>busyState</code> to or from zero also changes the IOService object's provider's <code>busyState</code> by one, which means that an IOService object is marked busy when any of the above activities is ocurring on it or any of its clients.
656 @result The <code>busyState</code> value. */
657
658 virtual UInt32 getBusyState( void );
659
660/*! @function adjustBusy
661 @abstract Adjusts the <code>busyState</code> of an IOService object.
662 @discussion Applies a delta to an IOService object's <code>busyState</code>. A change in the <code>busyState</code> to or from zero will change the IOService object's provider's <code>busyState</code> by one (in the same direction).
663 @param delta The delta to be applied to the IOService object's <code>busyState</code>. */
664
665 virtual void adjustBusy( SInt32 delta );
666
667 APPLE_KEXT_COMPATIBILITY_VIRTUAL
668 IOReturn waitQuiet(mach_timespec_t * timeout)
669 APPLE_KEXT_DEPRECATED;
670
671/*! @function waitQuiet
672 @abstract Waits for an IOService object's <code>busyState</code> to be zero.
673 @discussion Blocks the caller until an IOService object is non busy.
674 @param timeout The maximum time to wait in nanoseconds. Default is to wait forever.
675 @result Returns an error code if Mach synchronization primitives fail, <code>kIOReturnTimeout</code>, or <code>kIOReturnSuccess</code>. */
676
677 IOReturn waitQuiet(uint64_t timeout = UINT64_MAX);
678
679 /* Matching */
680
681/*! @function matchPropertyTable
682 @abstract Allows a registered IOService object to implement family specific matching.
683 @discussion All matching on an IOService object will call this method to allow a family writer to implement matching in addition to the generic methods provided by IOService. The implementer should examine the matching dictionary passed to see if it contains properties the family understands for matching, and use them to match with the IOService object if so. Note that since matching is also carried out by other parts of the I/O Kit, the matching dictionary may contain properties the family does not understand - these should not be considered matching failures.
684 @param table The dictionary of properties to be matched against.
685 @param score Pointer to the current driver's probe score, which is used to order multiple matching drivers in the same match category. It defaults to the value of the <code>IOProbeScore</code> property in the drivers property table, or <code>kIODefaultProbeScore</code> if none is specified.
686 @result <code>false</code> if the family considers the matching dictionary does not match in properties it understands; <code>true</code> otherwise. */
687
688 virtual bool matchPropertyTable( OSDictionary * table,
689 SInt32 * score );
690
691 virtual bool matchPropertyTable( OSDictionary * table );
692
693/*! @function matchLocation
694 @abstract Allows a registered IOService object to direct location matching.
695 @discussion By default, a location matching property will be applied to an IOService object's provider. This method allows that behavior to be overridden by families.
696 @param client The IOService object at which matching is taking place.
697 @result Returns the IOService instance to be used for location matching. */
698
699 virtual IOService * matchLocation( IOService * client );
700
701 /* Resource service */
702
703/*! @function publishResource
704 @abstract Uses the resource service to publish a property.
705 @discussion The resource service uses IOService's matching and notification to allow objects to be published and found by any I/O Kit client by a global name. <code>publishResource</code> makes an object available to anyone waiting for it or looking for it in the future.
706 @param key An OSSymbol key that globally identifies the object.
707 @param value The object to be published. */
708
709 static void publishResource( const OSSymbol * key, OSObject * value = 0 );
710
711/*! @function publishResource
712 @abstract Uses the resource service to publish a property.
713 @discussion The resource service uses IOService object's matching and notification to allow objects to be published and found by any I/O Kit client by a global name. <code>publishResource</code> makes an object available to anyone waiting for it or looking for it in the future.
714 @param key A C string key that globally identifies the object.
715 @param value The object to be published. */
716
717 static void publishResource( const char * key, OSObject * value = 0 );
718 virtual bool addNeededResource( const char * key );
719
720 /* Notifications */
721
722/*! @function addNotification
723 @abstract Deprecated use addMatchingNotification(). Adds a persistant notification handler to be notified of IOService events.
724 @discussion IOService will deliver notifications of changes in state of an IOService object to registered clients. The type of notification is specified by a symbol, for example <code>gIOMatchedNotification</code> or <code>gIOTerminatedNotification</code>, and notifications will only include IOService objects that match the supplied matching dictionary. Notifications are ordered by a priority set with <code>addNotification</code>. When the notification is installed, its handler will be called with each of any currently existing IOService objects that are in the correct state (eg. registered) and match the supplied matching dictionary, avoiding races between finding preexisting and new IOService events. The notification request is identified by an instance of an IONotifier object, through which it can be enabled, disabled, or removed. <code>addNotification</code> consumes a retain count on the matching dictionary when the notification is removed.
725 @param type An OSSymbol identifying the type of notification and IOService state:
726<br> <code>gIOPublishNotification</code> Delivered when an IOService object is registered.
727<br> <code>gIOFirstPublishNotification</code> Delivered when an IOService object is registered, but only once per IOService instance. Some IOService objects may be reregistered when their state is changed.
728<br> <code>gIOMatchedNotification</code> Delivered when an IOService object has been matched with all client drivers, and they have been probed and started.
729<br> <code>gIOFirstMatchNotification</code> Delivered when an IOService object has been matched with all client drivers, but only once per IOService instance. Some IOService objects may be reregistered when their state is changed.
730<br> <code>gIOTerminatedNotification</code> Delivered after an IOService object has been terminated, during its finalize stage.
731 @param matching A matching dictionary to restrict notifications to only matching IOService objects. The dictionary will be released when the notification is removed, consuming the passed-in reference.
732 @param handler A C function callback to deliver notifications.
733 @param target An instance reference for the callback's use.
734 @param ref A reference constant for the callback's use.
735 @param priority A constant ordering all notifications of a each type.
736 @result An instance of an IONotifier object that can be used to control or destroy the notification request. */
737
738 static IONotifier * addNotification(
739 const OSSymbol * type, OSDictionary * matching,
740 IOServiceNotificationHandler handler,
741 void * target, void * ref = 0,
742 SInt32 priority = 0 )
743 APPLE_KEXT_DEPRECATED;
744
745/*! @function addMatchingNotification
746 @abstract Adds a persistant notification handler to be notified of IOService events.
747 @discussion IOService will deliver notifications of changes in state of an IOService object to registered clients. The type of notification is specified by a symbol, for example <code>gIOMatchedNotification</code> or <code>gIOTerminatedNotification</code>, and notifications will only include IOService objects that match the supplied matching dictionary. Notifications are ordered by a priority set with <code>addNotification</code>. When the notification is installed, its handler will be called with each of any currently existing IOService objects that are in the correct state (eg. registered) and match the supplied matching dictionary, avoiding races between finding preexisting and new IOService events. The notification request is identified by an instance of an IONotifier object, through which it can be enabled, disabled, or removed. <code>addMatchingNotification</code> does not consume a reference on the matching dictionary when the notification is removed, unlike addNotification.
748 @param type An OSSymbol identifying the type of notification and IOService state:
749<br> <code>gIOPublishNotification</code> Delivered when an IOService object is registered.
750<br> <code>gIOFirstPublishNotification</code> Delivered when an IOService object is registered, but only once per IOService instance. Some IOService objects may be reregistered when their state is changed.
751<br> <code>gIOMatchedNotification</code> Delivered when an IOService object has been matched with all client drivers, and they have been probed and started.
752<br> <code>gIOFirstMatchNotification</code> Delivered when an IOService object has been matched with all client drivers, but only once per IOService instance. Some IOService objects may be reregistered when their state is changed.
753<br> <code>gIOTerminatedNotification</code> Delivered after an IOService object has been terminated, during its finalize stage.
754 @param matching A matching dictionary to restrict notifications to only matching IOService objects. The dictionary is retained while the notification is installed. (Differs from addNotification).
755 @param handler A C function callback to deliver notifications.
756 @param target An instance reference for the callback's use.
757 @param ref A reference constant for the callback's use.
758 @param priority A constant ordering all notifications of a each type.
759 @result An instance of an IONotifier object that can be used to control or destroy the notification request. */
760
761 static IONotifier * addMatchingNotification(
762 const OSSymbol * type, OSDictionary * matching,
763 IOServiceMatchingNotificationHandler handler,
764 void * target, void * ref = 0,
765 SInt32 priority = 0 );
766
767/*! @function waitForService
768 @abstract Deprecated use waitForMatchingService(). Waits for a matching to service to be published.
769 @discussion Provides a method of waiting for an IOService object matching the supplied matching dictionary to be registered and fully matched.
770 @param matching The matching dictionary describing the desired IOService object. <code>waitForService</code> consumes one reference of the matching dictionary.
771 @param timeout The maximum time to wait.
772 @result A published IOService object matching the supplied dictionary. */
773
774 static IOService * waitForService( OSDictionary * matching,
775 mach_timespec_t * timeout = 0);
776
777/*! @function waitForMatchingService
778 @abstract Waits for a matching to service to be published.
779 @discussion Provides a method of waiting for an IOService object matching the supplied matching dictionary to be registered and fully matched.
780 @param matching The matching dictionary describing the desired IOService object. (Does not consume a reference of the matching dictionary - differs from waitForService() which does consume a reference on the matching dictionary.)
781 @param timeout The maximum time to wait in nanoseconds. Default is to wait forever.
782 @result A published IOService object matching the supplied dictionary. waitForMatchingService returns a reference to the IOService which should be released by the caller. (Differs from waitForService() which does not retain the returned object.) */
783
784 static IOService * waitForMatchingService( OSDictionary * matching,
785 uint64_t timeout = UINT64_MAX);
786
787/*! @function getMatchingServices
788 @abstract Finds the set of current published IOService objects matching a matching dictionary.
789 @discussion Provides a method of finding the current set of published IOService objects matching the supplied matching dictionary.
790 @param matching The matching dictionary describing the desired IOService objects.
791 @result An instance of an iterator over a set of IOService objects. To be released by the caller. */
792
793 static OSIterator * getMatchingServices( OSDictionary * matching );
794
795/*! @function copyMatchingService
796 @abstract Finds one of the current published IOService objects matching a matching dictionary.
797 @discussion Provides a method to find one member of the set of published IOService objects matching the supplied matching dictionary.
798 @param matching The matching dictionary describing the desired IOService object.
799 @result The IOService object or NULL. To be released by the caller. */
800
801 static IOService * copyMatchingService( OSDictionary * matching );
802
803public:
804 /* Helpers to make matching dictionaries for simple cases,
805 * they add keys to an existing dictionary, or create one. */
806
807/*! @function serviceMatching
808 @abstract Creates a matching dictionary, or adds matching properties to an existing dictionary, that specify an IOService class match.
809 @discussion A very common matching criteria for IOService object is based on its class. <code>serviceMatching</code> creates a matching dictionary that specifies any IOService object of a class, or its subclasses. The class is specified by name, and an existing dictionary may be passed in, in which case the matching properties will be added to that dictionary rather than creating a new one.
810 @param className The class name, as a const C string. Class matching is successful on IOService objects of this class or any subclass.
811 @param table If zero, <code>serviceMatching</code> creates a matching dictionary and returns a reference to it, otherwise the matching properties are added to the specified dictionary.
812 @result The matching dictionary created, or passed in, is returned on success, or zero on failure. */
813
814 static OSDictionary * serviceMatching( const char * className,
815 OSDictionary * table = 0 );
816
817/*! @function serviceMatching
818 @abstract Creates a matching dictionary, or adds matching properties to an existing dictionary, that specify an IOService class match.
819 @discussion A very common matching criteria for IOService object is based on its class. <code>serviceMatching</code> creates a matching dictionary that specifies any IOService of a class, or its subclasses. The class is specified by name, and an existing dictionary may be passed in, in which case the matching properties will be added to that dictionary rather than creating a new one.
820 @param className The class name, as an OSString (which includes OSSymbol). Class matching is successful on IOService objects of this class or any subclass.
821 @param table If zero, <code>serviceMatching</code> creates a matching dictionary and returns a reference to it, otherwise the matching properties are added to the specified dictionary.
822 @result The matching dictionary created, or passed in, is returned on success, or zero on failure. */
823
824 static OSDictionary * serviceMatching( const OSString * className,
825 OSDictionary * table = 0 );
826
827/*! @function nameMatching
828 @abstract Creates a matching dictionary, or adds matching properties to an existing dictionary, that specify an IOService name match.
829 @discussion A very common matching criteria for IOService object is based on its name. <code>nameMatching</code> creates a matching dictionary that specifies any IOService object which responds successfully to the @link //apple_ref/cpp/instm/IORegistryEntry/compareName/virtualbool/(OSString*,OSString**) IORegistryEntry::compareName@/link method. An existing dictionary may be passed in, in which case the matching properties will be added to that dictionary rather than creating a new one.
830 @param name The service's name, as a const C string. Name matching is successful on IOService objects that respond successfully to the <code>IORegistryEntry::compareName</code> method.
831 @param table If zero, <code>nameMatching</code> creates a matching dictionary and returns a reference to it, otherwise the matching properties are added to the specified dictionary.
832 @result The matching dictionary created, or passed in, is returned on success, or zero on failure. */
833
834 static OSDictionary * nameMatching( const char * name,
835 OSDictionary * table = 0 );
836
837/*! @function nameMatching
838 @abstract Creates a matching dictionary, or adds matching properties to an existing dictionary, that specify an IOService name match.
839 @discussion A very common matching criteria for IOService object is based on its name. <code>nameMatching</code> creates a matching dictionary that specifies any IOService object which responds successfully to the @link //apple_ref/cpp/instm/IORegistryEntry/compareName/virtualbool/(OSString*,OSString**) IORegistryEntry::compareName@/link method. An existing dictionary may be passed in, in which case the matching properties will be added to that dictionary rather than creating a new one.
840 @param name The service's name, as an OSString (which includes OSSymbol). Name matching is successful on IOService objects that respond successfully to the <code>IORegistryEntry::compareName</code> method.
841 @param table If zero, <code>nameMatching</code> creates a matching dictionary and returns a reference to it, otherwise the matching properties are added to the specified dictionary.
842 @result The matching dictionary created, or passed in, is returned on success, or zero on failure. */
843
844 static OSDictionary * nameMatching( const OSString* name,
845 OSDictionary * table = 0 );
846
847/*! @function resourceMatching
848 @abstract Creates a matching dictionary, or adds matching properties to an existing dictionary, that specify a resource service match.
849 @discussion IOService maintains a resource service IOResources that allows objects to be published and found globally in the I/O Kit based on a name, using the standard IOService matching and notification calls.
850 @param name The resource name, as a const C string. Resource matching is successful when an object by that name has been published with the <code>publishResource</code> method.
851 @param table If zero, <code>resourceMatching</code> creates a matching dictionary and returns a reference to it, otherwise the matching properties are added to the specified dictionary.
852 @result The matching dictionary created, or passed in, is returned on success, or zero on failure. */
853
854 static OSDictionary * resourceMatching( const char * name,
855 OSDictionary * table = 0 );
856
857/*! @function resourceMatching
858 @abstract Creates a matching dictionary, or adds matching properties to an existing dictionary, that specify a resource service match.
859 @discussion IOService maintains a resource service IOResources that allows objects to be published and found globally in the I/O Kit based on a name, using the standard IOService matching and notification calls.
860 @param name The resource name, as an OSString (which includes OSSymbol). Resource matching is successful when an object by that name has been published with the <code>publishResource</code> method.
861 @param table If zero, <code>resourceMatching</code> creates a matching dictionary and returns a reference to it, otherwise the matching properties are added to the specified dictionary.
862 @result The matching dictionary created, or passed in, is returned on success, or zero on failure. */
863
864 static OSDictionary * resourceMatching( const OSString * name,
865 OSDictionary * table = 0 );
866
867
868/*! @function propertyMatching
869 @abstract Creates a matching dictionary, or adds matching properties to an existing dictionary, that specify an IOService phandle match.
870 @discussion TODO A very common matching criteria for IOService is based on its name. nameMatching will create a matching dictionary that specifies any IOService which respond successfully to the IORegistryEntry method compareName. An existing dictionary may be passed in, in which case the matching properties will be added to that dictionary rather than creating a new one.
871 @param key The service's phandle, as a const UInt32. PHandle matching is successful on IOService objects that respond successfully to the IORegistryEntry method compareName.
872 @param value The service's phandle, as a const UInt32. PHandle matching is successful on IOService's which respond successfully to the IORegistryEntry method compareName.
873 @param table If zero, nameMatching will create a matching dictionary and return a reference to it, otherwise the matching properties are added to the specified dictionary.
874 @result The matching dictionary created, or passed in, is returned on success, or zero on failure. */
875
876 static OSDictionary * propertyMatching( const OSSymbol * key, const OSObject * value,
877 OSDictionary * table = 0 );
878
879/*! @function registryEntryIDMatching
880 @abstract Creates a matching dictionary, or adds matching properties to an existing dictionary, that specify a IORegistryEntryID match.
881 @discussion <code>registryEntryIDMatching</code> creates a matching dictionary that specifies the IOService object with the assigned registry entry ID (returned by <code>IORegistryEntry::getRegistryEntryID()</code>). An existing dictionary may be passed in, in which case the matching properties will be added to that dictionary rather than creating a new one.
882 @param entryID The service's ID. Matching is successful on the IOService object that return that ID from the <code>IORegistryEntry::getRegistryEntryID()</code> method.
883 @param table If zero, <code>registryEntryIDMatching</code> creates a matching dictionary and returns a reference to it, otherwise the matching properties are added to the specified dictionary.
884 @result The matching dictionary created, or passed in, is returned on success, or zero on failure. */
885
886 static OSDictionary * registryEntryIDMatching( uint64_t entryID,
887 OSDictionary * table = 0 );
888
889
890/*! @function addLocation
891 @abstract Adds a location matching property to an existing dictionary.
892 @discussion This function creates matching properties that specify the location of a IOService object, as an embedded matching dictionary. This matching will be successful on an IOService object that attached to an IOService object which matches this location matching dictionary.
893 @param table The matching properties are added to the specified dictionary, which must be non-zero.
894 @result The location matching dictionary created is returned on success, or zero on failure. */
895
896 static OSDictionary * addLocation( OSDictionary * table );
897
898 /* Helpers for matching dictionaries. */
899
900/*! @function compareProperty
901 @abstract Compares a property in a matching dictionary with an IOService object's property table.
902 @discussion This is a helper function to aid in implementing @link matchPropertyTable matchPropertyTable@/link. If the property specified by <code>key</code> exists in the matching dictionary, it is compared with a property of the same name in the IOService object's property table. The comparison is performed with the <code>isEqualTo</code> method. If the property does not exist in the matching table, success is returned. If the property exists in the matching dictionary but not the IOService property table, failure is returned.
903 @param matching The matching dictionary, which must be non-zero.
904 @param key The dictionary key specifying the property to be compared, as a C string.
905 @result <code>true</code> if the property does not exist in the matching table. If the property exists in the matching dictionary but not the IOService property table, failure is returned. Otherwise the result of calling the property from the matching dictionary's <code>isEqualTo</code> method with the IOService property as an argument is returned. */
906
907 virtual bool compareProperty( OSDictionary * matching,
908 const char * key );
909/*! @function compareProperty
910 @abstract Compares a property in a matching dictionary with an IOService object's property table.
911 @discussion This is a helper function to aid in implementing @link matchPropertyTable matchPropertyTable@/link. If the property specified by <code>key</code> exists in the matching dictionary, it is compared with a property of the same name in the IOService object's property table. The comparison is performed with the <code>isEqualTo</code> method. If the property does not exist in the matching table, success is returned. If the property exists in the matching dictionary but not the IOService property table, failure is returned.
912 @param matching The matching dictionary, which must be non-zero.
913 @param key The dictionary key specifying the property to be compared, as an OSString (which includes OSSymbol).
914 @result <code>true</code> if the property does not exist in the matching table. If the property exists in the matching dictionary but not the IOService property table, failure is returned. Otherwise the result of calling the property from the matching dictionary's <code>isEqualTo</code> method with the IOService property as an argument is returned. */
915
916 virtual bool compareProperty( OSDictionary * matching,
917 const OSString * key );
918
919/*! @function compareProperties
920 @abstract Compares a set of properties in a matching dictionary with an IOService object's property table.
921 @discussion This is a helper function to aid in implementing @link matchPropertyTable matchPropertyTable@/link. A collection of dictionary keys specifies properties in a matching dictionary to be compared, with <code>compareProperty</code>, with an IOService object's property table, if <code>compareProperty</code> returns <code>true</code> for each key, success is returned; otherwise failure.
922 @param matching The matching dictionary, which must be non-zero.
923 @param keys A collection (eg. OSSet, OSArray, OSDictionary) which should contain OSStrings (or OSSymbols) that specify the property keys to be compared.
924 @result Success if <code>compareProperty</code> returns <code>true</code> for each key in the collection; otherwise failure. */
925
926 virtual bool compareProperties( OSDictionary * matching,
927 OSCollection * keys );
928
929 /* Client / provider accessors */
930
931/*! @function attach
932 @abstract Attaches an IOService client to a provider in the I/O Registry.
933 @discussion This function called in an IOService client enters the client into the I/O Registry as a child of the provider in the service plane. The provider must be active or the attach will fail. Multiple attach calls to the same provider are no-ops and return success. A client may be attached to multiple providers. Entering an object into the I/O Registry retains both the client and provider until they are detached.
934 @param provider The IOService object which will serve as this object's provider.
935 @result <code>false</code> if the provider is inactive or on a resource failure; otherwise <code>true</code>. */
936
937 virtual bool attach( IOService * provider );
938
939/*! @function detach
940 @abstract Detaches an IOService client from a provider in the I/O Registry.
941 @discussion This function called in an IOService client removes the client as a child of the provider in the service plane of the I/O Registry. If the provider is not a parent of the client this is a no-op, otherwise the I/O Registry releases both the client and provider.
942 @param provider The IOService object to detach from. */
943
944 virtual void detach( IOService * provider );
945
946/*! @function getProvider
947 @abstract Returns an IOService object's primary provider.
948 @discussion This function called in an IOService client will return the provider to which it was first attached. Because the majority of IOService objects have only one provider, this is a useful simplification and also supports caching of the provider when the I/O Registry is unchanged.
949 @result The first provider of the client, or zero if the IOService object is not attached into the I/O Registry. The provider is retained while the client is attached, and should not be released by the caller. */
950
951 virtual IOService * getProvider( void ) const;
952
953/*! @function getWorkLoop
954 @abstract Returns the current work loop or <code>provider->getWorkLoop</code>.
955 @discussion This function returns a valid work loop that a client can use to add an IOCommandGate to. The intention is that an IOService client has data that needs to be protected but doesn't want to pay the cost of a dedicated thread. This data has to be accessed from a provider's call-out context as well. So to achieve both of these goals the client creates an IOCommandGate to lock access to his data but he registers it with the provider's work loop, i.e. the work loop which will make the completion call-outs. This avoids a potential deadlock because the work loop gate uses a recursive lock, which allows the same lock to be held multiple times by a single thread.
956 @result A work loop, either the current work loop or it walks up the @link getProvider getProvider@/link chain calling <code>getWorkLoop</code>. Eventually it will reach a valid work loop-based driver or the root of the I/O tree, where it will return a system-wide work loop. Returns 0 if it fails to find (or create) a work loop.*/
957
958 virtual IOWorkLoop * getWorkLoop() const;
959
960/*! @function getProviderIterator
961 @abstract Returns an iterator over an IOService object's providers.
962 @discussion For those few IOService objects that obtain service from multiple providers, this method supplies an iterator over a client's providers.
963 @result An iterator over the providers of the client, or zero if there is a resource failure. The iterator must be released when the iteration is finished. All objects returned by the iteration are retained while the iterator is valid, though they may no longer be attached during the iteration. */
964
965 virtual OSIterator * getProviderIterator( void ) const;
966
967/*! @function getOpenProviderIterator
968 @abstract Returns an iterator over an client's providers that are currently opened by the client.
969 @discussion For those few IOService objects that obtain service from multiple providers, this method supplies an iterator over a client's providers, locking each in turn with @link lockForArbitration lockForArbitration@/link and returning those that have been opened by the client.
970 @result An iterator over the providers the client has open, or zero if there is a resource failure. The iterator must be released when the iteration is finished. All objects returned by the iteration are retained while the iterator is valid, and the current entry in the iteration is locked with <code>lockForArbitration</code>, protecting it from state changes. */
971
972 virtual OSIterator * getOpenProviderIterator( void ) const;
973
974/*! @function getClient
975 @abstract Returns an IOService object's primary client.
976 @discussion This function called in an IOService provider will return the first client to attach to it. For IOService objects which have only only one client, this may be a useful simplification.
977 @result The first client of the provider, or zero if the IOService object is not attached into the I/O Registry. The client is retained while it is attached, and should not be released by the caller. */
978
979 virtual IOService * getClient( void ) const;
980
981/*! @function getClientIterator
982 @abstract Returns an iterator over an IOService object's clients.
983 @discussion For IOService objects that may have multiple clients, this method supplies an iterator over a provider's clients.
984 @result An iterator over the clients of the provider, or zero if there is a resource failure. The iterator must be released when the iteration is finished. All objects returned by the iteration are retained while the iterator is valid, though they may no longer be attached during the iteration. */
985
986 virtual OSIterator * getClientIterator( void ) const;
987
988/*! @function getOpenClientIterator
989 @abstract Returns an iterator over a provider's clients that currently have opened the provider.
990 @discussion For IOService objects that may have multiple clients, this method supplies an iterator over a provider's clients, locking each in turn with @link lockForArbitration lockForArbitration@/link and returning those that have opened the provider.
991 @result An iterator over the clients that have opened the provider, or zero if there is a resource failure. The iterator must be released when the iteration is finished. All objects returned by the iteration are retained while the iterator is valid, and the current entry in the iteration is locked with <code>lockForArbitration</code>, protecting it from state changes. */
992
993 virtual OSIterator * getOpenClientIterator( void ) const;
994
995/*! @function callPlatformFunction
996 @abstract Calls the platform function with the given name.
997 @discussion The platform expert or other drivers may implement various functions to control hardware features. <code>callPlatformFunction</code> allows any IOService object to access these functions. Normally <code>callPlatformFunction</code> is called on a service's provider. The provider services the request or passes it to its provider. The system's IOPlatformExpert subclass catches functions it knows about and redirects them into other parts of the service plane. If the IOPlatformExpert subclass cannot execute the function, the base class is called. The IOPlatformExpert base class attempts to find a service to execute the function by looking up the function name in an IOResources name space. A service may publish a service using <code>publishResource(functionName, this)</code>. If no service can be found to execute the function an error is returned.
998 @param functionName Name of the function to be called. When <code>functionName</code> is a C string, <code>callPlatformFunction</code> converts the C string to an OSSymbol and calls the OSSymbol version of <code>callPlatformFunction</code>. This process can block and should not be used from an interrupt context.
999 @param waitForFunction If <code>true</code>, <code>callPlatformFunction</code> will not return until the function has been called.
1000 @result An IOReturn code; <code>kIOReturnSuccess</code> if the function was successfully executed, <code>kIOReturnUnsupported</code> if a service to execute the function could not be found. Other return codes may be returned by the function.*/
1001
1002 virtual IOReturn callPlatformFunction( const OSSymbol * functionName,
1003 bool waitForFunction,
1004 void *param1, void *param2,
1005 void *param3, void *param4 );
1006
1007 virtual IOReturn callPlatformFunction( const char * functionName,
1008 bool waitForFunction,
1009 void *param1, void *param2,
1010 void *param3, void *param4 );
1011
1012
1013 /* Some accessors */
1014
1015/*! @function getPlatform
1016 @abstract Returns a pointer to the platform expert instance for the computer.
1017 @discussion This method provides an accessor to the platform expert instance for the computer.
1018 @result A pointer to the IOPlatformExpert instance. It should not be released by the caller. */
1019
1020 static IOPlatformExpert * getPlatform( void );
1021
1022/*! @function getPMRootDomain
1023 @abstract Returns a pointer to the power management root domain instance for the computer.
1024 @discussion This method provides an accessor to the power management root domain instance for the computer.
1025 @result A pointer to the power management root domain instance. It should not be released by the caller. */
1026
1027 static class IOPMrootDomain * getPMRootDomain( void );
1028
1029/*! @function getServiceRoot
1030 @abstract Returns a pointer to the root of the service plane.
1031 @discussion This method provides an accessor to the root of the service plane for the computer.
1032 @result A pointer to the IOService instance at the root of the service plane. It should not be released by the caller. */
1033
1034 static IOService * getServiceRoot( void );
1035
1036/*! @function getResourceService
1037 @abstract Returns a pointer to the IOResources service.
1038 @discussion IOService maintains a resource service IOResources that allows objects to be published and found globally in the I/O Kit based on a name, using the standard IOService matching and notification calls.
1039 @result A pointer to the IOResources instance. It should not be released by the caller. */
1040
1041 static IOService * getResourceService( void );
1042
1043 /* Allocate resources for a matched service */
1044
1045/*! @function getResources
1046 @abstract Allocates any needed resources for a published IOService object before clients attach.
1047 @discussion This method is called during the registration process for an IOService object if there are successful driver matches, before any clients attach. It allows for lazy allocation of resources to an IOService object when a matching driver is found.
1048 @result An IOReturn code; <code>kIOReturnSuccess</code> is necessary for the IOService object to be successfully used, otherwise the registration process for the object is halted. */
1049
1050 virtual IOReturn getResources( void );
1051
1052 /* Device memory accessors */
1053
1054/*! @function getDeviceMemoryCount
1055 @abstract Returns a count of the physical memory ranges available for a device.
1056 @discussion This method returns the count of physical memory ranges, each represented by an IODeviceMemory instance, that have been allocated for a memory mapped device.
1057 @result An integer count of the number of ranges available. */
1058
1059 virtual IOItemCount getDeviceMemoryCount( void );
1060
1061/*! @function getDeviceMemoryWithIndex
1062 @abstract Returns an instance of IODeviceMemory representing one of a device's memory mapped ranges.
1063 @discussion This method returns a pointer to an instance of IODeviceMemory for the physical memory range at the given index for a memory mapped device.
1064 @param index An index into the array of ranges assigned to the device.
1065 @result A pointer to an instance of IODeviceMemory, or zero if the index is beyond the count available. The IODeviceMemory is retained by the provider, so is valid while attached, or while any mappings to it exist. It should not be released by the caller. See also @link mapDeviceMemoryWithIndex mapDeviceMemoryWithIndex@/link, which creates a device memory mapping. */
1066
1067 virtual IODeviceMemory * getDeviceMemoryWithIndex( unsigned int index );
1068
1069/*! @function mapDeviceMemoryWithIndex
1070 @abstract Maps a physical range of a device.
1071 @discussion This method creates a mapping for the IODeviceMemory at the given index, with <code>IODeviceMemory::map(options)</code>. The mapping is represented by the returned instance of IOMemoryMap, which should not be released until the mapping is no longer required.
1072 @param index An index into the array of ranges assigned to the device.
1073 @result An instance of IOMemoryMap, or zero if the index is beyond the count available. The mapping should be released only when access to it is no longer required. */
1074
1075 virtual IOMemoryMap * mapDeviceMemoryWithIndex( unsigned int index,
1076 IOOptionBits options = 0 );
1077
1078/*! @function getDeviceMemory
1079 @abstract Returns the array of IODeviceMemory objects representing a device's memory mapped ranges.
1080 @discussion This method returns an array of IODeviceMemory objects representing the physical memory ranges allocated to a memory mapped device.
1081 @result An OSArray of IODeviceMemory objects, or zero if none are available. The array is retained by the provider, so is valid while attached. */
1082
1083 virtual OSArray * getDeviceMemory( void );
1084
1085/*! @function setDeviceMemory
1086 @abstract Sets the array of IODeviceMemory objects representing a device's memory mapped ranges.
1087 @discussion This method sets an array of IODeviceMemory objects representing the physical memory ranges allocated to a memory mapped device.
1088 @param array An OSArray of IODeviceMemory objects, or zero if none are available. The array will be retained by the object. */
1089
1090 virtual void setDeviceMemory( OSArray * array );
1091
1092 /* Interrupt accessors */
1093
1094/*! @function registerInterrupt
1095 @abstract Registers a C function interrupt handler for a device supplying interrupts.
1096 @discussion This method installs a C function interrupt handler to be called at primary interrupt time for a device's interrupt. Only one handler may be installed per interrupt source. IOInterruptEventSource provides a work loop based abstraction for interrupt delivery that may be more appropriate for work loop based drivers.
1097 @param source The index of the interrupt source in the device.
1098 @param target An object instance to be passed to the interrupt handler.
1099 @param handler The C function to be called at primary interrupt time when the interrupt occurs. The handler should process the interrupt by clearing the interrupt, or by disabling the source.
1100 @param refCon A reference constant for the handler's use.
1101 @result An IOReturn code.<br><code>kIOReturnNoInterrupt</code> is returned if the source is not valid; <code>kIOReturnNoResources</code> is returned if the interrupt already has an installed handler. */
1102
1103 virtual IOReturn registerInterrupt(int source, OSObject *target,
1104 IOInterruptAction handler,
1105 void *refCon = 0);
1106
1107/*! @function unregisterInterrupt
1108 @abstract Removes a C function interrupt handler for a device supplying hardware interrupts.
1109 @discussion This method removes a C function interrupt handler previously installed with @link registerInterrupt registerInterrupt@/link.
1110 @param source The index of the interrupt source in the device.
1111 @result An IOReturn code (<code>kIOReturnNoInterrupt</code> is returned if the source is not valid). */
1112
1113 virtual IOReturn unregisterInterrupt(int source);
1114
1115/*! @function addInterruptStatistics
1116 @abstract Adds a statistics object to the IOService for the given interrupt.
1117 @discussion This method associates a set of statistics and a reporter for those statistics with an interrupt for this IOService, so that we can interrogate the IOService for statistics pertaining to that interrupt.
1118 @param statistics The IOInterruptAccountingData container we wish to associate the IOService with.
1119 @param source The index of the interrupt source in the device. */
1120 IOReturn addInterruptStatistics(IOInterruptAccountingData * statistics, int source);
1121
1122/*! @function removeInterruptStatistics
1123 @abstract Removes any statistics from the IOService for the given interrupt.
1124 @discussion This method disassociates any IOInterruptAccountingData container we may have for the given interrupt from the IOService; this indicates that the the interrupt target (at the moment, likely an IOInterruptEventSource) is being destroyed.
1125 @param source The index of the interrupt source in the device. */
1126 IOReturn removeInterruptStatistics(int source);
1127
1128/*! @function getInterruptType
1129 @abstract Returns the type of interrupt used for a device supplying hardware interrupts.
1130 @param source The index of the interrupt source in the device.
1131 @param interruptType The interrupt type for the interrupt source will be stored here by <code>getInterruptType</code>.<br> <code>kIOInterruptTypeEdge</code> will be returned for edge-trigggered sources.<br><code>kIOInterruptTypeLevel</code> will be returned for level-trigggered sources.
1132 @result An IOReturn code (<code>kIOReturnNoInterrupt</code> is returned if the source is not valid). */
1133
1134 virtual IOReturn getInterruptType(int source, int *interruptType);
1135
1136/*! @function enableInterrupt
1137 @abstract Enables a device interrupt.
1138 @discussion It is the caller's responsiblity to keep track of the enable state of the interrupt source.
1139 @param source The index of the interrupt source in the device.
1140 @result An IOReturn code (<code>kIOReturnNoInterrupt</code> is returned if the source is not valid). */
1141
1142 virtual IOReturn enableInterrupt(int source);
1143
1144/*! @function disableInterrupt
1145 @abstract Synchronously disables a device interrupt.
1146 @discussion If the interrupt routine is running, the call will block until the routine completes. It is the caller's responsiblity to keep track of the enable state of the interrupt source.
1147 @param source The index of the interrupt source in the device.
1148 @result An IOReturn code (<code>kIOReturnNoInterrupt</code> is returned if the source is not valid). */
1149
1150 virtual IOReturn disableInterrupt(int source);
1151
1152/*! @function causeInterrupt
1153 @abstract Causes a device interrupt to occur.
1154 @discussion Emulates a hardware interrupt, to be called from task level.
1155 @param source The index of the interrupt source in the device.
1156 @result An IOReturn code (<code>kIOReturnNoInterrupt</code> is returned if the source is not valid). */
1157
1158 virtual IOReturn causeInterrupt(int source);
1159
1160/*! @function requestProbe
1161 @abstract Requests that hardware be re-scanned for devices.
1162 @discussion For bus families that do not usually detect device addition or removal, this method represents an external request (eg. from a utility application) to rescan and publish or remove found devices.
1163 @param options Family defined options, not interpreted by IOService.
1164 @result An IOReturn code. */
1165
1166 virtual IOReturn requestProbe( IOOptionBits options );
1167
1168 /* Generic API for non-data-path upstream calls */
1169
1170/*! @function message
1171 @abstract Receives a generic message delivered from an attached provider.
1172 @discussion A provider may deliver messages via the <code>message</code> method to its clients informing them of state changes, such as <code>kIOMessageServiceIsTerminated</code> or <code>kIOMessageServiceIsSuspended</code>. Certain messages are defined by the I/O Kit in <code>IOMessage.h</code> while others may be family dependent. This method is implemented in the client to receive messages.
1173 @param type A type defined in <code>IOMessage.h</code> or defined by the provider family.
1174 @param provider The provider from which the message originates.
1175 @param argument An argument defined by the provider family, not used by IOService.
1176 @result An IOReturn code defined by the message type. */
1177
1178 virtual IOReturn message( UInt32 type, IOService * provider,
1179 void * argument = 0 );
1180
1181/*! @function messageClient
1182 @abstract Sends a generic message to an attached client.
1183 @discussion A provider may deliver messages via the @link message message@/link method to its clients informing them of state changes, such as <code>kIOMessageServiceIsTerminated</code> or <code>kIOMessageServiceIsSuspended</code>. Certain messages are defined by the I/O Kit in <code>IOMessage.h</code> while others may be family dependent. This method may be called in the provider to send a message to the specified client, which may be useful for overrides.
1184 @param messageType A type defined in <code>IOMessage.h</code> or defined by the provider family.
1185 @param client A client of the IOService to send the message.
1186 @param messageArgument An argument defined by the provider family, not used by IOService.
1187 @param argSize Specifies the size of messageArgument, in bytes. If argSize is non-zero, messageArgument is treated as a pointer to argSize bytes of data. If argSize is 0 (the default), messageArgument is treated as an ordinal and passed by value.
1188 @result The return code from the client message call. */
1189
1190 virtual IOReturn messageClient( UInt32 messageType, OSObject * client,
1191 void * messageArgument = 0, vm_size_t argSize = 0 );
1192
1193/*! @function messageClients
1194 @abstract Sends a generic message to all attached clients.
1195 @discussion A provider may deliver messages via the @link message message@/link method to its clients informing them of state changes, such as <code>kIOMessageServiceIsTerminated</code> or <code>kIOMessageServiceIsSuspended</code>. Certain messages are defined by the I/O Kit in <code>IOMessage.h</code> while others may be family dependent. This method may be called in the provider to send a message to all the attached clients, via the @link messageClient messageClient@/link method.
1196 @param type A type defined in <code>IOMessage.h</code> or defined by the provider family.
1197 @param argument An argument defined by the provider family, not used by IOService.
1198 @param argSize Specifies the size of argument, in bytes. If argSize is non-zero, argument is treated as a pointer to argSize bytes of data. If argSize is 0 (the default), argument is treated as an ordinal and passed by value.
1199 @result Any non-<code>kIOReturnSuccess</code> return codes returned by the clients, or <code>kIOReturnSuccess</code> if all return <code>kIOReturnSuccess</code>. */
1200
1201 virtual IOReturn messageClients( UInt32 type,
1202 void * argument = 0, vm_size_t argSize = 0 );
1203
1204 virtual IONotifier * registerInterest( const OSSymbol * typeOfInterest,
1205 IOServiceInterestHandler handler,
1206 void * target, void * ref = 0 );
1207
1208 virtual void applyToProviders( IOServiceApplierFunction applier,
1209 void * context );
1210
1211 virtual void applyToClients( IOServiceApplierFunction applier,
1212 void * context );
1213
1214 virtual void applyToInterested( const OSSymbol * typeOfInterest,
1215 OSObjectApplierFunction applier,
1216 void * context );
1217
1218 virtual IOReturn acknowledgeNotification( IONotificationRef notification,
1219 IOOptionBits response );
1220
1221 /* User client create */
1222
1223/*! @function newUserClient
1224 @abstract Creates a connection for a non kernel client.
1225 @discussion A non kernel client may request a connection be opened via the @link //apple_ref/c/func/IOServiceOpen IOServiceOpen@/link library function, which will call this method in an IOService object. The rules and capabilities of user level clients are family dependent, and use the functions of the IOUserClient class for support. IOService's implementation returns <code>kIOReturnUnsupported</code>, so any family supporting user clients must implement this method.
1226 @param owningTask The Mach task of the client thread in the process of opening the user client. Note that in Mac OS X, each process is based on a Mach task and one or more Mach threads. For more information on the composition of a Mach task and its relationship with Mach threads, see {@linkdoc //apple_ref/doc/uid/TP30000905-CH209-TPXREF103 "Tasks and Threads"}.
1227 @param securityID A token representing the access level for the task.
1228 @param type A constant specifying the type of connection to be created, specified by the caller of @link //apple_ref/c/func/IOServiceOpen IOServiceOpen@/link and interpreted only by the family.
1229 @param handler An instance of an IOUserClient object to represent the connection, which will be released when the connection is closed, or zero if the connection was not opened.
1230 @param properties A dictionary of additional properties for the connection.
1231 @result A return code to be passed back to the caller of <code>IOServiceOpen</code>. */
1232
1233 virtual IOReturn newUserClient( task_t owningTask, void * securityID,
1234 UInt32 type, OSDictionary * properties,
1235 IOUserClient ** handler );
1236
1237 virtual IOReturn newUserClient( task_t owningTask, void * securityID,
1238 UInt32 type, IOUserClient ** handler );
1239
1240 /* Return code utilities */
1241
1242/*! @function stringFromReturn
1243 @abstract Supplies a programmer-friendly string from an IOReturn code.
1244 @discussion Strings are available for the standard return codes in <code>IOReturn.h</code> in IOService, while subclasses may implement this method to interpret family dependent return codes.
1245 @param rtn The IOReturn code.
1246 @result A pointer to a constant string, or zero if the return code is unknown. */
1247
1248 virtual const char * stringFromReturn( IOReturn rtn );
1249
1250/*! @function errnoFromReturn
1251 @abstract Translates an IOReturn code to a BSD <code>errno</code>.
1252 @discussion BSD defines its own return codes for its functions in <code>sys/errno.h</code>, and I/O Kit families may need to supply compliant results in BSD shims. Results are available for the standard return codes in <code>IOReturn.h</code> in IOService, while subclasses may implement this method to interpret family dependent return codes.
1253 @param rtn The IOReturn code.
1254 @result The BSD <code>errno</code> or <code>EIO</code> if unknown. */
1255
1256 virtual int errnoFromReturn( IOReturn rtn );
1257
1258 /* * * * * * * * * * * * * * * * * * * * * * * * * * * * */
1259 /* * * * * * * * * * end of IOService API * * * * * * * */
1260 /* * * * * * * * * * * * * * * * * * * * * * * * * * * * */
1261
1262 /* for IOInterruptController implementors */
1263
1264 int _numInterruptSources;
1265 IOInterruptSource *_interruptSources;
1266
1267 /* overrides */
1268 virtual bool serializeProperties( OSSerialize * s ) const APPLE_KEXT_OVERRIDE;
1269
1270#ifdef KERNEL_PRIVATE
1271 /* Apple only SPI to control CPU low power modes */
1272 void setCPUSnoopDelay(UInt32 ns);
1273 UInt32 getCPUSnoopDelay();
1274#endif
1275 void requireMaxBusStall(UInt32 ns);
1276 void requireMaxInterruptDelay(uint32_t ns);
1277
1278 /* * * * * * * * * * * * * * * * * * * * * * * * * * * * */
1279 /* * * * * * * * * * * * Internals * * * * * * * * * * * */
1280 /* * * * * * * * * * * * * * * * * * * * * * * * * * * * */
1281
1282#ifdef XNU_KERNEL_PRIVATE
1283public:
1284 // called from other xnu components
1285 static void initialize( void );
1286 static void setPlatform( IOPlatformExpert * platform);
1287 static void setPMRootDomain( class IOPMrootDomain * rootDomain );
1288 static IOReturn catalogNewDrivers( OSOrderedSet * newTables );
1289 uint64_t getAccumulatedBusyTime( void );
1290 static void updateConsoleUsers(OSArray * consoleUsers, IOMessage systemMessage);
1291 static void consoleLockTimer(thread_call_param_t p0, thread_call_param_t p1);
1292 void setTerminateDefer(IOService * provider, bool defer);
1293 uint64_t getAuthorizationID( void );
1294 IOReturn setAuthorizationID( uint64_t authorizationID );
1295 void cpusRunning(void);
1296 void scheduleFinalize(bool now);
1297
1298private:
1299 static IOReturn waitMatchIdle( UInt32 ms );
1300 static IONotifier * installNotification(
1301 const OSSymbol * type, OSDictionary * matching,
1302 IOServiceMatchingNotificationHandler handler,
1303 void * target, void * ref,
1304 SInt32 priority, OSIterator ** existing );
1305#if !defined(__LP64__)
1306 static IONotifier * installNotification(
1307 const OSSymbol * type, OSDictionary * matching,
1308 IOServiceNotificationHandler handler,
1309 void * target, void * ref,
1310 SInt32 priority, OSIterator ** existing);
1311#endif /* !defined(__LP64__) */
1312#endif
1313
1314private:
1315 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1316 bool checkResources( void );
1317 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1318 bool checkResource( OSObject * matching );
1319
1320 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1321 void probeCandidates( OSOrderedSet * matches );
1322 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1323 bool startCandidate( IOService * candidate );
1324
1325public:
1326 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1327 IOService * getClientWithCategory( const OSSymbol * category )
1328 APPLE_KEXT_DEPRECATED;
1329 // copyClientWithCategory is the public replacement
1330
1331#ifdef XNU_KERNEL_PRIVATE
1332 /* Callable within xnu source only - but require vtable entries to be visible */
1333public:
1334#else
1335private:
1336#endif
1337 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1338 bool passiveMatch( OSDictionary * matching, bool changesOK = false);
1339 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1340 void startMatching( IOOptionBits options = 0 );
1341 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1342 void doServiceMatch( IOOptionBits options );
1343 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1344 void doServiceTerminate( IOOptionBits options );
1345
1346private:
1347
1348 bool matchPassive(OSDictionary * table, uint32_t options);
1349 bool matchInternal(OSDictionary * table, uint32_t options, unsigned int * did);
1350 static bool instanceMatch(const OSObject * entry, void * context);
1351
1352 static OSObject * copyExistingServices( OSDictionary * matching,
1353 IOOptionBits inState, IOOptionBits options = 0 );
1354
1355 static IONotifier * setNotification(
1356 const OSSymbol * type, OSDictionary * matching,
1357 IOServiceMatchingNotificationHandler handler,
1358 void * target, void * ref,
1359 SInt32 priority = 0 );
1360
1361 static IONotifier * doInstallNotification(
1362 const OSSymbol * type, OSDictionary * matching,
1363 IOServiceMatchingNotificationHandler handler,
1364 void * target, void * ref,
1365 SInt32 priority, OSIterator ** existing );
1366
1367 static bool syncNotificationHandler( void * target, void * ref,
1368 IOService * newService, IONotifier * notifier );
1369
1370 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1371 void deliverNotification( const OSSymbol * type,
1372 IOOptionBits orNewState, IOOptionBits andNewState );
1373
1374 bool invokeNotifer( class _IOServiceNotifier * notify );
1375
1376 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1377 void unregisterAllInterest( void );
1378
1379 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1380 IOReturn waitForState( UInt32 mask, UInt32 value,
1381 mach_timespec_t * timeout = 0 );
1382
1383 IOReturn waitForState( UInt32 mask, UInt32 value, uint64_t timeout );
1384
1385 UInt32 _adjustBusy( SInt32 delta );
1386
1387 bool terminatePhase1( IOOptionBits options = 0 );
1388 void scheduleTerminatePhase2( IOOptionBits options = 0 );
1389 void scheduleStop( IOService * provider );
1390 static void terminateThread( void * arg, wait_result_t unused );
1391 static void terminateWorker( IOOptionBits options );
1392 static void actionWillTerminate( IOService * victim, IOOptionBits options,
1393 OSArray * doPhase2List, void*, void * );
1394 static void actionDidTerminate( IOService * victim, IOOptionBits options,
1395 void *, void *, void *);
1396
1397 static void actionWillStop( IOService * victim, IOOptionBits options,
1398 void *, void *, void *);
1399 static void actionDidStop( IOService * victim, IOOptionBits options,
1400 void *, void *, void *);
1401
1402 static void actionFinalize( IOService * victim, IOOptionBits options,
1403 void *, void *, void *);
1404 static void actionStop( IOService * client, IOService * provider,
1405 void *, void *, void *);
1406
1407 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1408 IOReturn resolveInterrupt(IOService *nub, int source);
1409 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1410 IOReturn lookupInterrupt(int source, bool resolve, IOInterruptController **interruptController);
1411
1412#ifdef XNU_KERNEL_PRIVATE
1413 /* end xnu internals */
1414#endif
1415
1416 /* power management */
1417public:
1418
1419/*! @function PMinit
1420 @abstract Initializes power management for a driver.
1421 @discussion <code>PMinit</code> allocates and initializes the power management instance variables, and it should be called before accessing those variables or calling the power management methods. This method should be called inside the driver's <code>start</code> routine and must be paired with a call to @link PMstop PMstop@/link.
1422 Most calls to <code>PMinit</code> are followed by calls to @link joinPMtree joinPMtree@/link and @link registerPowerDriver registerPowerDriver@/link. */
1423
1424 virtual void PMinit( void );
1425
1426/*! @function PMstop
1427 @abstract Stop power managing the driver.
1428 @discussion Removes the driver from the power plane and stop its power management. This method is synchronous against any power management method invocations (e.g. <code>setPowerState</code> or <code>setAggressiveness</code>), so when this method returns it is guaranteed those power management methods will not be entered. Driver should not call any power management methods after this call.
1429 Calling <code>PMstop</code> cleans up for the three power management initialization calls: @link PMinit PMinit@/link, @link joinPMtree joinPMtree@/link, and @link registerPowerDriver registerPowerDriver@/link. */
1430
1431 virtual void PMstop( void );
1432
1433/*! @function joinPMtree
1434 @abstract Joins the driver into the power plane of the I/O Registry.
1435 @discussion A driver uses this method to call its nub when initializing (usually in its <code>start</code> routine after calling @link PMinit PMinit@/link), to be attached into the power management hierarchy (i.e., the power plane). A driver usually calls this method on the driver for the device that provides it power (this is frequently the nub).
1436 Before this call returns, the caller will probably be called at @link setPowerParent setPowerParent@/link and @link setAggressiveness setAggressiveness@/link and possibly at @link addPowerChild addPowerChild@/link as it is added to the hierarchy. This method may be overridden by a nub subclass.
1437 @param driver The driver to be added to the power plane, usually <code>this</code>. */
1438
1439 virtual void joinPMtree( IOService * driver );
1440
1441/*! @function registerPowerDriver
1442 @abstract Registers a set of power states that the driver supports.
1443 @discussion A driver defines its array of supported power states with power management in its power management initialization (its <code>start</code> routine). If successful, power management will call the driver to instruct it to change its power state through @link setPowerState setPowerState@/link.
1444 Most drivers do not need to override <code>registerPowerDriver</code>. A nub may override <code>registerPowerDriver</code> if it needs to arrange its children in the power plane differently than the default placement, but this is uncommon.
1445 @param controllingDriver A pointer to the calling driver, usually <code>this</code>.
1446 @param powerStates A driver-defined array of power states that the driver and device support. Power states are defined in <code>pwr_mgt/IOPMpowerState.h</code>.
1447 @param numberOfStates The number of power states in the array.
1448 @result <code>IOPMNoErr</code>. All errors are logged via <code>kprintf</code>. */
1449
1450 virtual IOReturn registerPowerDriver(
1451 IOService * controllingDriver,
1452 IOPMPowerState * powerStates,
1453 unsigned long numberOfStates );
1454
1455/*! @function registerInterestedDriver
1456 @abstract Allows an IOService object to register interest in the changing power state of a power-managed IOService object.
1457 @discussion Call <code>registerInterestedDriver</code> on the IOService object you are interested in receiving power state messages from, and pass a pointer to the interested driver (<code>this</code>) as an argument.
1458 The interested driver is retained until the power interest is removed by calling <code>deRegisterInterestedDriver</code>.
1459 The interested driver should override @link powerStateWillChangeTo powerStateWillChangeTo@/link and @link powerStateDidChangeTo powerStateDidChangeTo@/link to receive these power change messages.
1460 Interested drivers must acknowledge power changes in <code>powerStateWillChangeTo</code> or <code>powerStateDidChangeTo</code>, either via return value or later calls to @link acknowledgePowerChange acknowledgePowerChange@/link.
1461 @param theDriver The driver of interest adds this pointer to the list of interested drivers. It informs drivers on this list before and after the power change.
1462 @result Flags describing the capability of the device in its current power state. If the current power state is not yet defined, zero is returned (this is the case when the driver is not yet in the power domain hierarchy or hasn't fully registered with power management yet). */
1463
1464 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1465 IOPMPowerFlags registerInterestedDriver( IOService * theDriver );
1466
1467/*! @function deRegisterInterestedDriver
1468 @abstract De-registers power state interest from a previous call to <code>registerInterestedDriver</code>.
1469 @discussion The retain from <code>registerInterestedDriver</code> is released. This method is synchronous against any <code>powerStateWillChangeTo</code> or <code>powerStateDidChangeTo</code> call targeting the interested driver, so when this method returns it is guaranteed those interest handlers will not be entered.
1470 Most drivers do not need to override <code>deRegisterInterestedDriver</code>.
1471 @param theDriver The interested driver previously passed into @link registerInterestedDriver registerInterestedDriver@/link.
1472 @result A return code that can be ignored by the caller. */
1473
1474 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1475 IOReturn deRegisterInterestedDriver( IOService * theDriver );
1476
1477/*! @function acknowledgePowerChange
1478 @abstract Acknowledges an in-progress power state change.
1479 @discussion When power management informs an interested object (via @link powerStateWillChangeTo powerStateWillChangeTo@/link or @link powerStateDidChangeTo powerStateDidChangeTo@/link), the object can return an immediate acknowledgement via a return code, or it may return an indication that it will acknowledge later by calling <code>acknowledgePowerChange</code>.
1480 Interested objects are those that have registered as interested drivers, as well as power plane children of the power changing driver. A driver that calls @link registerInterestedDriver registerInterestedDriver@/link must call <code>acknowledgePowerChange</code>, or use an immediate acknowledgement return from <code>powerStateWillChangeTo</code> or <code>powerStateDidChangeTo</code>.
1481 @param whichDriver A pointer to the calling driver. The called object tracks all interested parties to ensure that all have acknowledged the power state change.
1482 @result <code>IOPMNoErr</code>. */
1483
1484 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1485 IOReturn acknowledgePowerChange( IOService * whichDriver );
1486
1487/*! @function acknowledgeSetPowerState
1488 @abstract Acknowledges the belated completion of a driver's <code>setPowerState</code> power state change.
1489 @discussion After power management instructs a driver to change its state via @link setPowerState setPowerState@/link, that driver must acknowledge the change when its device has completed its transition. The acknowledgement may be immediate, via a return code from <code>setPowerState</code>, or delayed, via this call to <code>acknowledgeSetPowerState</code>.
1490 Any driver that does not return <code>kIOPMAckImplied</code> from its <code>setPowerState</code> implementation must later call <code>acknowledgeSetPowerState</code>.
1491 @result <code>IOPMNoErr</code>. */
1492
1493 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1494 IOReturn acknowledgeSetPowerState( void );
1495
1496/*! @function requestPowerDomainState
1497 @abstract Tells a driver to adjust its power state.
1498 @discussion This call is handled internally by power management. It is not intended to be overridden or called by drivers. */
1499
1500 virtual IOReturn requestPowerDomainState(
1501 IOPMPowerFlags desiredState,
1502 IOPowerConnection * whichChild,
1503 unsigned long specificationFlags );
1504
1505/*! @function makeUsable
1506 @abstract Requests that a device become usable.
1507 @discussion This method is called when some client of a device (or the device's own driver) is asking for the device to become usable. Power management responds by telling the object upon which this method is called to change to its highest power state.
1508 <code>makeUsable</code> is implemented using @link changePowerStateToPriv changePowerStateToPriv@/link. Subsequent requests for lower power, such as from <code>changePowerStateToPriv</code>, will pre-empt this request.
1509 @result A return code that can be ignored by the caller. */
1510
1511 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1512 IOReturn makeUsable( void );
1513
1514/*! @function temporaryPowerClampOn
1515 @abstract A driver calls this method to hold itself in the highest power state until it has children.
1516 @discussion Use <code>temporaryPowerClampOn</code> to hold your driver in its highest power state while waiting for child devices to attach. After children have attached, the clamp is released and the device's power state is controlled by the children's requirements.
1517 @result A return code that can be ignored by the caller. */
1518
1519 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1520 IOReturn temporaryPowerClampOn( void );
1521
1522/*! @function changePowerStateTo
1523 @abstract Sets a driver's power state.
1524 @discussion This function is one of several that are used to set a driver's power state. In most circumstances, however, you should call @link changePowerStateToPriv changePowerStateToPriv@/link instead.
1525 Calls to <code>changePowerStateTo</code>, <code>changePowerStateToPriv</code>, and a driver's power children all affect the power state of a driver. For legacy design reasons, they have overlapping functionality. Although you should call <code>changePowerStateToPriv</code> to change your device's power state, you might need to call <code>changePowerStateTo</code> in the following circumstances:
1526 <ul><li>If a driver will be using <code>changePowerStateToPriv</code> to change its power state, it should call <code>changePowerStateTo(0)</code> in its <code>start</code> routine to eliminate the influence <code>changePowerStateTo</code> has on power state calculations.
1527 <li>Call <code>changePowerStateTo</code> in conjunction with @link setIdleTimerPeriod setIdleTimerPeriod@/link and @link activityTickle activityTickle@/link to idle a driver into a low power state. For a driver with 3 power states, for example, <code>changePowerStateTo(1)</code> sets a minimum level of power state 1, such that the idle timer period may not set your device's power any lower than state 1.</ul>
1528 @param ordinal The number of the desired power state in the power state array.
1529 @result A return code that can be ignored by the caller. */
1530
1531 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1532 IOReturn changePowerStateTo( unsigned long ordinal );
1533
1534/*! @function currentCapability
1535 @abstract Finds out the capability of a device's current power state.
1536 @result A copy of the <code>capabilityFlags</code> field for the current power state in the power state array. */
1537
1538 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1539 IOPMPowerFlags currentCapability( void );
1540
1541/*! @function currentPowerConsumption
1542 @abstract Finds out the current power consumption of a device.
1543 @discussion Most Mac OS X power managed drivers do not report their power consumption via the <code>staticPower</code> field. Thus this call will not accurately reflect power consumption for most drivers.
1544 @result A copy of the <code>staticPower</code> field for the current power state in the power state array. */
1545
1546 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1547 unsigned long currentPowerConsumption( void );
1548
1549/*! @function activityTickle
1550 @abstract Informs power management when a power-managed device is in use, so that power management can track when it is idle and adjust its power state accordingly.
1551 @discussion The <code>activityTickle</code> method is provided for objects in the system (or for the driver itself) to tell a driver that its device is being used.
1552 The IOService superclass can manage idleness determination with a simple idle timer mechanism and this <code>activityTickle</code> call. To start this up, the driver calls its superclass's <code>setIdleTimerPeriod</code>. This starts a timer for the time interval specified in the call. When the timer expires, the superclass checks to see if there has been any activity since the last timer expiration. (It checks to see if <code>activityTickle</code> has been called). If there has been activity, it restarts the timer, and this process continues. When the timer expires, and there has been no device activity, the superclass lowers the device power state to the next lower state. This can continue until the device is in state zero.
1553 After the device has been powered down by at least one power state, a subsequent call to <code>activityTickle</code> causes the device to be switched to a higher state required for the activity.
1554 If the driver is managing the idleness determination totally on its own, the value of the <code>type</code> parameter should be <code>kIOPMSubclassPolicy</code>, and the driver should override the <code>activityTickle</code> method. The superclass IOService implementation of <code>activityTickle</code> does nothing with the <code>kIOPMSubclassPolicy</code> argument.
1555 @param type When <code>type</code> is <code>kIOPMSubclassPolicy</code>, <code>activityTickle</code> is not handled in IOService and should be intercepted by the subclass. When <code>type</code> is <code>kIOPMSuperclassPolicy1</code>, an activity flag is set and the device state is checked. If the device has been powered down, it is powered up again.
1556 @param stateNumber When <code>type</code> is <code>kIOPMSuperclassPolicy1</code>, <code>stateNumber</code> contains the desired power state ordinal for the activity. If the device is in a lower state, the superclass will switch it to this state. This is for devices that can handle some accesses in lower power states; the device is powered up only as far as it needs to be for the activity.
1557 @result When <code>type</code> is <code>kIOPMSuperclassPolicy1</code>, the superclass returns <code>true</code> if the device is currently in the state specified by <code>stateNumber</code>. If the device is in a lower state and must be powered up, the superclass returns <code>false</code>; in this case the superclass will initiate a power change to power the device up. */
1558
1559 virtual bool activityTickle(
1560 unsigned long type,
1561 unsigned long stateNumber = 0 );
1562
1563/*! @function setAggressiveness
1564 @abstract Broadcasts an aggressiveness factor from the parent of a driver to the driver.
1565 @discussion Implement <code>setAggressiveness</code> to receive a notification when an "aggressiveness Aggressiveness factors are a loose set of power management variables that contain values for system sleep timeout, display sleep timeout, whether the system is on battery or AC, and other power management features. There are several aggressiveness factors that can be broadcast and a driver may take action on whichever factors apply to it.
1566 A driver that has joined the power plane via @link joinPMtree joinPMtree@/link will receive <code>setAgressiveness</code> calls when aggressiveness factors change.
1567 A driver may override this call if it needs to do something with the new factor (such as change its idle timeout). If overridden, the driver must call its superclass's <code>setAgressiveness</code> method in its own <code>setAgressiveness</code> implementation.
1568 Most drivers do not need to implement <code>setAgressiveness</code>.
1569 @param type The aggressiveness factor type, such as <code>kPMMinutesToDim</code>, <code>kPMMinutesToSpinDown</code>, <code>kPMMinutesToSleep</code>, and <code>kPMPowerSource</code>. (Aggressiveness factors are defined in <code>pwr_mgt/IOPM.h</code>.)
1570 @param newLevel The aggressiveness factor's new value.
1571 @result <code>IOPMNoErr</code>. */
1572
1573 virtual IOReturn setAggressiveness(
1574 unsigned long type,
1575 unsigned long newLevel );
1576
1577/*! @function getAggressiveness
1578 @abstract Returns the current aggressiveness value for the given type.
1579 @param type The aggressiveness factor to query.
1580 @param currentLevel Upon successful return, contains the value of aggressiveness factor <code>type</code>.
1581 @result <code>kIOReturnSuccess</code> upon success; an I/O Kit error code otherwise. */
1582
1583 virtual IOReturn getAggressiveness(
1584 unsigned long type,
1585 unsigned long * currentLevel );
1586
1587#ifndef __LP64__
1588/*! @function systemWake
1589 @abstract Tells every driver in the power plane that the system is waking up.
1590 @discussion This call is handled internally by power management. It is not intended to be overridden or called by drivers. */
1591
1592 virtual IOReturn systemWake( void )
1593 APPLE_KEXT_DEPRECATED;
1594
1595/*! @function temperatureCriticalForZone
1596 @abstract Alerts a driver to a critical temperature in some thermal zone.
1597 @discussion This call is unused by power management. It is not intended to be called or overridden. */
1598
1599 virtual IOReturn temperatureCriticalForZone( IOService * whichZone )
1600 APPLE_KEXT_DEPRECATED;
1601
1602/*! @function youAreRoot
1603 @abstract Informs power management which IOService object is the power plane root.
1604 @discussion This call is handled internally by power management. It is not intended to be overridden or called by drivers. */
1605
1606 virtual IOReturn youAreRoot( void )
1607 APPLE_KEXT_DEPRECATED;
1608
1609/*! @function setPowerParent
1610 @abstract This call is handled internally by power management. It is not intended to be overridden or called by drivers. */
1611
1612 virtual IOReturn setPowerParent(
1613 IOPowerConnection * parent,
1614 bool stateKnown,
1615 IOPMPowerFlags currentState )
1616 APPLE_KEXT_DEPRECATED;
1617#endif /* !__LP64__ */
1618
1619/*! @function addPowerChild
1620 @abstract Informs a driver that it has a new child.
1621 @discussion The Platform Expert uses this method to call a driver and introduce it to a new child. This call is handled internally by power management. It is not intended to be overridden or called by drivers.
1622 @param theChild A pointer to the child IOService object. */
1623
1624 virtual IOReturn addPowerChild( IOService * theChild );
1625
1626/*! @function removePowerChild
1627 @abstract Informs a power managed driver that one of its power plane childen is disappearing.
1628 @discussion This call is handled internally by power management. It is not intended to be overridden or called by drivers. */
1629
1630 virtual IOReturn removePowerChild( IOPowerConnection * theChild );
1631
1632#ifndef __LP64__
1633/*! @function command_received
1634 @discussion This call is handled internally by power management. It is not intended to be overridden or called by drivers. */
1635
1636 virtual void command_received( void *, void * , void * , void * );
1637#endif
1638
1639/*! @function start_PM_idle_timer
1640 @discussion This call is handled internally by power management. It is not intended to be overridden or called by drivers. */
1641
1642 APPLE_KEXT_COMPATIBILITY_VIRTUAL
1643 void start_PM_idle_timer( void );
1644
1645#ifndef __LP64__
1646/*! @function PM_idle_timer_expiration
1647 @discussion This call is handled internally by power management. It is not intended to be overridden or called by drivers. */
1648
1649 virtual void PM_idle_timer_expiration( void )
1650 APPLE_KEXT_DEPRECATED;
1651
1652/*! @function PM_Clamp_Timer_Expired
1653 @discussion This call is handled internally by power management. It is not intended to be overridden or called by drivers. */
1654
1655 virtual void PM_Clamp_Timer_Expired( void )
1656 APPLE_KEXT_DEPRECATED;
1657#endif
1658
1659/*! @function setIdleTimerPeriod
1660 @abstract Sets or changes the idle timer period.
1661 @discussion A driver using the idleness determination provided by IOService calls its superclass with this method to set or change the idle timer period. See @link activityTickle activityTickle@/link for a description of this type of idleness determination.
1662 @param period The desired idle timer period in seconds.
1663 @result <code>kIOReturnSuccess</code> upon success; an I/O Kit error code otherwise. */
1664
1665 virtual IOReturn setIdleTimerPeriod( unsigned long period );
1666
1667#ifndef __LP64__
1668/*! @function getPMworkloop
1669 @abstract Returns a pointer to the system-wide power management work loop.
1670 @availability Deprecated in Mac OS X version 10.6.
1671 @discussion Most drivers should create their own work loops to synchronize their code; drivers should not run arbitrary code on the power management work loop. */
1672
1673 virtual IOWorkLoop * getPMworkloop( void )
1674 APPLE_KEXT_DEPRECATED;
1675#endif
1676
1677/*! @function getPowerState
1678 @abstract Determines a device's power state.
1679 @discussion A device's "current power state" is updated at the end of each power state transition (e.g. transition from state 1 to state 0, or state 0 to state 2). This transition includes the time spent powering on or off any power plane children. Thus, if a child calls <code>getPowerState</code> on its power parent during system wake from sleep, the call will return the index to the device's off state rather than its on state.
1680 @result The current power state's index into the device's power state array. */
1681
1682 UInt32 getPowerState( void );
1683
1684/*! @function setPowerState
1685 @abstract Requests a power managed driver to change the power state of its device.
1686 @discussion A power managed driver must override <code>setPowerState</code> to take part in system power management. After a driver is registered with power management, the system uses <code>setPowerState</code> to power the device off and on for system sleep and wake.
1687 Calls to @link PMinit PMinit@/link and @link registerPowerDriver registerPowerDriver@/link enable power management to change a device's power state using <code>setPowerState</code>. <code>setPowerState</code> is called in a clean and separate thread context.
1688 @param powerStateOrdinal The number in the power state array of the state the driver is being instructed to switch to.
1689 @param whatDevice A pointer to the power management object which registered to manage power for this device. In most cases, <code>whatDevice</code> will be equal to your driver's own <code>this</code> pointer.
1690 @result The driver must return <code>IOPMAckImplied</code> if it has complied with the request when it returns. Otherwise if it has started the process of changing power state but not finished it, the driver should return a number of microseconds which is an upper limit of the time it will need to finish. Then, when it has completed the power switch, it should call @link acknowledgeSetPowerState acknowledgeSetPowerState@/link. */
1691
1692 virtual IOReturn setPowerState(
1693 unsigned long powerStateOrdinal,
1694 IOService * whatDevice );
1695
1696#ifndef __LP64__
1697/*! @function clampPowerOn
1698 @abstract Deprecated. Do not use. */
1699
1700 virtual void clampPowerOn( unsigned long duration );
1701#endif
1702
1703/*! @function maxCapabilityForDomainState
1704 @abstract Determines a driver's highest power state possible for a given power domain state.
1705 @discussion This happens when the power domain is changing state and power management needs to determine which state the device is capable of in the new domain state.
1706 Most drivers do not need to implement this method, and can rely upon the default IOService implementation. The IOService implementation scans the power state array looking for the highest state whose <code>inputPowerRequirement</code> field exactly matches the value of the <code>domainState</code> parameter. If more intelligent determination is required, the driver itself should implement the method and override the superclass's implementation.
1707 @param domainState Flags that describe the character of "domain power"; they represent the <code>outputPowerCharacter</code> field of a state in the power domain's power state array.
1708 @result A state number. */
1709
1710 virtual unsigned long maxCapabilityForDomainState( IOPMPowerFlags domainState );
1711
1712/*! @function initialPowerStateForDomainState
1713 @abstract Determines which power state a device is in, given the current power domain state.
1714 @discussion Power management calls this method once, when the driver is initializing power management.
1715 Most drivers do not need to implement this method, and can rely upon the default IOService implementation. The IOService implementation scans the power state array looking for the highest state whose <code>inputPowerRequirement</code> field exactly matches the value of the <code>domainState</code> parameter. If more intelligent determination is required, the power managed driver should implement the method and override the superclass's implementation.
1716 @param domainState Flags that describe the character of "domain power"; they represent the <code>outputPowerCharacter</code> field of a state in the power domain's power state array.
1717 @result A state number. */
1718
1719 virtual unsigned long initialPowerStateForDomainState( IOPMPowerFlags domainState );
1720
1721/*! @function powerStateForDomainState
1722 @abstract Determines what power state the device would be in for a given power domain state.
1723 @discussion This call is unused by power management. Drivers should override <code>initialPowerStateForDomainState</code> and/or <code>maxCapabilityForDomainState</code> instead to change the default mapping of domain state to driver power state.
1724 @param domainState Flags that describe the character of "domain power"; they represent the <code>outputPowerCharacter</code> field of a state in the power domain's power state array.
1725 @result A state number. */
1726
1727 virtual unsigned long powerStateForDomainState( IOPMPowerFlags domainState );
1728
1729/*! @function powerStateWillChangeTo
1730 @abstract Informs interested parties that a device is about to change its power state.
1731 @discussion Power management informs interested parties that a device is about to change to a different power state. Interested parties are those that have registered for this notification via @link registerInterestedDriver registerInterestedDriver@/link. If you have called <code>registerInterestedDriver</code> on a power managed driver, you must implement <code>powerStateWillChangeTo</code> and @link powerStateDidChangeTo powerStateDidChangeTo@/link to receive the notifications.
1732 <code>powerStateWillChangeTo</code> is called in a clean and separate thread context. <code>powerStateWillChangeTo</code> is called before a power state transition takes place; <code>powerStateDidChangeTo</code> is called after the transition has completed.
1733 @param capabilities Flags that describe the capability of the device in the new power state (they come from the <code>capabilityFlags</code> field of the new state in the power state array).
1734 @param stateNumber The number of the state in the state array that the device is switching to.
1735 @param whatDevice A pointer to the driver that is changing. It can be used by a driver that is receiving power state change notifications for multiple devices to distinguish between them.
1736 @result The driver returns <code>IOPMAckImplied</code> if it has prepared for the power change when it returns. If it has started preparing but not finished, it should return a number of microseconds which is an upper limit of the time it will need to finish preparing. Then, when it has completed its preparations, it should call @link acknowledgePowerChange acknowledgePowerChange@/link. */
1737
1738 virtual IOReturn powerStateWillChangeTo(
1739 IOPMPowerFlags capabilities,
1740 unsigned long stateNumber,
1741 IOService * whatDevice );
1742
1743/*! @function powerStateDidChangeTo
1744 @abstract Informs interested parties that a device has changed to a different power state.
1745 @discussion Power management informs interested parties that a device has changed to a different power state. Interested parties are those that have registered for this notification via @link registerInterestedDriver registerInterestedDriver@/link. If you have called <code>registerInterestedDriver</code> on a power managed driver, you must implemnt @link powerStateWillChangeTo powerStateWillChangeTo@/link and <code>powerStateDidChangeTo</code> to receive the notifications.
1746 <code>powerStateDidChangeTo</code> is called in a clean and separate thread context. <code>powerStateWillChangeTo</code> is called before a power state transition takes place; <code>powerStateDidChangeTo</code> is called after the transition has completed.
1747 @param capabilities Flags that describe the capability of the device in the new power state (they come from the <code>capabilityFlags</code> field of the new state in the power state array).
1748 @param stateNumber The number of the state in the state array that the device is switching to.
1749 @param whatDevice A pointer to the driver that is changing. It can be used by a driver that is receiving power state change notifications for multiple devices to distinguish between them.
1750 @result The driver returns <code>IOPMAckImplied</code> if it has prepared for the power change when it returns. If it has started preparing but not finished, it should return a number of microseconds which is an upper limit of the time it will need to finish preparing. Then, when it has completed its preparations, it should call @link acknowledgePowerChange acknowledgePowerChange@/link. */
1751
1752 virtual IOReturn powerStateDidChangeTo(
1753 IOPMPowerFlags capabilities,
1754 unsigned long stateNumber,
1755 IOService * whatDevice );
1756
1757#ifndef __LP64__
1758/*! @function didYouWakeSystem
1759 @abstract Asks a driver if its device is the one that just woke the system from sleep.
1760 @availability Deprecated in Mac OS X version 10.6.
1761 @discussion Power management calls a power managed driver with this method to ask if its device is the one that just woke the system from sleep. If a device is capable of waking the system from sleep, its driver should implement <code>didYouWakeSystem</code> and return <code>true</code> if its device was responsible for waking the system.
1762 @result <code>true</code> if the driver's device woke the system and <code>false</code> otherwise. */
1763
1764 virtual bool didYouWakeSystem( void )
1765 APPLE_KEXT_DEPRECATED;
1766
1767/*! @function newTemperature
1768 @abstract Tells a power managed driver that the temperature in the thermal zone has changed.
1769 @discussion This call is unused by power management. It is not intended to be called or overridden. */
1770
1771 virtual IOReturn newTemperature( long currentTemp, IOService * whichZone )
1772 APPLE_KEXT_DEPRECATED;
1773#endif
1774
1775 virtual bool askChangeDown( unsigned long );
1776 virtual bool tellChangeDown( unsigned long );
1777 virtual void tellNoChangeDown ( unsigned long );
1778 virtual void tellChangeUp( unsigned long );
1779 virtual IOReturn allowPowerChange( unsigned long refcon );
1780 virtual IOReturn cancelPowerChange( unsigned long refcon );
1781
1782protected:
1783/*! @function changePowerStateToPriv
1784 @abstract Tells a driver's superclass to change the power state of its device.
1785 @discussion A driver uses this method to tell its superclass to change the power state of the device. This is the recommended way to change the power state of a device.
1786 Three things affect driver power state: @link changePowerStateTo changePowerStateTo@/link, <code>changePowerStateToPriv</code>, and the desires of the driver's power plane children. Power management puts the device into the maximum state governed by those three entities.
1787 Drivers may eliminate the influence of the <code>changePowerStateTo</code> method on power state one of two ways. See @link powerOverrideOnPriv powerOverrideOnPriv@/link to ignore the method's influence, or call <code>changePowerStateTo(0)</code> in the driver's <code>start</code> routine to remove the <code>changePowerStateTo</code> method's power request.
1788 @param ordinal The number of the desired power state in the power state array.
1789 @result A return code that can be ignored by the caller. */
1790
1791 IOReturn changePowerStateToPriv( unsigned long ordinal );
1792
1793/*! @function powerOverrideOnPriv
1794 @abstract Allows a driver to ignore its children's power management requests and only use changePowerStateToPriv to define its own power state.
1795 @discussion Power management normally keeps a device at the highest state required by its requests via @link changePowerStateTo changePowerStateTo@/link, @link changePowerStateToPriv changePowerStateToPriv@/link, and its children. However, a driver may ensure a lower power state than otherwise required by itself and its children using <code>powerOverrideOnPriv</code>. When the override is on, power management keeps the device's power state in the state specified by <code>changePowerStateToPriv</code>. Turning on the override will initiate a power change if the driver's <code>changePowerStateToPriv</code> desired power state is different from the maximum of the <code>changePowerStateTo</code> desired power state and the children's desires.
1796 @result A return code that can be ignored by the caller. */
1797
1798 IOReturn powerOverrideOnPriv( void );
1799
1800/*! @function powerOverrideOffPriv
1801 @abstract Allows a driver to disable a power override.
1802 @discussion When a driver has enabled an override via @link powerOverrideOnPriv powerOverrideOnPriv@/link, it can disable it again by calling this method in its superclass. Disabling the override reverts to the default algorithm for determining a device's power state. The superclass will now keep the device at the highest state required by <code>changePowerStateTo</code>, <code>changePowerStateToPriv</code>, and its children. Turning off the override will initiate a power change if the driver's desired power state is different from the maximum of the power managed driver's desire and the children's desires.
1803 @result A return code that can be ignored by the caller. */
1804
1805 IOReturn powerOverrideOffPriv( void );
1806
1807/*! @function powerChangeDone
1808 @abstract Tells a driver when a power state change is complete.
1809 @discussion Power management uses this method to inform a driver when a power change is completely done, when all interested parties have acknowledged the @link powerStateDidChangeTo powerStateDidChangeTo@/link call. The default implementation of this method is null; the method is meant to be overridden by subclassed power managed drivers. A driver should use this method to find out if a power change it initiated is complete.
1810 @param stateNumber The number of the state in the state array that the device has switched from. */
1811
1812 virtual void powerChangeDone( unsigned long stateNumber );
1813#ifdef XNU_KERNEL_PRIVATE
1814 /* Power management internals */
1815public:
1816 void idleTimerExpired( void );
1817 void settleTimerExpired( void );
1818 IOReturn synchronizePowerTree( IOOptionBits options = 0, IOService * notifyRoot = 0 );
1819 bool assertPMDriverCall( IOPMDriverCallEntry * callEntry, IOOptionBits options = 0, IOPMinformee * inform = 0 );
1820 void deassertPMDriverCall( IOPMDriverCallEntry * callEntry );
1821 IOReturn changePowerStateWithOverrideTo( IOPMPowerStateIndex ordinal, IOPMRequestTag tag );
1822 IOReturn changePowerStateForRootDomain( IOPMPowerStateIndex ordinal );
1823 IOReturn setIgnoreIdleTimer( bool ignore );
1824 IOReturn quiescePowerTree( void * target, IOPMCompletionAction action, void * param );
1825 uint32_t getPowerStateForClient( const OSSymbol * client );
1826 static const char * getIOMessageString( uint32_t msg );
1827 static void setAdvisoryTickleEnable( bool enable );
1828 void reset_watchdog_timer( void );
1829 void start_watchdog_timer ( void );
1830 bool stop_watchdog_timer ( void );
1831 IOReturn registerInterestForNotifer( IONotifier *notify, const OSSymbol * typeOfInterest,
1832 IOServiceInterestHandler handler, void * target, void * ref );
1833
1834 static IOWorkLoop * getIOPMWorkloop( void );
1835
1836protected:
1837 bool tellClientsWithResponse( int messageType );
1838 void tellClients( int messageType );
1839 void PMDebug( uint32_t event, uintptr_t param1, uintptr_t param2 );
1840
1841private:
1842#ifndef __LP64__
1843 void ack_timer_ticked ( void );
1844 IOReturn serializedAllowPowerChange2 ( unsigned long );
1845 IOReturn serializedCancelPowerChange2 ( unsigned long );
1846 IOReturn powerDomainWillChangeTo( IOPMPowerFlags, IOPowerConnection * );
1847 IOReturn powerDomainDidChangeTo( IOPMPowerFlags, IOPowerConnection * );
1848#endif
1849 void PMfree( void );
1850 bool tellChangeDown1 ( unsigned long );
1851 bool tellChangeDown2 ( unsigned long );
1852 IOReturn startPowerChange( IOPMPowerChangeFlags, IOPMPowerStateIndex, IOPMPowerFlags, IOPowerConnection *, IOPMPowerFlags );
1853 void setParentInfo ( IOPMPowerFlags, IOPowerConnection *, bool );
1854 IOReturn notifyAll ( uint32_t nextMS );
1855 bool notifyChild ( IOPowerConnection * child );
1856 IOPMPowerStateIndex getPowerStateForDomainFlags( IOPMPowerFlags flags );
1857
1858 // power change initiated by driver
1859 void OurChangeStart( void );
1860 void OurSyncStart ( void );
1861 void OurChangeTellClientsPowerDown ( void );
1862 void OurChangeTellUserPMPolicyPowerDown ( void );
1863 void OurChangeTellPriorityClientsPowerDown ( void );
1864 void OurChangeTellCapabilityWillChange ( void );
1865 void OurChangeNotifyInterestedDriversWillChange ( void );
1866 void OurChangeSetPowerState ( void );
1867 void OurChangeWaitForPowerSettle ( void );
1868 void OurChangeNotifyInterestedDriversDidChange ( void );
1869 void OurChangeTellCapabilityDidChange ( void );
1870 void OurChangeFinish ( void );
1871
1872 // downward power change initiated by a power parent
1873 IOReturn ParentChangeStart( void );
1874 void ParentChangeTellPriorityClientsPowerDown ( void );
1875 void ParentChangeTellCapabilityWillChange ( void );
1876 void ParentChangeNotifyInterestedDriversWillChange ( void );
1877 void ParentChangeSetPowerState ( void );
1878 void ParentChangeWaitForPowerSettle ( void );
1879 void ParentChangeNotifyInterestedDriversDidChange ( void );
1880 void ParentChangeTellCapabilityDidChange ( void );
1881 void ParentChangeAcknowledgePowerChange ( void );
1882 void ParentChangeRootChangeDown( void );
1883
1884 void all_done ( void );
1885 void start_ack_timer ( void );
1886 void stop_ack_timer ( void );
1887 void start_ack_timer( UInt32 value, UInt32 scale );
1888 void startSettleTimer( void );
1889 void start_spindump_timer( const char * delay_type );
1890 void stop_spindump_timer( void );
1891 bool checkForDone ( void );
1892 bool responseValid ( uint32_t x, int pid );
1893 void computeDesiredState( unsigned long tempDesire, bool computeOnly );
1894 void trackSystemSleepPreventers( IOPMPowerStateIndex, IOPMPowerStateIndex, IOPMPowerChangeFlags );
1895 void tellSystemCapabilityChange( uint32_t nextMS );
1896 void restartIdleTimer( void );
1897
1898 static void ack_timer_expired( thread_call_param_t, thread_call_param_t );
1899 static void watchdog_timer_expired ( thread_call_param_t arg0, thread_call_param_t arg1 );
1900 static void spindump_timer_expired( thread_call_param_t arg0, thread_call_param_t arg1 );
1901 static IOReturn actionAckTimerExpired(OSObject *, void *, void *, void *, void * );
1902 static IOReturn actionSpinDumpTimerExpired(OSObject *, void *, void *, void *, void * );
1903
1904 static IOReturn actionDriverCalloutDone(OSObject *, void *, void *, void *, void * );
1905 static IOPMRequest * acquirePMRequest( IOService * target, IOOptionBits type, IOPMRequest * active = 0 );
1906 static void releasePMRequest( IOPMRequest * request );
1907 static void pmDriverCallout( IOService * from );
1908 static void pmTellAppWithResponse( OSObject * object, void * context );
1909 static void pmTellClientWithResponse( OSObject * object, void * context );
1910 static void pmTellCapabilityAppWithResponse ( OSObject * object, void * arg );
1911 static void pmTellCapabilityClientWithResponse( OSObject * object, void * arg );
1912 static void submitPMRequest( IOPMRequest * request );
1913 static void submitPMRequests( IOPMRequest ** request, IOItemCount count );
1914 bool ackTimerTick( void );
1915 void addPowerChild1( IOPMRequest * request );
1916 void addPowerChild2( IOPMRequest * request );
1917 void addPowerChild3( IOPMRequest * request );
1918 void adjustPowerState( uint32_t clamp = 0 );
1919 void handlePMstop( IOPMRequest * request );
1920 void handleRegisterPowerDriver( IOPMRequest * request );
1921 bool handleAcknowledgePowerChange( IOPMRequest * request );
1922 void handlePowerDomainWillChangeTo( IOPMRequest * request );
1923 void handlePowerDomainDidChangeTo( IOPMRequest * request );
1924 void handleRequestPowerState( IOPMRequest * request );
1925 void handlePowerOverrideChanged( IOPMRequest * request );
1926 void handleActivityTickle( IOPMRequest * request );
1927 void handleInterestChanged( IOPMRequest * request );
1928 void handleSynchronizePowerTree( IOPMRequest * request );
1929 void executePMRequest( IOPMRequest * request );
1930 bool actionPMWorkQueueInvoke( IOPMRequest * request, IOPMWorkQueue * queue );
1931 bool actionPMWorkQueueRetire( IOPMRequest * request, IOPMWorkQueue * queue );
1932 bool actionPMRequestQueue( IOPMRequest * request, IOPMRequestQueue * queue );
1933 bool actionPMReplyQueue( IOPMRequest * request, IOPMRequestQueue * queue );
1934 bool actionPMCompletionQueue( IOPMRequest * request, IOPMCompletionQueue * queue );
1935 bool notifyInterestedDrivers( void );
1936 void notifyInterestedDriversDone( void );
1937 bool notifyControllingDriver( void );
1938 void notifyControllingDriverDone( void );
1939 void driverSetPowerState( void );
1940 void driverInformPowerChange( void );
1941 bool isPMBlocked( IOPMRequest * request, int count );
1942 void notifyChildren( void );
1943 void notifyChildrenOrdered( void );
1944 void notifyChildrenDelayed( void );
1945 void notifyRootDomain( void );
1946 void notifyRootDomainDone( void );
1947 void cleanClientResponses ( bool logErrors );
1948 void updatePowerClient( const OSSymbol * client, uint32_t powerState );
1949 void removePowerClient( const OSSymbol * client );
1950 IOReturn requestPowerState( const OSSymbol * client, uint32_t state );
1951 IOReturn requestDomainPower( IOPMPowerStateIndex ourPowerState, IOOptionBits options = 0 );
1952 IOReturn configurePowerStatesReport( IOReportConfigureAction action, void *result );
1953 IOReturn updatePowerStatesReport( IOReportConfigureAction action, void *result, void *destination );
1954 IOReturn configureSimplePowerReport(IOReportConfigureAction action, void *result );
1955 IOReturn updateSimplePowerReport( IOReportConfigureAction action, void *result, void *destination );
1956 void waitForPMDriverCall( IOService * target = 0 );
1957#endif /* XNU_KERNEL_PRIVATE */
1958};
1959
1960#endif /* ! _IOKIT_IOSERVICE_H */