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1/*
2 * Copyright (c) 1998-2000 Apple Computer, Inc. All rights reserved.
3 *
4 * @APPLE_LICENSE_HEADER_START@
5 *
6 * The contents of this file constitute Original Code as defined in and
7 * are subject to the Apple Public Source License Version 1.1 (the
8 * "License"). You may not use this file except in compliance with the
9 * License. Please obtain a copy of the License at
10 * http://www.apple.com/publicsource and read it before using this file.
11 *
12 * This Original Code and all software distributed under the License are
13 * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER
14 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
15 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
16 * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the
17 * License for the specific language governing rights and limitations
18 * under the License.
19 *
20 * @APPLE_LICENSE_HEADER_END@
21 */
22/*
23 * Copyright (c) 1998 Apple Computer, Inc. All rights reserved.
24 *
25 * HISTORY
26 *
27 */
28
29
30#ifndef _IOKIT_IOPCIDEVICE_H
31#define _IOKIT_IOPCIDEVICE_H
32
33#include <IOKit/IOService.h>
34
35/* Definitions of PCI Config Registers */
36enum {
37 kIOPCIConfigVendorID = 0x00,
38 kIOPCIConfigDeviceID = 0x02,
39 kIOPCIConfigCommand = 0x04,
40 kIOPCIConfigStatus = 0x06,
41 kIOPCIConfigRevisionID = 0x08,
42 kIOPCIConfigClassCode = 0x09,
43 kIOPCIConfigCacheLineSize = 0x0C,
44 kIOPCIConfigLatencyTimer = 0x0D,
45 kIOPCIConfigHeaderType = 0x0E,
46 kIOPCIConfigBIST = 0x0F,
47 kIOPCIConfigBaseAddress0 = 0x10,
48 kIOPCIConfigBaseAddress1 = 0x14,
49 kIOPCIConfigBaseAddress2 = 0x18,
50 kIOPCIConfigBaseAddress3 = 0x1C,
51 kIOPCIConfigBaseAddress4 = 0x20,
52 kIOPCIConfigBaseAddress5 = 0x24,
53 kIOPCIConfigCardBusCISPtr = 0x28,
54 kIOPCIConfigSubSystemVendorID = 0x2C,
55 kIOPCIConfigSubSystemID = 0x2E,
56 kIOPCIConfigExpansionROMBase = 0x30,
57 kIOPCIConfigCapabilitiesPtr = 0x34,
58 kIOPCIConfigInterruptLine = 0x3C,
59 kIOPCIConfigInterruptPin = 0x3D,
60 kIOPCIConfigMinimumGrant = 0x3E,
61 kIOPCIConfigMaximumLatency = 0x3F
62};
63
64/* Definitions of Capabilities PCI Config Register */
65enum {
66 kIOPCICapabilityIDOffset = 0x00,
67 kIOPCINextCapabilityOffset = 0x01,
68 kIOPCIPowerManagementCapability = 0x01,
69 kIOPCIAGPCapability = 0x02
70};
71
72/* Space definitions */
73enum {
74 kIOPCIConfigSpace = 0,
75 kIOPCIIOSpace = 1,
76 kIOPCI32BitMemorySpace = 2,
77 kIOPCI64BitMemorySpace = 3
78};
79
80/* Command register definitions */
81enum {
82 kIOPCICommandIOSpace = 0x0001,
83 kIOPCICommandMemorySpace = 0x0002,
84 kIOPCICommandBusMaster = 0x0004,
85 kIOPCICommandSpecialCycles = 0x0008,
86 kIOPCICommandMemWrInvalidate = 0x0010,
87 kIOPCICommandPaletteSnoop = 0x0020,
88 kIOPCICommandParityError = 0x0040,
89 kIOPCICommandAddressStepping = 0x0080,
90 kIOPCICommandSERR = 0x0100,
91 kIOPCICommandFastBack2Back = 0x0200
92};
93
94/* Status register definitions */
95enum {
96 kIOPCIStatusCapabilities = 0x0010,
97 kIOPCIStatusPCI66 = 0x0020,
98 kIOPCIStatusUDF = 0x0040,
99 kIOPCIStatusFastBack2Back = 0x0080,
100 kIOPCIStatusDevSel0 = 0x0000,
101 kIOPCIStatusDevSel1 = 0x0200,
102 kIOPCIStatusDevSel2 = 0x0400,
103 kIOPCIStatusDevSel3 = 0x0600,
104 kIOPCIStatusTargetAbortCapable = 0x0800,
105 kIOPCIStatusTargetAbortActive = 0x1000,
106 kIOPCIStatusMasterAbortActive = 0x2000,
107 kIOPCIStatusSERRActive = 0x4000,
108 kIOPCIStatusParityErrActive = 0x8000
109};
110
111union IOPCIAddressSpace {
112 UInt32 bits;
113 struct {
114#if __BIG_ENDIAN__
115 unsigned int reloc:1;
116 unsigned int prefetch:1;
117 unsigned int t:1;
118 unsigned int resv:3;
119 unsigned int space:2;
120 unsigned int busNum:8;
121 unsigned int deviceNum:5;
122 unsigned int functionNum:3;
123 unsigned int registerNum:8;
124#elif __LITTLE_ENDIAN__
125 unsigned int registerNum:8;
126 unsigned int functionNum:3;
127 unsigned int deviceNum:5;
128 unsigned int busNum:8;
129 unsigned int space:2;
130 unsigned int resv:3;
131 unsigned int t:1;
132 unsigned int prefetch:1;
133 unsigned int reloc:1;
134#endif
135 } s;
136};
137
138struct IOPCIPhysicalAddress {
139 IOPCIAddressSpace physHi;
140 UInt32 physMid;
141 UInt32 physLo;
142 UInt32 lengthHi;
143 UInt32 lengthLo;
144};
145
146// IOPCIDevice matching property names
147#define kIOPCIMatchKey "IOPCIMatch"
148#define kIOPCIPrimaryMatchKey "IOPCIPrimaryMatch"
149#define kIOPCISecondaryMatchKey "IOPCISecondaryMatch"
150#define kIOPCIClassMatchKey "IOPCIClassMatch"
151
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152// property to control PCI default config space save on sleep
153#define kIOPMPCIConfigSpaceVolatileKey "IOPMPCIConfigSpaceVolatile"
154
155enum {
156 kIOPCIDevicePowerStateCount = 3,
157 kIOPCIDeviceOffState = 0,
158 kIOPCIDeviceOnState = 2
159};
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160
161/*! @class IOPCIDevice : public IOService
162 @abstract An IOService class representing a PCI device.
163 @discussion The discovery of an PCI device by the PCI bus family results in an instance of the IOPCIDevice being created and published. It provides services for looking up and mapping memory mapped hardware, and access to the PCI configuration and I/O spaces.
164
165<br><br>Matching Supported by IOPCIDevice<br><br>
166
167Two types of matching are available, OpenFirmware name matching and PCI register matching. Currently, only one of these two matching schemes can be used in the same property table.
168
169<br><br>OpenFirmware Name Matching<br><br>
170
171IOService performs matching based on the IONameMatch property (see IOService). IOPCIDevices created with OpenFirmware device tree entries will name match based on the standard OpenFirmware name matching properties.
172
173<br><br>PCI Register Matching<br><br>
174
175A PCI device driver can also match on the values of certain config space registers.
176
177In each case, several matching values can be specified, and an optional mask for the value of the config space register may follow the value, preceded by an '&' character.
178<br>
179<br>
180 kIOPCIMatchKey, "IOPCIMatch"
181<br>
182The kIOPCIMatchKey property matches the vendor and device ID (0x00) register, or the subsystem register (0x2c).
183<br>
184<br>
185 kIOPCIPrimaryMatchKey, "IOPCIPrimaryMatch"
186<br>
187The kIOPCIPrimaryMatchKey property matches the vendor and device ID (0x00) register.
188<br>
189<br>
190 kIOPCISecondaryMatchKey, "IOPCISecondaryMatch"
191<br>
192The kIOPCISecondaryMatchKey property matches the subsystem register (0x2c).
193<br>
194<br>
195 kIOPCIClassMatchKey, "IOPCIClassMatch"
196<br>
197The kIOPCIClassMatchKey property matches the class code register (0x08). The default mask for this register is 0xffffff00.
198<br>
199<br>
200Examples:
201<br>
202<br>
203 &ltkey&gtIOPCIMatch&lt/key&gt <br>
204 &ltstring&gt0x00261011&lt/string&gt
205<br>
206Matches a device whose vendor ID is 0x1011, and device ID is 0x0026, including subsystem IDs.
207<br>
208<br>
209 &ltkey&gtIOPCIMatch&lt/key&gt <br>
210 &ltstring&gt0x00789004&0x00ffffff 0x78009004&0x0xff00ffff&lt/string&gt
211<br>
212Matches with any device with a vendor ID of 0x9004, and a device ID of 0xzz78 or 0x78zz, where 'z' is don't care.
213<br>
214<br>
215 &ltkey&gtIOPCIClassMatch&lt/key&gt <br>
216 &ltstring&gt0x02000000&0xffff0000&lt/string&gt
217<br>
218<br>
219Matches a device whose class code is 0x0200zz, an ethernet device.
220
221*/
222
223class IOPCIDevice : public IOService
224{
225 OSDeclareDefaultStructors(IOPCIDevice)
226
227 friend class IOPCIBridge;
228 friend class IOPCI2PCIBridge;
229
230protected:
231 IOPCIBridge * parent;
232 IOMemoryMap * ioMap;
233 OSObject * slotNameProperty;
234
235/*! @struct ExpansionData
236 @discussion This structure will be used to expand the capablilties of the IOWorkLoop in the future.
237 */
238 struct ExpansionData { };
239
240/*! @var reserved
241 Reserved for future use. (Internal use only) */
242 ExpansionData *reserved;
243
244public:
245 IOPCIAddressSpace space;
246 UInt32 * savedConfig;
247
248public:
249 /* IOService/IORegistryEntry methods */
250
251 virtual bool attach( IOService * provider );
0b4e3aa0 252 virtual void detach( IOService * provider );
1c79356b 253 virtual IOReturn setPowerState( unsigned long, IOService * );
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254 virtual bool compareName( OSString * name, OSString ** matched = 0 ) const;
255 virtual bool matchPropertyTable( OSDictionary * table,
256 SInt32 * score );
257 virtual IOService * matchLocation( IOService * client );
258 virtual IOReturn getResources( void );
259
260 /* Config space accessors */
261
262 virtual UInt32 configRead32( IOPCIAddressSpace space, UInt8 offset );
263 virtual void configWrite32( IOPCIAddressSpace space,
264 UInt8 offset, UInt32 data );
265 virtual UInt16 configRead16( IOPCIAddressSpace space, UInt8 offset );
266 virtual void configWrite16( IOPCIAddressSpace space,
267 UInt8 offset, UInt16 data );
268 virtual UInt8 configRead8( IOPCIAddressSpace space, UInt8 offset );
269 virtual void configWrite8( IOPCIAddressSpace space,
270 UInt8 offset, UInt8 data );
271
272/*! @function configRead32
273 @abstract Reads a 32-bit value from the PCI device's configuration space.
274 @discussion This method reads a 32-bit configuration space register on the device and returns its value.
275 @param offset An 8-bit offset into configuration space, of which bits 0-1 are ignored.
276 @result An 32-bit value in host byte order (big endian on PPC). */
277
278 virtual UInt32 configRead32( UInt8 offset );
279
280/*! @function configRead16
281 @abstract Reads a 16-bit value from the PCI device's configuration space.
282 @discussion This method reads a 16-bit configuration space register on the device and returns its value.
283 @param offset An 8-bit offset into configuration space, of which bit 0 is ignored.
284 @result An 16-bit value in host byte order (big endian on PPC). */
285
286 virtual UInt16 configRead16( UInt8 offset );
287
288/*! @function configRead8
289 @abstract Reads a 8-bit value from the PCI device's configuration space.
290 @discussion This method reads a 8-bit configuration space register on the device and returns its value.
291 @param offset An 8-bit offset into configuration space.
292 @result An 8-bit value. */
293
294 virtual UInt8 configRead8( UInt8 offset );
295
296/*! @function configWrite32
297 @abstract Writes a 32-bit value to the PCI device's configuration space.
298 @discussion This method write a 32-bit value to a configuration space register on the device.
299 @param offset An 8-bit offset into configuration space, of which bits 0-1 are ignored.
300 @param data An 32-bit value to be written in host byte order (big endian on PPC). */
301
302 virtual void configWrite32( UInt8 offset, UInt32 data );
303
304/*! @function configWrite16
305 @abstract Writes a 16-bit value to the PCI device's configuration space.
306 @discussion This method write a 16-bit value to a configuration space register on the device.
307 @param offset An 8-bit offset into configuration space, of which bit 0 is ignored.
308 @param data An 16-bit value to be written in host byte order (big endian on PPC). */
309
310 virtual void configWrite16( UInt8 offset, UInt16 data );
311
312/*! @function configWrite8
313 @abstract Writes a 8-bit value to the PCI device's configuration space.
314 @discussion This method write a 8-bit value to a configuration space register on the device.
315 @param offset An 8-bit offset into configuration space.
316 @param data An 8-bit value to be written. */
317
318 virtual void configWrite8( UInt8 offset, UInt8 data );
319
320 virtual IOReturn saveDeviceState( IOOptionBits options = 0 );
321 virtual IOReturn restoreDeviceState( IOOptionBits options = 0 );
322
323/*! @function setConfigBits
324 @abstract Sets masked bits in a configuration space register.
325 @discussion This method sets masked bits in a configuration space register on the device by reading and writing the register. The value of the masked bits before the write is returned.
326 @param offset An 8-bit offset into configuration space, of which bits 0-1 are ignored.
327 @param mask An 32-bit mask indicating which bits in the value parameter are valid.
328 @param data An 32-bit value to be written in host byte order (big endian on PPC).
329 @result The value of the register masked with the mask before the write. */
330
331 virtual UInt32 setConfigBits( UInt8 offset, UInt32 mask, UInt32 value );
332
333/*! @function setMemoryEnable
334 @abstract Sets the device's memory space response.
335 @discussion This method sets the memory space response bit in the device's command config space register to the passed value, and returns the previous state of the enable.
336 @param enable True or false to enable or disable the memory space response.
337 @result True if the memory space response was previously enabled, false otherwise. */
338
339 virtual bool setMemoryEnable( bool enable );
340
341/*! @function setIOEnable
342 @abstract Sets the device's I/O space response.
343 @discussion This method sets the I/O space response bit in the device's command config space register to the passed value, and returns the previous state of the enable. The exclusive option allows only one exclusive device on the bus to be enabled concurrently, this should be only for temporary access.
344 @param enable True or false to enable or disable the I/O space response.
345 @param exclusive If true, only one setIOEnable with the exclusive flag set will be allowed at a time on the bus, this should be only for temporary access.
346 @result True if the I/O space response was previously enabled, false otherwise. */
347
348 virtual bool setIOEnable( bool enable, bool exclusive = false );
349
350/*! @function setBusMasterEnable
351 @abstract Sets the device's bus master enable.
352 @discussion This method sets the bus master enable bit in the device's command config space register to the passed value, and returns the previous state of the enable.
353 @param enable True or false to enable or disable bus mastering.
354 @result True if bus mastering was previously enabled, false otherwise. */
355
356 virtual bool setBusMasterEnable( bool enable );
357
358/*! @function findPCICapability
359 @abstract Search configuration space for a PCI capability register.
360 @discussion This method searchs the device's config space for a PCI capability register matching the passed capability ID, if the device supports PCI capabilities.
361 @param capabilityID An 8-bit PCI capability ID.
362 @param offset An optional pointer to return the offset into config space where the capability was found.
363 @result The 32-bit value of the capability register if one was found, zero otherwise. */
364
365 virtual UInt32 findPCICapability( UInt8 capabilityID, UInt8 * offset = 0 );
366
367/*! @function getBusNumber
368 @abstract Accessor to return the PCI device's assigned bus number.
369 @discussion This method is an accessor to return the PCI device's assigned bus number.
370 @result The 8-bit value of device's PCI bus number. */
371
372 virtual UInt8 getBusNumber( void );
373
374/*! @function getDeviceNumber
375 @abstract Accessor to return the PCI device's device number.
376 @discussion This method is an accessor to return the PCI device's device number.
377 @result The 5-bit value of device's device number. */
378
379 virtual UInt8 getDeviceNumber( void );
380
381/*! @function getFunctionNumber
382 @abstract Accessor to return the PCI device's function number.
383 @discussion This method is an accessor to return the PCI device's function number.
384 @result The 3-bit value of device's function number. */
385
386 virtual UInt8 getFunctionNumber( void );
387
388 /* Device memory accessors */
389
390/*! @function getDeviceMemoryWithRegister
391 @abstract Returns an instance of IODeviceMemory representing one of the device's memory mapped ranges.
392 @discussion This method will return a pointer to an instance of IODeviceMemory for the physical memory range that was assigned to the configuration space base address register passed in. It is analogous to IOService::getDeviceMemoryWithIndex.
393 @param reg The 8-bit configuration space register that is the base address register for the desired range.
394 @result A pointer to an instance of IODeviceMemory, or zero no such range was found. 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. */
395
396 virtual IODeviceMemory * getDeviceMemoryWithRegister( UInt8 reg );
397
398/*! @function mapDeviceMemoryWithRegister
399 @abstract Maps a physical range of the device.
400 @discussion This method will create a mapping for the IODeviceMemory for the physical memory range that was assigned to the configuration space base address register passed in, with IODeviceMemory::map(options). The mapping is represented by the returned instance of IOMemoryMap, which should not be released until the mapping is no longer required. This method is analogous to IOService::mapDeviceMemoryWithIndex.
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401 @param reg The 8-bit configuration space register that is the base address register for the desired range.
402 @param options Options to be passed to the IOMemoryDescriptor::map() method.
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403 @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. */
404
405 virtual IOMemoryMap * mapDeviceMemoryWithRegister( UInt8 reg,
406 IOOptionBits options = 0 );
407
408/*! @function ioDeviceMemory
409 @abstract Accessor to the I/O space aperture for the bus.
410 @discussion This method will return a reference to the IODeviceMemory for the I/O aperture of the bus the device is on.
411 @result A pointer to an IODeviceMemory object for the I/O aperture. 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. */
412
413 virtual IODeviceMemory * ioDeviceMemory( void );
414
415 /* I/O space accessors */
416
417/*! @function ioWrite32
418 @abstract Writes a 32-bit value to an I/O space aperture.
419 @discussion This method will write a 32-bit value to a 4 byte aligned offset in an I/O space aperture. If a map object is passed in, the value is written relative to it, otherwise to the value is written relative to the I/O space aperture for the bus. This function encapsulates the differences between architectures in generating I/O space operations. An eieio instruction is included on PPC.
420 @param offset An offset into a bus or device's I/O space aperture.
421 @param value The value to be written in host byte order (big endian on PPC).
422 @param map If the offset is relative to the beginning of a device's aperture, an IOMemoryMap object for that object should be passed in. Otherwise, passing zero will write the value relative to the beginning of the bus' I/O space. */
423
424 virtual void ioWrite32( UInt16 offset, UInt32 value,
425 IOMemoryMap * map = 0 );
426
427/*! @function ioWrite16
428 @abstract Writes a 16-bit value to an I/O space aperture.
429 @discussion This method will write a 16-bit value to a 2 byte aligned offset in an I/O space aperture. If a map object is passed in, the value is written relative to it, otherwise to the value is written relative to the I/O space aperture for the bus. This function encapsulates the differences between architectures in generating I/O space operations. An eieio instruction is included on PPC.
430 @param offset An offset into a bus or device's I/O space aperture.
431 @param value The value to be written in host byte order (big endian on PPC).
432 @param map If the offset is relative to the beginning of a device's aperture, an IOMemoryMap object for that object should be passed in. Otherwise, passing zero will write the value relative to the beginning of the bus' I/O space. */
433
434 virtual void ioWrite16( UInt16 offset, UInt16 value,
435 IOMemoryMap * map = 0 );
436
437/*! @function ioWrite8
438 @abstract Writes a 8-bit value to an I/O space aperture.
439 @discussion This method will write a 8-bit value to an offset in an I/O space aperture. If a map object is passed in, the value is written relative to it, otherwise to the value is written relative to the I/O space aperture for the bus. This function encapsulates the differences between architectures in generating I/O space operations. An eieio instruction is included on PPC.
440 @param offset An offset into a bus or device's I/O space aperture.
441 @param value The value to be written in host byte order (big endian on PPC).
442 @param map If the offset is relative to the beginning of a device's aperture, an IOMemoryMap object for that object should be passed in. Otherwise, passing zero will write the value relative to the beginning of the bus' I/O space. */
443
444 virtual void ioWrite8( UInt16 offset, UInt8 value,
445 IOMemoryMap * map = 0 );
446
447/*! @function ioRead32
448 @abstract Reads a 32-bit value from an I/O space aperture.
449 @discussion This method will read a 32-bit value from a 4 byte aligned offset in an I/O space aperture. If a map object is passed in, the value is read relative to it, otherwise to the value is read relative to the I/O space aperture for the bus. This function encapsulates the differences between architectures in generating I/O space operations. An eieio instruction is included on PPC.
450 @param offset An offset into a bus or device's I/O space aperture.
451 @param map If the offset is relative to the beginning of a device's aperture, an IOMemoryMap object for that object should be passed in. Otherwise, passing zero will write the value relative to the beginning of the bus' I/O space.
452 @result The value read in host byte order (big endian on PPC). */
453
454 virtual UInt32 ioRead32( UInt16 offset, IOMemoryMap * map = 0 );
455
456/*! @function ioRead16
457 @abstract Reads a 16-bit value from an I/O space aperture.
458 @discussion This method will read a 16-bit value from a 2 byte aligned offset in an I/O space aperture. If a map object is passed in, the value is read relative to it, otherwise to the value is read relative to the I/O space aperture for the bus. This function encapsulates the differences between architectures in generating I/O space operations. An eieio instruction is included on PPC.
459 @param offset An offset into a bus or device's I/O space aperture.
460 @param map If the offset is relative to the beginning of a device's aperture, an IOMemoryMap object for that object should be passed in. Otherwise, passing zero will write the value relative to the beginning of the bus' I/O space.
461 @result The value read in host byte order (big endian on PPC). */
462
463 virtual UInt16 ioRead16( UInt16 offset, IOMemoryMap * map = 0 );
464
465/*! @function ioRead8
466 @abstract Reads a 8-bit value from an I/O space aperture.
467 @discussion This method will read a 8-bit value from an offset in an I/O space aperture. If a map object is passed in, the value is read relative to it, otherwise to the value is read relative to the I/O space aperture for the bus. This function encapsulates the differences between architectures in generating I/O space operations. An eieio instruction is included on PPC.
468 @param offset An offset into a bus or device's I/O space aperture.
469 @param map If the offset is relative to the beginning of a device's aperture, an IOMemoryMap object for that object should be passed in. Otherwise, passing zero will write the value relative to the beginning of the bus' I/O space.
470 @result The value read. */
471
472 virtual UInt8 ioRead8( UInt16 offset, IOMemoryMap * map = 0 );
473
474 // Unused Padding
475 OSMetaClassDeclareReservedUnused(IOPCIDevice, 0);
476 OSMetaClassDeclareReservedUnused(IOPCIDevice, 1);
477 OSMetaClassDeclareReservedUnused(IOPCIDevice, 2);
478 OSMetaClassDeclareReservedUnused(IOPCIDevice, 3);
479 OSMetaClassDeclareReservedUnused(IOPCIDevice, 4);
480 OSMetaClassDeclareReservedUnused(IOPCIDevice, 5);
481 OSMetaClassDeclareReservedUnused(IOPCIDevice, 6);
482 OSMetaClassDeclareReservedUnused(IOPCIDevice, 7);
483 OSMetaClassDeclareReservedUnused(IOPCIDevice, 8);
484 OSMetaClassDeclareReservedUnused(IOPCIDevice, 9);
485 OSMetaClassDeclareReservedUnused(IOPCIDevice, 10);
486 OSMetaClassDeclareReservedUnused(IOPCIDevice, 11);
487 OSMetaClassDeclareReservedUnused(IOPCIDevice, 12);
488 OSMetaClassDeclareReservedUnused(IOPCIDevice, 13);
489 OSMetaClassDeclareReservedUnused(IOPCIDevice, 14);
490 OSMetaClassDeclareReservedUnused(IOPCIDevice, 15);
491};
492
493#endif /* ! _IOKIT_IOPCIDEVICE_H */
494