1*19c3b8c2SApple OSS Distributions /*
2*19c3b8c2SApple OSS Distributions * Copyright (c) 1998-2000 Apple Computer, Inc. All rights reserved.
3*19c3b8c2SApple OSS Distributions *
4*19c3b8c2SApple OSS Distributions * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
5*19c3b8c2SApple OSS Distributions *
6*19c3b8c2SApple OSS Distributions * This file contains Original Code and/or Modifications of Original Code
7*19c3b8c2SApple OSS Distributions * as defined in and that are subject to the Apple Public Source License
8*19c3b8c2SApple OSS Distributions * Version 2.0 (the 'License'). You may not use this file except in
9*19c3b8c2SApple OSS Distributions * compliance with the License. The rights granted to you under the License
10*19c3b8c2SApple OSS Distributions * may not be used to create, or enable the creation or redistribution of,
11*19c3b8c2SApple OSS Distributions * unlawful or unlicensed copies of an Apple operating system, or to
12*19c3b8c2SApple OSS Distributions * circumvent, violate, or enable the circumvention or violation of, any
13*19c3b8c2SApple OSS Distributions * terms of an Apple operating system software license agreement.
14*19c3b8c2SApple OSS Distributions *
15*19c3b8c2SApple OSS Distributions * Please obtain a copy of the License at
16*19c3b8c2SApple OSS Distributions * http://www.opensource.apple.com/apsl/ and read it before using this file.
17*19c3b8c2SApple OSS Distributions *
18*19c3b8c2SApple OSS Distributions * The Original Code and all software distributed under the License are
19*19c3b8c2SApple OSS Distributions * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
20*19c3b8c2SApple OSS Distributions * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
21*19c3b8c2SApple OSS Distributions * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
22*19c3b8c2SApple OSS Distributions * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
23*19c3b8c2SApple OSS Distributions * Please see the License for the specific language governing rights and
24*19c3b8c2SApple OSS Distributions * limitations under the License.
25*19c3b8c2SApple OSS Distributions *
26*19c3b8c2SApple OSS Distributions * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
27*19c3b8c2SApple OSS Distributions */
28*19c3b8c2SApple OSS Distributions
29*19c3b8c2SApple OSS Distributions #include <IOKit/IOLib.h>
30*19c3b8c2SApple OSS Distributions #include <IOKit/IOMultiMemoryDescriptor.h>
31*19c3b8c2SApple OSS Distributions
32*19c3b8c2SApple OSS Distributions #define super IOMemoryDescriptor
OSDefineMetaClassAndStructors(IOMultiMemoryDescriptor,IOMemoryDescriptor)33*19c3b8c2SApple OSS Distributions OSDefineMetaClassAndStructors(IOMultiMemoryDescriptor, IOMemoryDescriptor)
34*19c3b8c2SApple OSS Distributions
35*19c3b8c2SApple OSS Distributions IOMultiMemoryDescriptor * IOMultiMemoryDescriptor::withDescriptors(
36*19c3b8c2SApple OSS Distributions IOMemoryDescriptor * *descriptors,
37*19c3b8c2SApple OSS Distributions UInt32 withCount,
38*19c3b8c2SApple OSS Distributions IODirection withDirection,
39*19c3b8c2SApple OSS Distributions bool asReference )
40*19c3b8c2SApple OSS Distributions {
41*19c3b8c2SApple OSS Distributions //
42*19c3b8c2SApple OSS Distributions // Create a new IOMultiMemoryDescriptor. The "buffer" is made up of several
43*19c3b8c2SApple OSS Distributions // memory descriptors, that are to be chained end-to-end to make up a single
44*19c3b8c2SApple OSS Distributions // memory descriptor.
45*19c3b8c2SApple OSS Distributions //
46*19c3b8c2SApple OSS Distributions // Passing the ranges as a reference will avoid an extra allocation.
47*19c3b8c2SApple OSS Distributions //
48*19c3b8c2SApple OSS Distributions
49*19c3b8c2SApple OSS Distributions IOMultiMemoryDescriptor * me = new IOMultiMemoryDescriptor;
50*19c3b8c2SApple OSS Distributions
51*19c3b8c2SApple OSS Distributions if (me && me->initWithDescriptors(
52*19c3b8c2SApple OSS Distributions /* descriptors */ descriptors,
53*19c3b8c2SApple OSS Distributions /* withCount */ withCount,
54*19c3b8c2SApple OSS Distributions /* withDirection */ withDirection,
55*19c3b8c2SApple OSS Distributions /* asReference */ asReference ) == false) {
56*19c3b8c2SApple OSS Distributions me->release();
57*19c3b8c2SApple OSS Distributions me = NULL;
58*19c3b8c2SApple OSS Distributions }
59*19c3b8c2SApple OSS Distributions
60*19c3b8c2SApple OSS Distributions return me;
61*19c3b8c2SApple OSS Distributions }
62*19c3b8c2SApple OSS Distributions
63*19c3b8c2SApple OSS Distributions bool
initWithDescriptors(IOMemoryDescriptor ** descriptors,UInt32 withCount,IODirection withDirection,bool asReference)64*19c3b8c2SApple OSS Distributions IOMultiMemoryDescriptor::initWithDescriptors(
65*19c3b8c2SApple OSS Distributions IOMemoryDescriptor ** descriptors,
66*19c3b8c2SApple OSS Distributions UInt32 withCount,
67*19c3b8c2SApple OSS Distributions IODirection withDirection,
68*19c3b8c2SApple OSS Distributions bool asReference )
69*19c3b8c2SApple OSS Distributions {
70*19c3b8c2SApple OSS Distributions unsigned index;
71*19c3b8c2SApple OSS Distributions IOOptionBits copyFlags;
72*19c3b8c2SApple OSS Distributions //
73*19c3b8c2SApple OSS Distributions // Initialize an IOMultiMemoryDescriptor. The "buffer" is made up of several
74*19c3b8c2SApple OSS Distributions // memory descriptors, that are to be chained end-to-end to make up a single
75*19c3b8c2SApple OSS Distributions // memory descriptor.
76*19c3b8c2SApple OSS Distributions //
77*19c3b8c2SApple OSS Distributions // Passing the ranges as a reference will avoid an extra allocation.
78*19c3b8c2SApple OSS Distributions //
79*19c3b8c2SApple OSS Distributions
80*19c3b8c2SApple OSS Distributions assert(descriptors);
81*19c3b8c2SApple OSS Distributions
82*19c3b8c2SApple OSS Distributions // Release existing descriptors, if any
83*19c3b8c2SApple OSS Distributions if (_descriptors) {
84*19c3b8c2SApple OSS Distributions for (unsigned index = 0; index < _descriptorsCount; index++) {
85*19c3b8c2SApple OSS Distributions _descriptors[index]->release();
86*19c3b8c2SApple OSS Distributions }
87*19c3b8c2SApple OSS Distributions
88*19c3b8c2SApple OSS Distributions if (_descriptorsIsAllocated) {
89*19c3b8c2SApple OSS Distributions IODelete(_descriptors, IOMemoryDescriptor *, _descriptorsCount);
90*19c3b8c2SApple OSS Distributions }
91*19c3b8c2SApple OSS Distributions } else {
92*19c3b8c2SApple OSS Distributions // Ask our superclass' opinion.
93*19c3b8c2SApple OSS Distributions if (super::init() == false) {
94*19c3b8c2SApple OSS Distributions return false;
95*19c3b8c2SApple OSS Distributions }
96*19c3b8c2SApple OSS Distributions }
97*19c3b8c2SApple OSS Distributions
98*19c3b8c2SApple OSS Distributions // Initialize our minimal state.
99*19c3b8c2SApple OSS Distributions
100*19c3b8c2SApple OSS Distributions _descriptors = NULL;
101*19c3b8c2SApple OSS Distributions _descriptorsCount = withCount;
102*19c3b8c2SApple OSS Distributions _descriptorsIsAllocated = asReference ? false : true;
103*19c3b8c2SApple OSS Distributions _flags = withDirection;
104*19c3b8c2SApple OSS Distributions #ifndef __LP64__
105*19c3b8c2SApple OSS Distributions _direction = (IODirection) (_flags & kIOMemoryDirectionMask);
106*19c3b8c2SApple OSS Distributions #endif /* !__LP64__ */
107*19c3b8c2SApple OSS Distributions _length = 0;
108*19c3b8c2SApple OSS Distributions _mappings = NULL;
109*19c3b8c2SApple OSS Distributions _tag = 0;
110*19c3b8c2SApple OSS Distributions
111*19c3b8c2SApple OSS Distributions if (asReference) {
112*19c3b8c2SApple OSS Distributions _descriptors = descriptors;
113*19c3b8c2SApple OSS Distributions } else {
114*19c3b8c2SApple OSS Distributions _descriptors = IONew(IOMemoryDescriptor *, withCount);
115*19c3b8c2SApple OSS Distributions if (_descriptors == NULL) {
116*19c3b8c2SApple OSS Distributions return false;
117*19c3b8c2SApple OSS Distributions }
118*19c3b8c2SApple OSS Distributions
119*19c3b8c2SApple OSS Distributions bcopy( /* from */ descriptors,
120*19c3b8c2SApple OSS Distributions /* to */ _descriptors,
121*19c3b8c2SApple OSS Distributions /* bytes */ withCount * sizeof(IOMemoryDescriptor *));
122*19c3b8c2SApple OSS Distributions }
123*19c3b8c2SApple OSS Distributions
124*19c3b8c2SApple OSS Distributions for (index = 0; index < withCount; index++) {
125*19c3b8c2SApple OSS Distributions descriptors[index]->retain();
126*19c3b8c2SApple OSS Distributions _length += descriptors[index]->getLength();
127*19c3b8c2SApple OSS Distributions if (_tag == 0) {
128*19c3b8c2SApple OSS Distributions _tag = descriptors[index]->getTag();
129*19c3b8c2SApple OSS Distributions }
130*19c3b8c2SApple OSS Distributions assert(descriptors[index]->getDirection() ==
131*19c3b8c2SApple OSS Distributions (withDirection & kIOMemoryDirectionMask));
132*19c3b8c2SApple OSS Distributions }
133*19c3b8c2SApple OSS Distributions
134*19c3b8c2SApple OSS Distributions enum { kCopyFlags = kIOMemoryBufferPageable };
135*19c3b8c2SApple OSS Distributions copyFlags = 0;
136*19c3b8c2SApple OSS Distributions for (index = 0; index < withCount; index++) {
137*19c3b8c2SApple OSS Distributions if (!index) {
138*19c3b8c2SApple OSS Distributions copyFlags = (kCopyFlags & descriptors[index]->_flags);
139*19c3b8c2SApple OSS Distributions } else if (copyFlags != (kCopyFlags & descriptors[index]->_flags)) {
140*19c3b8c2SApple OSS Distributions break;
141*19c3b8c2SApple OSS Distributions }
142*19c3b8c2SApple OSS Distributions }
143*19c3b8c2SApple OSS Distributions if (index < withCount) {
144*19c3b8c2SApple OSS Distributions return false;
145*19c3b8c2SApple OSS Distributions }
146*19c3b8c2SApple OSS Distributions _flags |= copyFlags;
147*19c3b8c2SApple OSS Distributions
148*19c3b8c2SApple OSS Distributions return true;
149*19c3b8c2SApple OSS Distributions }
150*19c3b8c2SApple OSS Distributions
151*19c3b8c2SApple OSS Distributions void
free()152*19c3b8c2SApple OSS Distributions IOMultiMemoryDescriptor::free()
153*19c3b8c2SApple OSS Distributions {
154*19c3b8c2SApple OSS Distributions //
155*19c3b8c2SApple OSS Distributions // Free all of this object's outstanding resources.
156*19c3b8c2SApple OSS Distributions //
157*19c3b8c2SApple OSS Distributions
158*19c3b8c2SApple OSS Distributions if (_descriptors) {
159*19c3b8c2SApple OSS Distributions for (unsigned index = 0; index < _descriptorsCount; index++) {
160*19c3b8c2SApple OSS Distributions _descriptors[index]->release();
161*19c3b8c2SApple OSS Distributions }
162*19c3b8c2SApple OSS Distributions
163*19c3b8c2SApple OSS Distributions if (_descriptorsIsAllocated) {
164*19c3b8c2SApple OSS Distributions IODelete(_descriptors, IOMemoryDescriptor *, _descriptorsCount);
165*19c3b8c2SApple OSS Distributions }
166*19c3b8c2SApple OSS Distributions }
167*19c3b8c2SApple OSS Distributions
168*19c3b8c2SApple OSS Distributions super::free();
169*19c3b8c2SApple OSS Distributions }
170*19c3b8c2SApple OSS Distributions
171*19c3b8c2SApple OSS Distributions IOReturn
prepare(IODirection forDirection)172*19c3b8c2SApple OSS Distributions IOMultiMemoryDescriptor::prepare(IODirection forDirection)
173*19c3b8c2SApple OSS Distributions {
174*19c3b8c2SApple OSS Distributions //
175*19c3b8c2SApple OSS Distributions // Prepare the memory for an I/O transfer.
176*19c3b8c2SApple OSS Distributions //
177*19c3b8c2SApple OSS Distributions // This involves paging in the memory and wiring it down for the duration
178*19c3b8c2SApple OSS Distributions // of the transfer. The complete() method finishes the processing of the
179*19c3b8c2SApple OSS Distributions // memory after the I/O transfer finishes.
180*19c3b8c2SApple OSS Distributions //
181*19c3b8c2SApple OSS Distributions
182*19c3b8c2SApple OSS Distributions unsigned index;
183*19c3b8c2SApple OSS Distributions IOReturn status = kIOReturnInternalError;
184*19c3b8c2SApple OSS Distributions IOReturn statusUndo;
185*19c3b8c2SApple OSS Distributions
186*19c3b8c2SApple OSS Distributions if (forDirection == kIODirectionNone) {
187*19c3b8c2SApple OSS Distributions forDirection = getDirection();
188*19c3b8c2SApple OSS Distributions }
189*19c3b8c2SApple OSS Distributions
190*19c3b8c2SApple OSS Distributions for (index = 0; index < _descriptorsCount; index++) {
191*19c3b8c2SApple OSS Distributions status = _descriptors[index]->prepare(forDirection);
192*19c3b8c2SApple OSS Distributions if (status != kIOReturnSuccess) {
193*19c3b8c2SApple OSS Distributions break;
194*19c3b8c2SApple OSS Distributions }
195*19c3b8c2SApple OSS Distributions }
196*19c3b8c2SApple OSS Distributions
197*19c3b8c2SApple OSS Distributions if (status != kIOReturnSuccess) {
198*19c3b8c2SApple OSS Distributions for (unsigned indexUndo = 0; indexUndo < index; indexUndo++) {
199*19c3b8c2SApple OSS Distributions statusUndo = _descriptors[indexUndo]->complete(forDirection);
200*19c3b8c2SApple OSS Distributions assert(statusUndo == kIOReturnSuccess);
201*19c3b8c2SApple OSS Distributions }
202*19c3b8c2SApple OSS Distributions }
203*19c3b8c2SApple OSS Distributions
204*19c3b8c2SApple OSS Distributions return status;
205*19c3b8c2SApple OSS Distributions }
206*19c3b8c2SApple OSS Distributions
207*19c3b8c2SApple OSS Distributions IOReturn
complete(IODirection forDirection)208*19c3b8c2SApple OSS Distributions IOMultiMemoryDescriptor::complete(IODirection forDirection)
209*19c3b8c2SApple OSS Distributions {
210*19c3b8c2SApple OSS Distributions //
211*19c3b8c2SApple OSS Distributions // Complete processing of the memory after an I/O transfer finishes.
212*19c3b8c2SApple OSS Distributions //
213*19c3b8c2SApple OSS Distributions // This method shouldn't be called unless a prepare() was previously issued;
214*19c3b8c2SApple OSS Distributions // the prepare() and complete() must occur in pairs, before and after an I/O
215*19c3b8c2SApple OSS Distributions // transfer.
216*19c3b8c2SApple OSS Distributions //
217*19c3b8c2SApple OSS Distributions
218*19c3b8c2SApple OSS Distributions IOReturn status;
219*19c3b8c2SApple OSS Distributions IOReturn statusFinal = kIOReturnSuccess;
220*19c3b8c2SApple OSS Distributions
221*19c3b8c2SApple OSS Distributions if (forDirection == kIODirectionNone) {
222*19c3b8c2SApple OSS Distributions forDirection = getDirection();
223*19c3b8c2SApple OSS Distributions }
224*19c3b8c2SApple OSS Distributions
225*19c3b8c2SApple OSS Distributions for (unsigned index = 0; index < _descriptorsCount; index++) {
226*19c3b8c2SApple OSS Distributions status = _descriptors[index]->complete(forDirection);
227*19c3b8c2SApple OSS Distributions if (status != kIOReturnSuccess) {
228*19c3b8c2SApple OSS Distributions statusFinal = status;
229*19c3b8c2SApple OSS Distributions }
230*19c3b8c2SApple OSS Distributions assert(status == kIOReturnSuccess);
231*19c3b8c2SApple OSS Distributions }
232*19c3b8c2SApple OSS Distributions
233*19c3b8c2SApple OSS Distributions return statusFinal;
234*19c3b8c2SApple OSS Distributions }
235*19c3b8c2SApple OSS Distributions
236*19c3b8c2SApple OSS Distributions addr64_t
getPhysicalSegment(IOByteCount offset,IOByteCount * length,IOOptionBits options)237*19c3b8c2SApple OSS Distributions IOMultiMemoryDescriptor::getPhysicalSegment(IOByteCount offset,
238*19c3b8c2SApple OSS Distributions IOByteCount * length,
239*19c3b8c2SApple OSS Distributions IOOptionBits options)
240*19c3b8c2SApple OSS Distributions {
241*19c3b8c2SApple OSS Distributions //
242*19c3b8c2SApple OSS Distributions // This method returns the physical address of the byte at the given offset
243*19c3b8c2SApple OSS Distributions // into the memory, and optionally the length of the physically contiguous
244*19c3b8c2SApple OSS Distributions // segment from that offset.
245*19c3b8c2SApple OSS Distributions //
246*19c3b8c2SApple OSS Distributions
247*19c3b8c2SApple OSS Distributions assert(offset <= _length);
248*19c3b8c2SApple OSS Distributions
249*19c3b8c2SApple OSS Distributions for (unsigned index = 0; index < _descriptorsCount; index++) {
250*19c3b8c2SApple OSS Distributions if (offset < _descriptors[index]->getLength()) {
251*19c3b8c2SApple OSS Distributions return _descriptors[index]->getPhysicalSegment(offset, length, options);
252*19c3b8c2SApple OSS Distributions }
253*19c3b8c2SApple OSS Distributions offset -= _descriptors[index]->getLength();
254*19c3b8c2SApple OSS Distributions }
255*19c3b8c2SApple OSS Distributions
256*19c3b8c2SApple OSS Distributions if (length) {
257*19c3b8c2SApple OSS Distributions *length = 0;
258*19c3b8c2SApple OSS Distributions }
259*19c3b8c2SApple OSS Distributions
260*19c3b8c2SApple OSS Distributions return 0;
261*19c3b8c2SApple OSS Distributions }
262*19c3b8c2SApple OSS Distributions
263*19c3b8c2SApple OSS Distributions #include "IOKitKernelInternal.h"
264*19c3b8c2SApple OSS Distributions
265*19c3b8c2SApple OSS Distributions IOReturn
doMap(vm_map_t __addressMap,IOVirtualAddress * __address,IOOptionBits options,IOByteCount __offset,IOByteCount __length)266*19c3b8c2SApple OSS Distributions IOMultiMemoryDescriptor::doMap(vm_map_t __addressMap,
267*19c3b8c2SApple OSS Distributions IOVirtualAddress * __address,
268*19c3b8c2SApple OSS Distributions IOOptionBits options,
269*19c3b8c2SApple OSS Distributions IOByteCount __offset,
270*19c3b8c2SApple OSS Distributions IOByteCount __length)
271*19c3b8c2SApple OSS Distributions {
272*19c3b8c2SApple OSS Distributions IOMemoryMap * mapping = (IOMemoryMap *) *__address;
273*19c3b8c2SApple OSS Distributions vm_map_t map = mapping->fAddressMap;
274*19c3b8c2SApple OSS Distributions mach_vm_size_t offset = mapping->fOffset;
275*19c3b8c2SApple OSS Distributions mach_vm_size_t length = mapping->fLength;
276*19c3b8c2SApple OSS Distributions mach_vm_address_t address = mapping->fAddress;
277*19c3b8c2SApple OSS Distributions
278*19c3b8c2SApple OSS Distributions kern_return_t err;
279*19c3b8c2SApple OSS Distributions IOOptionBits subOptions;
280*19c3b8c2SApple OSS Distributions mach_vm_size_t mapOffset;
281*19c3b8c2SApple OSS Distributions mach_vm_size_t bytesRemaining, chunk;
282*19c3b8c2SApple OSS Distributions mach_vm_address_t nextAddress;
283*19c3b8c2SApple OSS Distributions IOMemoryDescriptorMapAllocRef ref;
284*19c3b8c2SApple OSS Distributions vm_prot_t prot;
285*19c3b8c2SApple OSS Distributions
286*19c3b8c2SApple OSS Distributions do{
287*19c3b8c2SApple OSS Distributions prot = VM_PROT_READ;
288*19c3b8c2SApple OSS Distributions if (!(kIOMapReadOnly & options)) {
289*19c3b8c2SApple OSS Distributions prot |= VM_PROT_WRITE;
290*19c3b8c2SApple OSS Distributions }
291*19c3b8c2SApple OSS Distributions
292*19c3b8c2SApple OSS Distributions if (kIOMapOverwrite & options) {
293*19c3b8c2SApple OSS Distributions if ((map == kernel_map) && (kIOMemoryBufferPageable & _flags)) {
294*19c3b8c2SApple OSS Distributions map = IOPageableMapForAddress(address);
295*19c3b8c2SApple OSS Distributions }
296*19c3b8c2SApple OSS Distributions err = KERN_SUCCESS;
297*19c3b8c2SApple OSS Distributions } else {
298*19c3b8c2SApple OSS Distributions ref.map = map;
299*19c3b8c2SApple OSS Distributions ref.tag = IOMemoryTag(map);
300*19c3b8c2SApple OSS Distributions ref.options = options;
301*19c3b8c2SApple OSS Distributions ref.size = length;
302*19c3b8c2SApple OSS Distributions ref.prot = prot;
303*19c3b8c2SApple OSS Distributions if (options & kIOMapAnywhere) {
304*19c3b8c2SApple OSS Distributions // vm_map looks for addresses above here, even when VM_FLAGS_ANYWHERE
305*19c3b8c2SApple OSS Distributions ref.mapped = 0;
306*19c3b8c2SApple OSS Distributions } else {
307*19c3b8c2SApple OSS Distributions ref.mapped = mapping->fAddress;
308*19c3b8c2SApple OSS Distributions }
309*19c3b8c2SApple OSS Distributions
310*19c3b8c2SApple OSS Distributions if ((ref.map == kernel_map) && (kIOMemoryBufferPageable & _flags)) {
311*19c3b8c2SApple OSS Distributions err = IOIteratePageableMaps(ref.size, &IOMemoryDescriptorMapAlloc, &ref);
312*19c3b8c2SApple OSS Distributions } else {
313*19c3b8c2SApple OSS Distributions err = IOMemoryDescriptorMapAlloc(ref.map, &ref);
314*19c3b8c2SApple OSS Distributions }
315*19c3b8c2SApple OSS Distributions
316*19c3b8c2SApple OSS Distributions if (KERN_SUCCESS != err) {
317*19c3b8c2SApple OSS Distributions break;
318*19c3b8c2SApple OSS Distributions }
319*19c3b8c2SApple OSS Distributions
320*19c3b8c2SApple OSS Distributions address = ref.mapped;
321*19c3b8c2SApple OSS Distributions mapping->fAddress = address;
322*19c3b8c2SApple OSS Distributions }
323*19c3b8c2SApple OSS Distributions
324*19c3b8c2SApple OSS Distributions mapOffset = offset;
325*19c3b8c2SApple OSS Distributions bytesRemaining = length;
326*19c3b8c2SApple OSS Distributions nextAddress = address;
327*19c3b8c2SApple OSS Distributions assert(mapOffset <= _length);
328*19c3b8c2SApple OSS Distributions subOptions = (options & ~kIOMapAnywhere) | kIOMapOverwrite;
329*19c3b8c2SApple OSS Distributions
330*19c3b8c2SApple OSS Distributions for (unsigned index = 0; bytesRemaining && (index < _descriptorsCount); index++) {
331*19c3b8c2SApple OSS Distributions chunk = _descriptors[index]->getLength();
332*19c3b8c2SApple OSS Distributions if (mapOffset >= chunk) {
333*19c3b8c2SApple OSS Distributions mapOffset -= chunk;
334*19c3b8c2SApple OSS Distributions continue;
335*19c3b8c2SApple OSS Distributions }
336*19c3b8c2SApple OSS Distributions chunk -= mapOffset;
337*19c3b8c2SApple OSS Distributions if (chunk > bytesRemaining) {
338*19c3b8c2SApple OSS Distributions chunk = bytesRemaining;
339*19c3b8c2SApple OSS Distributions }
340*19c3b8c2SApple OSS Distributions IOMemoryMap * subMap;
341*19c3b8c2SApple OSS Distributions subMap = _descriptors[index]->createMappingInTask(mapping->fAddressTask, nextAddress, subOptions, mapOffset, chunk );
342*19c3b8c2SApple OSS Distributions if (!subMap) {
343*19c3b8c2SApple OSS Distributions break;
344*19c3b8c2SApple OSS Distributions }
345*19c3b8c2SApple OSS Distributions subMap->release(); // kIOMapOverwrite means it will not deallocate
346*19c3b8c2SApple OSS Distributions
347*19c3b8c2SApple OSS Distributions bytesRemaining -= chunk;
348*19c3b8c2SApple OSS Distributions nextAddress += chunk;
349*19c3b8c2SApple OSS Distributions mapOffset = 0;
350*19c3b8c2SApple OSS Distributions }
351*19c3b8c2SApple OSS Distributions if (bytesRemaining) {
352*19c3b8c2SApple OSS Distributions err = kIOReturnUnderrun;
353*19c3b8c2SApple OSS Distributions }
354*19c3b8c2SApple OSS Distributions }while (false);
355*19c3b8c2SApple OSS Distributions
356*19c3b8c2SApple OSS Distributions if (kIOReturnSuccess == err) {
357*19c3b8c2SApple OSS Distributions #if IOTRACKING
358*19c3b8c2SApple OSS Distributions IOTrackingAddUser(gIOMapTracking, &mapping->fTracking, mapping->fLength);
359*19c3b8c2SApple OSS Distributions #endif
360*19c3b8c2SApple OSS Distributions }
361*19c3b8c2SApple OSS Distributions
362*19c3b8c2SApple OSS Distributions return err;
363*19c3b8c2SApple OSS Distributions }
364*19c3b8c2SApple OSS Distributions
365*19c3b8c2SApple OSS Distributions IOReturn
setPurgeable(IOOptionBits newState,IOOptionBits * oldState)366*19c3b8c2SApple OSS Distributions IOMultiMemoryDescriptor::setPurgeable( IOOptionBits newState,
367*19c3b8c2SApple OSS Distributions IOOptionBits * oldState )
368*19c3b8c2SApple OSS Distributions {
369*19c3b8c2SApple OSS Distributions IOReturn err;
370*19c3b8c2SApple OSS Distributions IOOptionBits totalState, state;
371*19c3b8c2SApple OSS Distributions
372*19c3b8c2SApple OSS Distributions totalState = kIOMemoryPurgeableNonVolatile;
373*19c3b8c2SApple OSS Distributions err = kIOReturnSuccess;
374*19c3b8c2SApple OSS Distributions for (unsigned index = 0; index < _descriptorsCount; index++) {
375*19c3b8c2SApple OSS Distributions err = _descriptors[index]->setPurgeable(newState, &state);
376*19c3b8c2SApple OSS Distributions if (kIOReturnSuccess != err) {
377*19c3b8c2SApple OSS Distributions break;
378*19c3b8c2SApple OSS Distributions }
379*19c3b8c2SApple OSS Distributions
380*19c3b8c2SApple OSS Distributions if (kIOMemoryPurgeableEmpty == state) {
381*19c3b8c2SApple OSS Distributions totalState = kIOMemoryPurgeableEmpty;
382*19c3b8c2SApple OSS Distributions } else if (kIOMemoryPurgeableEmpty == totalState) {
383*19c3b8c2SApple OSS Distributions continue;
384*19c3b8c2SApple OSS Distributions } else if (kIOMemoryPurgeableVolatile == totalState) {
385*19c3b8c2SApple OSS Distributions continue;
386*19c3b8c2SApple OSS Distributions } else if (kIOMemoryPurgeableVolatile == state) {
387*19c3b8c2SApple OSS Distributions totalState = kIOMemoryPurgeableVolatile;
388*19c3b8c2SApple OSS Distributions } else {
389*19c3b8c2SApple OSS Distributions totalState = kIOMemoryPurgeableNonVolatile;
390*19c3b8c2SApple OSS Distributions }
391*19c3b8c2SApple OSS Distributions }
392*19c3b8c2SApple OSS Distributions if (oldState) {
393*19c3b8c2SApple OSS Distributions *oldState = totalState;
394*19c3b8c2SApple OSS Distributions }
395*19c3b8c2SApple OSS Distributions
396*19c3b8c2SApple OSS Distributions return err;
397*19c3b8c2SApple OSS Distributions }
398*19c3b8c2SApple OSS Distributions
399*19c3b8c2SApple OSS Distributions IOReturn
setOwnership(task_t newOwner,int newLedgerTag,IOOptionBits newLedgerOptions)400*19c3b8c2SApple OSS Distributions IOMultiMemoryDescriptor::setOwnership( task_t newOwner,
401*19c3b8c2SApple OSS Distributions int newLedgerTag,
402*19c3b8c2SApple OSS Distributions IOOptionBits newLedgerOptions )
403*19c3b8c2SApple OSS Distributions {
404*19c3b8c2SApple OSS Distributions IOReturn err;
405*19c3b8c2SApple OSS Distributions
406*19c3b8c2SApple OSS Distributions if (iokit_iomd_setownership_enabled == FALSE) {
407*19c3b8c2SApple OSS Distributions return kIOReturnUnsupported;
408*19c3b8c2SApple OSS Distributions }
409*19c3b8c2SApple OSS Distributions
410*19c3b8c2SApple OSS Distributions err = kIOReturnSuccess;
411*19c3b8c2SApple OSS Distributions for (unsigned index = 0; index < _descriptorsCount; index++) {
412*19c3b8c2SApple OSS Distributions err = _descriptors[index]->setOwnership(newOwner, newLedgerTag, newLedgerOptions);
413*19c3b8c2SApple OSS Distributions if (kIOReturnSuccess != err) {
414*19c3b8c2SApple OSS Distributions break;
415*19c3b8c2SApple OSS Distributions }
416*19c3b8c2SApple OSS Distributions }
417*19c3b8c2SApple OSS Distributions
418*19c3b8c2SApple OSS Distributions return err;
419*19c3b8c2SApple OSS Distributions }
420*19c3b8c2SApple OSS Distributions
421*19c3b8c2SApple OSS Distributions IOReturn
getPageCounts(IOByteCount * pResidentPageCount,IOByteCount * pDirtyPageCount)422*19c3b8c2SApple OSS Distributions IOMultiMemoryDescriptor::getPageCounts(IOByteCount * pResidentPageCount,
423*19c3b8c2SApple OSS Distributions IOByteCount * pDirtyPageCount)
424*19c3b8c2SApple OSS Distributions {
425*19c3b8c2SApple OSS Distributions IOReturn err;
426*19c3b8c2SApple OSS Distributions IOByteCount totalResidentPageCount, totalDirtyPageCount;
427*19c3b8c2SApple OSS Distributions IOByteCount residentPageCount, dirtyPageCount;
428*19c3b8c2SApple OSS Distributions
429*19c3b8c2SApple OSS Distributions err = kIOReturnSuccess;
430*19c3b8c2SApple OSS Distributions totalResidentPageCount = totalDirtyPageCount = 0;
431*19c3b8c2SApple OSS Distributions for (unsigned index = 0; index < _descriptorsCount; index++) {
432*19c3b8c2SApple OSS Distributions err = _descriptors[index]->getPageCounts(&residentPageCount, &dirtyPageCount);
433*19c3b8c2SApple OSS Distributions if (kIOReturnSuccess != err) {
434*19c3b8c2SApple OSS Distributions break;
435*19c3b8c2SApple OSS Distributions }
436*19c3b8c2SApple OSS Distributions totalResidentPageCount += residentPageCount;
437*19c3b8c2SApple OSS Distributions totalDirtyPageCount += dirtyPageCount;
438*19c3b8c2SApple OSS Distributions }
439*19c3b8c2SApple OSS Distributions
440*19c3b8c2SApple OSS Distributions if (pResidentPageCount) {
441*19c3b8c2SApple OSS Distributions *pResidentPageCount = totalResidentPageCount;
442*19c3b8c2SApple OSS Distributions }
443*19c3b8c2SApple OSS Distributions if (pDirtyPageCount) {
444*19c3b8c2SApple OSS Distributions *pDirtyPageCount = totalDirtyPageCount;
445*19c3b8c2SApple OSS Distributions }
446*19c3b8c2SApple OSS Distributions
447*19c3b8c2SApple OSS Distributions return err;
448*19c3b8c2SApple OSS Distributions }
449*19c3b8c2SApple OSS Distributions
450*19c3b8c2SApple OSS Distributions uint64_t
getPreparationID(void)451*19c3b8c2SApple OSS Distributions IOMultiMemoryDescriptor::getPreparationID( void )
452*19c3b8c2SApple OSS Distributions {
453*19c3b8c2SApple OSS Distributions if (!super::getKernelReserved()) {
454*19c3b8c2SApple OSS Distributions return kIOPreparationIDUnsupported;
455*19c3b8c2SApple OSS Distributions }
456*19c3b8c2SApple OSS Distributions
457*19c3b8c2SApple OSS Distributions for (unsigned index = 0; index < _descriptorsCount; index++) {
458*19c3b8c2SApple OSS Distributions uint64_t preparationID = _descriptors[index]->getPreparationID();
459*19c3b8c2SApple OSS Distributions
460*19c3b8c2SApple OSS Distributions if (preparationID == kIOPreparationIDUnsupported) {
461*19c3b8c2SApple OSS Distributions return kIOPreparationIDUnsupported;
462*19c3b8c2SApple OSS Distributions }
463*19c3b8c2SApple OSS Distributions
464*19c3b8c2SApple OSS Distributions if (preparationID == kIOPreparationIDUnprepared) {
465*19c3b8c2SApple OSS Distributions return kIOPreparationIDUnprepared;
466*19c3b8c2SApple OSS Distributions }
467*19c3b8c2SApple OSS Distributions }
468*19c3b8c2SApple OSS Distributions
469*19c3b8c2SApple OSS Distributions super::setPreparationID();
470*19c3b8c2SApple OSS Distributions
471*19c3b8c2SApple OSS Distributions return super::getPreparationID();
472*19c3b8c2SApple OSS Distributions }
473