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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) 1999 Apple Computer, Inc.
24 *
25 *
26 * HISTORY
27 *
28 * sdouglas 05 Nov 99 - created.
29 */
30
31#include <libkern/c++/OSArray.h>
32#include <libkern/c++/OSNumber.h>
33#include <IOKit/IORangeAllocator.h>
34#include <IOKit/IOLib.h>
35#include <IOKit/IOLocks.h>
36#include <IOKit/assert.h>
37
38/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
39
40#undef super
41#define super OSObject
42
43OSDefineMetaClassAndStructors( IORangeAllocator, OSObject )
44
45struct IORangeAllocatorElement {
46 // closed range
47 IORangeScalar start;
48 IORangeScalar end;
49};
50
51IOLock * gIORangeAllocatorLock;
52
53#define LOCK() \
54 if( options & kLocking) IOTakeLock( gIORangeAllocatorLock )
55#define UNLOCK() \
56 if( options & kLocking) IOUnlock( gIORangeAllocatorLock )
57
58/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
59
60bool IORangeAllocator::init( IORangeScalar endOfRange,
61 IORangeScalar _defaultAlignment,
62 UInt32 _capacity,
63 IOOptionBits _options )
64{
65 if( !super::init())
66 return( false );
67
68 if( !_capacity)
69 _capacity = 1;
70 if( !_defaultAlignment)
71 _defaultAlignment = 1;
72 capacity = 0;
73 capacityIncrement = _capacity;
74 numElements = 0;
75 elements = 0;
76 defaultAlignmentMask = _defaultAlignment - 1;
77 options = _options;
78
79 if( (!gIORangeAllocatorLock) && (options & kLocking))
80 gIORangeAllocatorLock = IOLockAlloc();
81
82 if( endOfRange)
83 deallocate( 0, endOfRange + 1 );
84
85 return( true );
86}
87
88IORangeAllocator * IORangeAllocator:: withRange(
89 IORangeScalar endOfRange,
90 IORangeScalar defaultAlignment = 0,
91 UInt32 capacity = 0,
92 IOOptionBits options = 0 )
93{
94 IORangeAllocator * thingy;
95
96 thingy = new IORangeAllocator;
97 if( thingy && ! thingy->init( endOfRange, defaultAlignment,
98 capacity, options )) {
99 thingy->release();
100 thingy = 0;
101 }
102
103 return( thingy );
104}
105
106void IORangeAllocator::free()
107{
108 if( elements)
109 IODelete( elements, IORangeAllocatorElement, capacity );
110
111 super::free();
112}
113
114UInt32 IORangeAllocator::getFragmentCount( void )
115{
116 return( numElements );
117}
118
119UInt32 IORangeAllocator::getFragmentCapacity( void )
120{
121 return( capacity );
122}
123
124void IORangeAllocator::setFragmentCapacityIncrement( UInt32 count )
125{
126 capacityIncrement = count;
127}
128
129
130// allocate element at index
131bool IORangeAllocator::allocElement( UInt32 index )
132{
133 UInt32 newCapacity;
134 IORangeAllocatorElement * newElements;
135
136 if( ((numElements == capacity) && capacityIncrement)
137 || (!elements)) {
138
139 newCapacity = capacity + capacityIncrement;
140 newElements = IONew( IORangeAllocatorElement, newCapacity );
141 if( !newElements)
142 return( false );
143
144 if( elements) {
145 bcopy( elements,
146 newElements,
147 index * sizeof( IORangeAllocatorElement));
148 bcopy( elements + index,
149 newElements + index + 1,
150 (numElements - index) * sizeof( IORangeAllocatorElement));
151
152 IODelete( elements, IORangeAllocatorElement, capacity );
153 }
154
155 elements = newElements;
156 capacity = newCapacity;
157
158 } else {
159
160 bcopy( elements + index,
161 elements + index + 1,
162 (numElements - index) * sizeof( IORangeAllocatorElement));
163 }
164 numElements++;
165
166 return( true );
167}
168
169// destroy element at index
170void IORangeAllocator::deallocElement( UInt32 index )
171{
172 numElements--;
173 bcopy( elements + index + 1,
174 elements + index,
175 (numElements - index) * sizeof( IORangeAllocatorElement));
176}
177
178bool IORangeAllocator::allocate( IORangeScalar size,
179 IORangeScalar * result,
180 IORangeScalar alignment = 0 )
181{
182 IORangeScalar data, dataEnd;
183 IORangeScalar thisStart, thisEnd;
184 UInt32 index;
185 bool ok = false;
186
187 if( !size || !result)
188 return( false );
189
190 if( 0 == alignment)
191 alignment = defaultAlignmentMask;
192 else
193 alignment--;
194
195 size = (size + defaultAlignmentMask) & ~defaultAlignmentMask;
196
197 LOCK();
198
199 for( index = 0; index < numElements; index++ ) {
200
201 thisStart = elements[index].start;
202 thisEnd = elements[index].end;
203 data = (thisStart + alignment) & ~alignment;
204 dataEnd = (data + size - 1);
205
206 ok = (dataEnd <= thisEnd);
207 if( ok) {
208 if( data != thisStart) {
209 if( dataEnd != thisEnd) {
210 if( allocElement( index + 1 )) {
211 elements[index++].end = data - 1;
212 elements[index].start = dataEnd + 1;
213 elements[index].end = thisEnd;
214 } else
215 ok = false;
216 } else
217 elements[index].end = data - 1;
218 } else {
219 if( dataEnd != thisEnd)
220 elements[index].start = dataEnd + 1;
221 else
222 deallocElement( index );
223 }
224 if( ok)
225 *result = data;
226 break;
227 }
228 }
229
230 UNLOCK();
231
232 return( ok );
233}
234
235bool IORangeAllocator::allocateRange( IORangeScalar data,
236 IORangeScalar size )
237{
238 IORangeScalar thisStart, thisEnd;
239 IORangeScalar dataEnd;
240 UInt32 index;
241 bool found = false;
242
243 if( !size)
244 return( 0 );
245
246 size = (size + defaultAlignmentMask) & ~defaultAlignmentMask;
247 dataEnd = data + size - 1;
248
249 LOCK();
250
251 for( index = 0;
252 (!found) && (index < numElements);
253 index++ ) {
254
255 thisStart = elements[index].start;
256 thisEnd = elements[index].end;
257
258 if( thisStart > data)
259 break;
260 found = (dataEnd <= thisEnd);
261
262 if( found) {
263 if( data != thisStart) {
264 if( dataEnd != thisEnd) {
265 found = allocElement( index + 1 );
266 if( found) {
267 elements[index++].end = data - 1;
268 elements[index].start = dataEnd + 1;
269 elements[index].end = thisEnd;
270 }
271 } else
272 elements[index].end = data - 1;
273 } else if( dataEnd != thisEnd)
274 elements[index].start = dataEnd + 1;
275 else
276 deallocElement( index );
277 }
278 }
279
280 UNLOCK();
281
282 return( found );
283}
284
285void IORangeAllocator::deallocate( IORangeScalar data,
286 IORangeScalar size )
287{
288 IORangeScalar dataEnd;
289 UInt32 index;
290 bool headContig = false;
291 bool tailContig = false;
292
293 size = (size + defaultAlignmentMask) & ~defaultAlignmentMask;
294 dataEnd = data + size - 1;
295
296 LOCK();
297
298 for( index = 0; index < numElements; index++ ) {
299 if( elements[index].start < data) {
300 headContig = (data <= (elements[index].end + 1));
301 continue;
302 }
303 tailContig = ((data + size) >= elements[index].start);
304 break;
305 }
306
307 if( headContig) {
308 if( tailContig) {
309 elements[index-1].end = elements[index].end;
310 deallocElement( index );
311 } else /*safe*/ if( dataEnd > elements[index-1].end)
312 elements[index-1].end = dataEnd;
313
314 } else if( tailContig) {
315 if( data < elements[index].start) /*safe*/
316 elements[index].start = data;
317
318 } else if( allocElement( index)) {
319 elements[index].start = data;
320 elements[index].end = dataEnd;
321 }
322
323 UNLOCK();
324}
325
326bool IORangeAllocator::serialize(OSSerialize *s) const
327{
328 OSArray * array = OSArray::withCapacity( numElements * 2 );
329 OSNumber * num;
330 UInt32 index;
331 bool ret;
332
333 if( !array)
334 return( false );
335
336 LOCK();
337
338 for( index = 0; index < numElements; index++) {
339 if( (num = OSNumber::withNumber( elements[index].start,
340 8 * sizeof(IORangeScalar) ))) {
341 array->setObject(num);
342 num->release();
343 }
344 if( (num = OSNumber::withNumber( elements[index].end,
345 8 * sizeof(IORangeScalar) ))) {
346 array->setObject(num);
347 num->release();
348 }
349 }
350
351 UNLOCK();
352
353 ret = array->serialize(s);
354 array->release();
355
356 return( ret );
357}
358
359IORangeScalar IORangeAllocator::getFreeCount( void )
360{
361 UInt32 index;
362 IORangeScalar sum = 0;
363
364 for( index = 0; index < numElements; index++)
365 sum += elements[index].end - elements[index].start + 1;
366
367 return( sum );
368}
369