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To avoid needless warnings we use generated cxx flags also if cflags are equals to...
[AROS.git] / tools / adflib / adf_bitm.c
blobdba598bc2eb50017026e068c51ba8d910bda431d
1 /*
2 * ADF Library. (C) 1997-1999 Laurent Clevy
3 *
4 * adf_bitm.c
5 *
6 * bitmap code
7 */
8
9 #include <stdlib.h>
10 #include <stdio.h>
11 #include <string.h>
12
13 #include"adf_raw.h"
14 #include"adf_bitm.h"
15 #include"adf_err.h"
16 #include"adf_disk.h"
17 #include"adf_util.h"
18 #include"defendian.h"
19
20 extern struct Env adfEnv;
21
22 /*
23 * adfUpdateBitmap
24 *
25 */
26 RETCODE adfUpdateBitmap(struct Volume *vol)
27 {
28 int i;
29 struct bRootBlock root;
30
31 /*printf("adfUpdateBitmap\n");*/
32
33 if (adfReadRootBlock(vol, vol->rootBlock,&root)!=RC_OK)
34 return RC_ERROR;
35
36 root.bmFlag = BM_INVALID;
37 if (adfWriteRootBlock(vol,vol->rootBlock,&root)!=RC_OK)
38 return RC_ERROR;
39
40 for(i=0; i<vol->bitmapSize; i++)
41 if (vol->bitmapBlocksChg[i]) {
42 if (adfWriteBitmapBlock(vol, vol->bitmapBlocks[i], vol->bitmapTable[i])!=RC_OK)
43 return RC_ERROR;
44 vol->bitmapBlocksChg[i] = FALSE;
45 }
46
47 root.bmFlag = BM_VALID;
48 adfTime2AmigaTime(adfGiveCurrentTime(),&(root.days),&(root.mins),&(root.ticks));
49 if (adfWriteRootBlock(vol,vol->rootBlock,&root)!=RC_OK)
50 return RC_ERROR;
51
52 return RC_OK;
53 }
54
55
56 /*
57 * adfCountFreeBlocks
58 *
59 */
60 ULONG adfCountFreeBlocks(struct Volume* vol)
61 {
62 ULONG freeBlocks;
63 int j;
64
65 freeBlocks = 0L;
66 for(j=vol->reservedBlocks; j<vol->totalBlocks; j++)
67 if ( adfIsBlockFree(vol,j) )
68 freeBlocks++;
69
70 return freeBlocks;
71 }
72
73
74 /*
75 * adfReadBitmap
76 *
77 */
78 RETCODE adfReadBitmap(struct Volume* vol, struct bRootBlock* root)
79 {
80 ULONG nBlock;
81 ULONG mapSize;
82 SECTNUM nSect;
83 ULONG j, i;
84 struct bBitmapExtBlock bmExt;
85
86 nBlock = vol->totalBlocks - vol->reservedBlocks;
87
88 mapSize = nBlock / (127*32);
89 if ( (nBlock%(127*32))!=0 )
90 mapSize++;
91 vol->bitmapSize = mapSize;
92 vol->lastAlloc = vol->rootBlock;
93
94 vol->bitmapTable = (struct bBitmapBlock**) malloc(sizeof(struct bBitmapBlock*)*mapSize);
95 if (!vol->bitmapTable) {
96 (*adfEnv.eFct)("adfReadBitmap : malloc, vol->bitmapTable");
97 return RC_MALLOC;
98 }
99 vol->bitmapBlocks = (SECTNUM*) malloc(sizeof(SECTNUM)*mapSize);
100 if (!vol->bitmapBlocks) {
101 free(vol->bitmapTable);
102 (*adfEnv.eFct)("adfReadBitmap : malloc, vol->bitmapBlocks");
103 return RC_MALLOC;
104 }
105 vol->bitmapBlocksChg = (BOOL*) malloc(sizeof(BOOL)*mapSize);
106 if (!vol->bitmapBlocksChg) {
107 free(vol->bitmapTable); free(vol->bitmapBlocks);
108 (*adfEnv.eFct)("adfReadBitmap : malloc, vol->bitmapBlocks");
109 return RC_MALLOC;
110 }
111 for(i=0; i<mapSize; i++) {
112 vol->bitmapBlocksChg[i] = FALSE;
113
114 vol->bitmapTable[i] = (struct bBitmapBlock*)malloc(sizeof(struct bBitmapBlock));
115 if (!vol->bitmapTable[i]) {
116 free(vol->bitmapBlocksChg); free(vol->bitmapBlocks);
117 for(j=0; j<i; j++)
118 free(vol->bitmapTable[j]);
119 free(vol->bitmapTable);
120 (*adfEnv.eFct)("adfReadBitmap : malloc, vol->bitmapBlocks");
121 return RC_MALLOC;
122 }
123 }
124
125 j=0; i=0;
126 /* bitmap pointers in rootblock : 0 <= i <BM_SIZE */
127 while(i<BM_SIZE && root->bmPages[i]!=0) {
128 vol->bitmapBlocks[j] = nSect = root->bmPages[i];
129 if ( !isSectNumValid(vol,nSect) ) {
130 (*adfEnv.wFct)("adfReadBitmap : sector out of range");
131 }
132
133 if (adfReadBitmapBlock(vol, nSect, vol->bitmapTable[j])!=RC_OK) {
134 adfFreeBitmap(vol);
135 return RC_ERROR;
136 }
137 j++; i++;
138 }
139 nSect = root->bmExt;
140 while(nSect!=0) {
141 /* bitmap pointers in bitmapExtBlock, j <= mapSize */
142 if (adfReadBitmapExtBlock(vol, nSect, &bmExt)!=RC_OK) {
143 adfFreeBitmap(vol);
144 return RC_ERROR;
145 }
146 i=0;
147 while(i<127 && j<mapSize) {
148 nSect = bmExt.bmPages[i];
149 if ( !isSectNumValid(vol,nSect) )
150 (*adfEnv.wFct)("adfReadBitmap : sector out of range");
151 vol->bitmapBlocks[j] = nSect;
152
153 if (adfReadBitmapBlock(vol, nSect, vol->bitmapTable[j])!=RC_OK) {
154 adfFreeBitmap(vol);
155 return RC_ERROR;
156 }
157 i++; j++;
158 }
159 nSect = bmExt.nextBlock;
160 }
161
162 return RC_OK;
163 }
164
165 static inline ULONG sectorToMapMask(struct Volume *vol, SECTNUM nSect, ULONG **map, int *pblock)
166 {
167 int sectOfMap;
168 int block;
169 int indexInMap;
170
171 nSect -= vol->reservedBlocks;
172 sectOfMap = nSect & 0x1f;
173 nSect /= 32;
174
175 block = nSect / 127;
176 indexInMap = nSect % 127;
177
178 *map = &(vol->bitmapTable[ block ]->map[ indexInMap ]);
179 if (pblock)
180 *pblock = block;
181
182 return (1UL << (sectOfMap & 0x1f));
183 }
184
185 /*
186 * adfIsBlockFree
187 *
188 */
189 BOOL adfIsBlockFree(struct Volume* vol, SECTNUM nSect)
190 {
191 ULONG mask, *map;
192
193 mask = sectorToMapMask(vol, nSect, &map, NULL);
194
195 // printf("C %08lx %c\n", (unsigned long)(vol->firstBlock + nSect) * 512, (*map & mask) ? '1' : '0');
196
197 return (*map & mask) ? 1 : 0;
198 }
199
200
201 /*
202 * adfSetBlockFree OK
203 *
204 */
205 void adfSetBlockFree(struct Volume* vol, SECTNUM nSect)
206 {
207 ULONG mask, *map;
208 int block;
209
210 mask = sectorToMapMask(vol, nSect, &map, &block);
211
212 *map |= mask;
213
214 vol->bitmapBlocksChg[ block ] = TRUE;
215
216 // printf("F 0x%08lx\n", (unsigned long)(vol->firstBlock + nSect) * 512);
217 }
218
219
220 /*
221 * adfSetBlockUsed
222 *
223 */
224 void adfSetBlockUsed(struct Volume* vol, SECTNUM nSect)
225 {
226 ULONG mask, *map;
227 int block;
228
229 mask = sectorToMapMask(vol, nSect, &map, &block);
230
231 *map &= ~mask;
232
233 vol->bitmapBlocksChg[ block ] = TRUE;
234
235 // printf("A 0x%08lx\n", (unsigned long)(vol->firstBlock + nSect) * 512);
236 }
237
238
239 /*
240 * adfGet1FreeBlock
241 *
242 */
243 SECTNUM adfGet1FreeBlock(struct Volume *vol) {
244 SECTNUM block[1];
245 if (!adfGetFreeBlocks(vol,1,block))
246 return((SECTNUM)-1);
247 else
248 return(block[0]);
249 }
250
251 /*
252 * adfGetFreeBlocks
253 *
254 */
255 BOOL adfGetFreeBlocks(struct Volume* vol, int nbSect, SECTNUM* sectList)
256 {
257 int i;
258 ULONG block = vol->lastAlloc;
259
260 if (nbSect == 0)
261 return TRUE;
262
263 i = 0;
264 while( i<nbSect ) {
265 if ( adfIsBlockFree(vol, block) ) {
266 sectList[i] = block;
267 i++;
268 }
269
270 block++;
271 if (block == vol->lastAlloc)
272 return FALSE;
273
274 if (block == vol->totalBlocks)
275 block = vol->reservedBlocks;
276 }
277
278 for(i=0; i<nbSect; i++)
279 adfSetBlockUsed( vol, sectList[i] );
280
281 vol->lastAlloc = sectList[i-1];
282
283 return TRUE;
284 }
285
286
287 /*
288 * adfCreateBitmap
289 *
290 * create bitmap structure in vol
291 */
292 RETCODE adfCreateBitmap(struct Volume *vol)
293 {
294 ULONG nBlock, mapSize ;
295 int i, j;
296
297 nBlock = vol->totalBlocks - vol->reservedBlocks;
298
299 mapSize = nBlock / (127*32);
300 if ( (nBlock%(127*32))!=0 )
301 mapSize++;
302 vol->bitmapSize = mapSize;
303 vol->lastAlloc = vol->rootBlock;
304
305 vol->bitmapTable = (struct bBitmapBlock**)malloc( sizeof(struct bBitmapBlock*)*mapSize );
306 if (!vol->bitmapTable) {
307 (*adfEnv.eFct)("adfCreateBitmap : malloc, vol->bitmapTable");
308 return RC_MALLOC;
309 }
310
311 vol->bitmapBlocksChg = (BOOL*) malloc(sizeof(BOOL)*mapSize);
312 if (!vol->bitmapBlocksChg) {
313 free(vol->bitmapTable);
314 (*adfEnv.eFct)("adfCreateBitmap : malloc, vol->bitmapBlocksChg");
315 return RC_MALLOC;
316 }
317
318 vol->bitmapBlocks = (SECTNUM*) malloc(sizeof(SECTNUM)*mapSize);
319 if (!vol->bitmapBlocks) {
320 free(vol->bitmapTable); free(vol->bitmapBlocksChg);
321 (*adfEnv.eFct)("adfCreateBitmap : malloc, vol->bitmapBlocks");
322 return RC_MALLOC;
323 }
324
325 for(i=0; i<mapSize; i++) {
326 vol->bitmapTable[i] = (struct bBitmapBlock*)malloc(sizeof(struct bBitmapBlock));
327 if (!vol->bitmapTable[i]) {
328 free(vol->bitmapTable); free(vol->bitmapBlocksChg);
329 for(j=0; j<i; j++)
330 free(vol->bitmapTable[j]);
331 free(vol->bitmapTable);
332 (*adfEnv.eFct)("adfCreateBitmap : malloc");
333 return RC_MALLOC;
334 }
335 }
336
337 for(i=vol->reservedBlocks; i < nBlock; i++)
338 adfSetBlockFree(vol, i);
339
340 adfSetBlockUsed(vol, vol->rootBlock);
341
342 return RC_OK;
343 }
344
345
346 /*
347 * adfWriteNewBitmap
348 *
349 * write ext blocks and bitmap
350 *
351 * uses vol->bitmapSize,
352 */
353 RETCODE adfWriteNewBitmap(struct Volume *vol)
354 {
355 struct bBitmapExtBlock bitme;
356 SECTNUM *bitExtBlock;
357 int n, i, k;
358 int nExtBlock;
359 int nBlock;
360 SECTNUM *sectList;
361 struct bRootBlock root;
362
363 sectList=(SECTNUM*)malloc(sizeof(SECTNUM)*vol->bitmapSize);
364 if (!sectList) {
365 (*adfEnv.eFct)("adfCreateBitmap : sectList");
366 return RC_MALLOC;
367 }
368
369 /* Write out the in-root bitmap blocks */
370 if (adfReadRootBlock(vol, vol->rootBlock, &root)!=RC_OK) {
371 free(sectList);
372 return RC_ERROR;
373 }
374
375 n = min( vol->bitmapSize, BM_SIZE );
376 if (!adfGetFreeBlocks(vol, n, &sectList[0])) {
377 free(sectList);
378 return RC_ERROR;
379 }
380
381 for(i=0; i<n; i++) {
382 root.bmPages[i] = vol->bitmapBlocks[i] = sectList[i];
383 }
384 nBlock = n;
385
386 /* for devices with more than 25*127 blocks == hards disks */
387 if (vol->bitmapSize>BM_SIZE) {
388 nExtBlock = ((vol->bitmapSize-BM_SIZE)+126)/127;
389
390 bitExtBlock=(SECTNUM*)malloc(sizeof(SECTNUM)*nExtBlock);
391 if (!bitExtBlock) {
392 free(sectList);
393 adfEnv.eFct("adfWriteNewBitmap : malloc failed");
394 return RC_MALLOC;
395 }
396
397 if (!adfGetFreeBlocks(vol, nExtBlock, bitExtBlock)) {
398 adfEnv.eFct("adfWriteNewBitmap : can't get free Ext blocks");
399 free(sectList); free(bitExtBlock);
400 return RC_MALLOC;
401 }
402
403 if (!adfGetFreeBlocks(vol, vol->bitmapSize - n, &sectList[n])) {
404 free(sectList); free(bitExtBlock);
405 return RC_ERROR;
406 }
407
408 k = 0;
409 root.bmExt = bitExtBlock[ k ];
410 while( nBlock<vol->bitmapSize ) {
411 i=0;
412 memset(&bitme, 0, sizeof(bitme));
413 while( i<127 && nBlock<vol->bitmapSize ) {
414 bitme.bmPages[i] = vol->bitmapBlocks[nBlock] = sectList[nBlock];
415 i++;
416 nBlock++;
417 }
418 if ( k+1<nExtBlock )
419 bitme.nextBlock = bitExtBlock[ k+1 ];
420 else
421 bitme.nextBlock = 0;
422 if (adfWriteBitmapExtBlock(vol, bitExtBlock[ k ], &bitme)!=RC_OK) {
423 free(sectList); free(bitExtBlock);
424 return RC_ERROR;
425 }
426 k++;
427 }
428 free( bitExtBlock );
429
430 }
431 free( sectList);
432
433 if (adfWriteRootBlock(vol,vol->rootBlock,&root)!=RC_OK)
434 return RC_ERROR;
435
436 return RC_OK;
437 }
438
439 /*
440 * adfReadBitmapBlock
441 *
442 * ENDIAN DEPENDENT
443 */
444 RETCODE
445 adfReadBitmapBlock(struct Volume* vol, SECTNUM nSect, struct bBitmapBlock* bitm)
446 {
447 unsigned char buf[LOGICAL_BLOCK_SIZE];
448
449 //printf("bitmap %ld\n",nSect);
450 if (adfReadBlock(vol, nSect, buf)!=RC_OK)
451 return RC_ERROR;
452
453 memcpy(bitm, buf, LOGICAL_BLOCK_SIZE);
454 #ifdef LITT_ENDIAN
455 /* big to little = 68000 to x86 */
456 swapEndian((unsigned char*)bitm, SWBL_BITMAP);
457 #endif
458
459 if (bitm->checkSum!=adfNormalSum(buf,0,LOGICAL_BLOCK_SIZE))
460 (*adfEnv.wFct)("adfReadBitmapBlock : invalid checksum");
461
462 return RC_OK;
463 }
464
465
466 /*
467 * adfWriteBitmapBlock
468 *
469 * OK
470 */
471 RETCODE
472 adfWriteBitmapBlock(struct Volume* vol, SECTNUM nSect, struct bBitmapBlock* bitm)
473 {
474 unsigned char buf[LOGICAL_BLOCK_SIZE];
475 ULONG newSum;
476
477 memcpy(buf,bitm,LOGICAL_BLOCK_SIZE);
478 #ifdef LITT_ENDIAN
479 /* little to big */
480 swapEndian(buf, SWBL_BITMAP);
481 #endif
482
483 newSum = adfNormalSum(buf, 0, LOGICAL_BLOCK_SIZE);
484 swLong(buf,newSum);
485
486 /* dumpBlock((unsigned char*)buf);*/
487 if (adfWriteBlock(vol, nSect, (unsigned char*)buf)!=RC_OK)
488 return RC_ERROR;
489
490 return RC_OK;
491 }
492
493
494 /*
495 * adfReadBitmapExtBlock
496 *
497 * ENDIAN DEPENDENT
498 */
499 RETCODE
500 adfReadBitmapExtBlock(struct Volume* vol, SECTNUM nSect, struct bBitmapExtBlock* bitme)
501 {
502 unsigned char buf[LOGICAL_BLOCK_SIZE];
503
504 if (adfReadBlock(vol, nSect, buf)!=RC_OK)
505 return RC_ERROR;
506
507 memcpy(bitme, buf, LOGICAL_BLOCK_SIZE);
508 #ifdef LITT_ENDIAN
509 swapEndian((unsigned char*)bitme, SWBL_BITMAP);
510 #endif
511
512 return RC_OK;
513 }
514
515
516 /*
517 * adfWriteBitmapExtBlock
518 *
519 */
520 RETCODE
521 adfWriteBitmapExtBlock(struct Volume* vol, SECTNUM nSect, struct bBitmapExtBlock* bitme)
522 {
523 unsigned char buf[LOGICAL_BLOCK_SIZE];
524
525 memcpy(buf,bitme, LOGICAL_BLOCK_SIZE);
526 #ifdef LITT_ENDIAN
527 /* little to big */
528 swapEndian(buf, SWBL_BITMAPE);
529 #endif
530
531 /* dumpBlock((unsigned char*)buf);*/
532 if (adfWriteBlock(vol, nSect, (unsigned char*)buf)!=RC_OK)
533 return RC_ERROR;
534
535 return RC_OK;
536 }
537
538
539 /*
540 * adfFreeBitmap
541 *
542 */
543 void adfFreeBitmap(struct Volume* vol)
544 {
545 int i;
546
547 for(i=0; i<vol->bitmapSize; i++)
548 free(vol->bitmapTable[i]);
549 vol->bitmapSize = 0;
550
551 free(vol->bitmapTable);
552 vol->bitmapTable = 0;
553
554 free(vol->bitmapBlocks);
555 vol->bitmapBlocks = 0;
556
557 free(vol->bitmapBlocksChg);
558 vol->bitmapBlocksChg = 0;
559 }
560
561
562 /*#######################################################################################*/
Mirror of AROS' svn.