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55e303ae
A
1#include <debug.h>
2#include <mach_kgdb.h>
3#include <mach_vm_debug.h>
4#include <db_machine_commands.h>
5
6#include <kern/thread.h>
55e303ae
A
7#include <mach/vm_attributes.h>
8#include <mach/vm_param.h>
9#include <vm/vm_kern.h>
10#include <vm/vm_map.h>
11#include <vm/vm_page.h>
12#include <kern/spl.h>
13
14#include <kern/misc_protos.h>
15#include <ppc/exception.h>
16#include <ppc/misc_protos.h>
17#include <ppc/proc_reg.h>
18
19#include <vm/pmap.h>
20#include <ppc/pmap.h>
21#include <ppc/mem.h>
22
23#include <ppc/new_screen.h>
24#include <ppc/Firmware.h>
25#include <ppc/mappings.h>
26#include <ddb/db_output.h>
27
28#include <console/video_console.h> /* (TEST/DEBUG) */
29
30#define patper 253
31
32
33int main(void);
34void clrarea(unsigned int *source, unsigned int *sink);
35int tstcopy(void *src, void *snk, unsigned int lgn);
36void clrarea2(unsigned int *source, unsigned int *sink);
37int tstcopy2(void *src, void *snk, unsigned int lgn);
38int tstcopy3(void *src, void *snk, unsigned int lgn);
39int tstcopy4(void *src, void *snk, unsigned int lgn);
40int tstcopy5(void *src, void *snk, unsigned int lgn);
41int dumbcopy(void *src, void *snk, unsigned int lgn);
42
43
44unsigned int gtick(void);
45
46
47void bcopytest(void);
48void bcopytest(void) {
49
50 void *srcptr, *snkptr, *asrc, *asnk;
51 int bsrc, bsnk, size, iterations, i, ret, n;
52 unsigned int makerand, timein, timeout, ticks;
53 volatile int dbg = 0;
54 unsigned int *sink, *source;
55
56 long long tottime, totbytes;
57 long long tottime2, totbytes2;
58
59 kern_return_t retr;
60
61 db_printf("bcopy test\n");
62
63 retr = kmem_alloc_wired(kernel_map, (vm_offset_t *)&sink, (1024*1024)+4096); /* Get sink area */
64 if(retr != KERN_SUCCESS) { /* Did we find any memory at all? */
65 panic("bcopytest: Whoops... no memory for sink\n");
66 }
67
68 retr = kmem_alloc_wired(kernel_map, (vm_offset_t *)&source, (1024*1024)+4096); /* Get source area */
69 if(retr != KERN_SUCCESS) { /* Did we find any memory at all? */
70 panic("bcopytest: Whoops... no memory for source\n");
71 }
72
73 db_printf("Source at %08X; Sink at %08X\n", source, sink);
74
75 srcptr = (void *)&source[0];
76 snkptr = (void *)&sink[0];
77
78#if 1
79 db_printf("Testing non-overlap case; source bndry = 0 to 7F; sink bndry = 0 - 7F; lgn = 1 to 256\n");
80 for(bsrc = 0; bsrc < 128; bsrc++) { /* Step the source by 1 */
81 for(bsnk = 0; bsnk < 128; bsnk++) { /* Step the sink by 1 */
82 for(size = 1; size <= 256; size++) { /* Step the size by 1 */
83
84 clrarea(source, sink); /* Reset source and clear sink */
85 if(size == 255) {
86 dbg = 99;
87 }
88 if(tstcopy((void *)((unsigned int)srcptr + bsrc), (void *)((unsigned int)snkptr + bsnk), size)) {
89 db_printf("Test failed; source = %02X; sink = %02X; length = %d\n", bsrc, bsnk, size);
90 db_printf("failed\n");
91 }
92 }
93 }
94 }
95 db_printf("Non-overlap test complete\n");
96#endif
97
98
99#if 1
100 db_printf("Testing overlap\n");
101 for(bsrc = 1; bsrc < 128; bsrc++) { /* Step the source by 1 */
102 for(bsnk = 0; bsnk < 128; bsnk++) { /* Step the sink by 1 */
103 for(size = 1; size <= 256; size++) { /* Step the size by 1 */
104
105 clrarea2(source, sink); /* Reset source and clear sink */
106 if(bsrc < bsnk) {
107 dbg = 88;
108 }
109 else {
110 dbg = 99;
111 }
112 if(tstcopy2((void *)((unsigned int)srcptr + bsrc), (void *)((unsigned int)srcptr + bsnk), size)) {
113 db_printf("Test failed; source = %02X; sink = %02X; length = %d\n", bsrc, bsnk, size);
114 db_printf("failed\n");
115 }
116 }
117 }
118 }
119 db_printf("Overlap test complete\n");
120#endif
121
122#if 1
123 db_printf("Starting exhaustive tests\n");
124 for(i = 0; i < 262144 * 4; i++) { /* Set all 1MB of source and dest to known pattern */
125 ((unsigned char *)srcptr)[i] = i % patper; /* Make a non-power-of-two length pattern */
126 ((unsigned char *)snkptr)[i] = i % patper; /* Make a non-power-of-two length pattern */
127 }
128
129 db_printf("No overlap; source < sink, length = 0 to 1023\nSource =");
130
131#if 1
132 for(bsrc = 0; bsrc < 128; bsrc++) { /* Step source by 1 */
133 db_printf(" %3d", bsrc); /* Show where we're at */
134 for(bsnk = 0; bsnk < 128; bsnk++) { /* Step sink by 1 */
135 for(size = 0; size < 1025; size++) { /* Step size from 0 to 1023 */
136 asrc = (void *)((unsigned int)srcptr + bsrc); /* Start byte address */
137 asnk = (void *)((unsigned int)srcptr + bsnk + 2048); /* End byte address */
138 ret = tstcopy5(asrc, asnk, size); /* Copy and validate */
139 if(ret) {
140 db_printf("\nTest failed - source = %3d, sink = %3d size = %d\n", bsrc, bsnk, size);
141 db_printf("failed\n");
142 }
143 }
144 }
145 }
146#endif
147
148 db_printf("\n");
149 db_printf("No overlap; source > sink, length = 0 to 1023\nSource =");
150
151#if 1
152 for(bsrc = 0; bsrc < 128; bsrc++) { /* Step source by 1 */
153 db_printf(" %3d", bsrc); /* Show where we're at */
154 for(bsnk = 0; bsnk < 128; bsnk++) { /* Step sink by 1 */
155 for(size = 0; size < 1025; size++) { /* Step size from 0 to 1023 */
156 asrc = (void *)((unsigned int)srcptr + bsrc + 2048); /* Start byte address */
157 asnk = (void *)((unsigned int)srcptr + bsnk); /* End byte address */
158 ret = tstcopy5(asrc, asnk, size); /* Copy and validate */
159 if(ret) {
160 db_printf("\nTest failed - source = %3d, sink = %3d size = %d\n", bsrc, bsnk, size);
161 db_printf("failed\n");
162 }
163 }
164 }
165 }
166#endif
167
168 db_printf("\n");
169 db_printf("Overlap; source = sink + N (N = 0 to 127), length = 0 to 1023\nN =");
170
171#if 1
172 for(n = 0; n < 128; n++) { /* Step n by 1 */
173 db_printf(" %3d", n); /* Show where we're at */
174 for(bsnk = 0; bsnk < 128; bsnk++) { /* Step sink by 1 */
175 for(size = 0; size < 1025; size++) { /* Step size from 0 to 1023 */
176 asrc = (void *)((unsigned int)srcptr + bsnk + n); /* Start byte address */
177 asnk = (void *)((unsigned int)srcptr + bsnk); /* End byte address */
178 ret = tstcopy5(asrc, asnk, size); /* Copy and validate */
179 if(ret) {
180 db_printf("\nTest failed - source = %3d, sink = %3d size = %d\n", bsrc, bsnk, size);
181 db_printf("failed\n");
182 }
183 }
184 }
185 }
186#endif
187
188 db_printf("\n");
189 db_printf("Overlap; source + N = sink (N = 0 to 127), length = 0 to 1023\nSource =");
190
191#if 1
192 for(bsrc = 0; bsrc < 128; bsrc++) { /* Step source by 1 */
193 db_printf(" %3d", bsrc); /* Show where we're at */
194 for(n = 0; n < 128; n++) { /* Step N by 1 */
195 for(size = 0; size < 1025; size++) { /* Step size from 0 to 1023 */
196 asrc = (void *)((unsigned int)srcptr + bsnk); /* Start byte address */
197 asnk = (void *)((unsigned int)srcptr + bsnk + n); /* End byte address */
198 ret = tstcopy5(asrc, asnk, size); /* Copy and validate */
199 if(ret) {
200 db_printf("\nTest failed - source = %3d, n = %3d size = %d\n", bsrc, n, size);
201 db_printf("failed\n");
202 }
203 }
204 }
205 }
206#endif
207
208
209 db_printf("\n");
210 db_printf("Overlap; source = sink + N + 128 (N = 0 to 127), length = 0 to 1023\nN =");
211
212#if 1
213 for(n = 0; n < 128; n++) { /* Step n by 1 */
214 db_printf(" %3d", n); /* Show where we're at */
215 for(bsnk = 0; bsnk < 128; bsnk++) { /* Step sink by 1 */
216 for(size = 0; size < 1025; size++) { /* Step size from 0 to 1023 */
217 asrc = (void *)((unsigned int)srcptr + bsnk + n + 128); /* Start byte address */
218 asnk = (void *)((unsigned int)srcptr + bsnk); /* End byte address */
219 ret = tstcopy5(asrc, asnk, size); /* Copy and validate */
220 if(ret) {
221 db_printf("\nTest failed - source = %3d, sink = %3d size = %d\n", bsrc, bsnk, size);
222 db_printf("failed\n");
223 }
224 }
225 }
226 }
227#endif
228
229 db_printf("\n");
230 db_printf("Overlap; source + N + 128 = sink (N = 0 to 127), length = 0 to 1023\nSource =");
231
232#if 1
233 for(bsrc = 0; bsrc < 128; bsrc++) { /* Step source by 1 */
234 db_printf(" %3d", bsrc); /* Show where we're at */
235 for(n = 0; n < 128; n++) { /* Step N by 1 */
236 for(size = 0; size < 1025; size++) { /* Step size from 0 to 1023 */
237 asrc = (void *)((unsigned int)srcptr + bsnk); /* Start byte address */
238 asnk = (void *)((unsigned int)srcptr + bsnk + n + 128); /* End byte address */
239 ret = tstcopy5(asrc, asnk, size); /* Copy and validate */
240 if(ret) {
241 db_printf("\nTest failed - source = %3d, n = %3d size = %d\n", bsrc, n, size);
242 db_printf("failed\n");
243 }
244 }
245 }
246 }
247#endif
248
249 db_printf("\n");
250 db_printf("Overlap; source = sink + N + 256 (N = 0 to 127), length = 0 to 1023\nSource =");
251
252#if 1
253 for(n = 0; n < 128; n++) { /* Step n by 1 */
254 db_printf(" %3d", n); /* Show where we're at */
255 for(bsnk = 0; bsnk < 128; bsnk++) { /* Step sink by 1 */
256 for(size = 0; size < 1025; size++) { /* Step size from 0 to 1023 */
257 asrc = (void *)((unsigned int)srcptr + bsnk + n + 256); /* Start byte address */
258 asnk = (void *)((unsigned int)srcptr + bsnk); /* End byte address */
259 ret = tstcopy5(asrc, asnk, size); /* Copy and validate */
260 if(ret) {
261 db_printf("\nTest failed - source = %3d, sink = %3d size = %d\n", bsrc, bsnk, size);
262 db_printf("failed\n");
263 }
264 }
265 }
266 }
267#endif
268
269 db_printf("\n");
270 db_printf("Overlap; source + N + 256 = sink (N = 0 to 127), length = 0 to 1023\nSource =");
271#if 1
272 for(bsrc = 0; bsrc < 128; bsrc++) { /* Step source by 1 */
273 db_printf(" %3d", bsrc); /* Show where we're at */
274 for(n = 0; n < 128; n++) { /* Step N by 1 */
275 for(size = 0; size < 1025; size++) { /* Step size from 0 to 1023 */
276 asrc = (void *)((unsigned int)srcptr + bsnk); /* Start byte address */
277 asnk = (void *)((unsigned int)srcptr + bsnk + n + 256); /* End byte address */
278 ret = tstcopy5(asrc, asnk, size); /* Copy and validate */
279 if(ret) {
280 db_printf("\nTest failed - source = %3d, n = %3d size = %d\n", bsrc, n, size);
281 db_printf("failed\n");
282 }
283 }
284 }
285 }
286#endif
287
288
289
290
291
292
293#endif
294
295#if 0
296 iterations = 1000;
297 tottime = 0;
298 totbytes = 0;
299
300 db_printf("Random test starting; iterations = %d\n", iterations);
301 for(i = 0; i < 262144 * 4; i++) { /* Clear all 2MB of source (and dest for this test) */
302 ((unsigned char *)srcptr)[i] = i & 255;
303 }
304
305 for(i = 0; i < iterations; i++) { /* Test until we are done */
306 makerand = rand() << 16 | (rand() & 0x0000FFFF);
307 bsrc = makerand & 0x0007FFFF; /* Generate source */
308 makerand = rand() << 16 | (rand() & 0x0000FFFF);
309 bsnk = makerand & 0x0007FFFF; /* Generate sink */
310 makerand = rand() << 16 | (rand() & 0x0000FFFF);
311 size = makerand & 0x0007FFFF; /* Generate length */
312#if 1
313 db_printf("rt %7d: src = %08X; sink = %08X; length = %7d\n", i, ((unsigned int)srcptr + bsrc),
314 ((unsigned int)srcptr + bsnk), size);
315#endif
316
317 asrc = (void *)((unsigned int)srcptr + bsrc);
318 asnk = (void *)((unsigned int)srcptr + bsnk);
319 timein = gtick();
320 ret = tstcopy3(asrc, asnk, size);
321 timeout = gtick();
322 if(ret) {
323 db_printf("Test failed; source = %02X; sink = %02X; length = %d\n", bsrc, bsnk, size);
324 db_printf("failed\n");
325
326 }
327 ticks = timeout - timein; /* Get time in ticks for copy */
328 tottime += ticks;
329 totbytes += size;
330
331 rate = (double) totbytes / (double)tottime; /* Get bytes per tick */
332// rate = rate * (double)11250000.0; /* Bytes per second */
333// rate = rate * (double)16500000.0; /* Bytes per second */
334 rate = rate * (double)tbfreq; /* Bytes per second */
335 rate = rate / (double)1000000.0; /* Get number of MBs */
336
337 db_printf("Total bytes = %lld; total time = %lld; rate = %f10\n", totbytes, tottime, rate);
338
339 }
340#endif
341
342
343
344#if 0
345 iterations = 100;
346 tottime = 0;
347 totbytes = 0;
348
349 db_printf("Random test starting; iterations = %d\n", iterations);
350 for(i = 0; i < 262144 * 4; i++) { /* Clear all 2MB of source (and dest for this test) */
351 ((unsigned char *)srcptr)[i] = i & 255;
352 }
353
354 for(i = 0; i < iterations; i++) { /* Test until we are done */
355 makerand = rand() << 16 | (rand() & 0x0000FFFF);
356 bsrc = makerand & 0x0007FFFF; /* Generate source */
357 makerand = rand() << 16 | (rand() & 0x0000FFFF);
358 bsnk = makerand & 0x0007FFFF; /* Generate sink */
359 makerand = rand() << 16 | (rand() & 0x0000FFFF);
360 size = makerand & 0x0007FFFF; /* Generate length */
361#if 1
362 db_printf("rt %7d: src = %08X; sink = %08X; length = %7d\n", i, ((unsigned int)srcptr + bsrc),
363 ((unsigned int)srcptr + bsnk), size);
364#endif
365
366 asrc = (void *)((unsigned int)srcptr + bsrc);
367 asnk = (void *)((unsigned int)srcptr + bsnk);
368 timein = gtick();
369 ret = tstcopy4(asrc, asnk, size);
370 timeout = gtick();
371 if(ret) {
372 db_printf("Test failed; source = %02X; sink = %02X; length = %d\n", bsrc, bsnk, size);
373 db_printf("failed\n");
374
375 }
376 ticks = timeout - timein; /* Get time in ticks for copy */
377 tottime += ticks;
378 totbytes += size;
379
380 rate = (double) totbytes / (double)tottime; /* Get bytes per tick */
381// rate = rate * (double)11250000.0; /* Bytes per second */
382// rate = rate * (double)16500000.0; /* Bytes per second */
383 rate = rate * (double)tbfreq; /* Bytes per second */
384 rate = rate / (double)1000000.0; /* Get number of MBs */
385
386 db_printf("Total bytes = %lld; total time = %lld; rate = %f10\n", totbytes, tottime, rate);
387
388 }
389#endif
390
391#if 0
392 iterations = 100;
393 tottime = 0;
394 totbytes = 0;
395
396 db_printf("Random test starting; iterations = %d\n", iterations);
397 for(i = 0; i < 262144 * 4; i++) { /* Clear all 2MB of source (and dest for this test) */
398 ((unsigned char *)srcptr)[i] = i & 255;
399 }
400
401 for(i = 0; i < iterations; i++) { /* Test until we are done */
402 makerand = rand() << 16 | (rand() & 0x0000FFFF);
403 bsrc = makerand & 0x0007FFFF; /* Generate source */
404 makerand = rand() << 16 | (rand() & 0x0000FFFF);
405 bsnk = makerand & 0x0007FFFF; /* Generate sink */
406 makerand = rand() << 16 | (rand() & 0x0000FFFF);
407 size = makerand & 0x0007FFFF; /* Generate length */
408#if 1
409 db_printf("rt %7d: src = %08X; sink = %08X; length = %7d\n", i, ((unsigned int)srcptr + bsrc),
410 ((unsigned int)srcptr + bsnk), size);
411#endif
412
413 asrc = (void *)((unsigned int)srcptr + bsrc);
414 asnk = (void *)((unsigned int)srcptr + bsnk);
415 timein = gtick();
416 ret = dumbcopy(asrc, asnk, size);
417 timeout = gtick();
418 if(ret) {
419 db_printf("Test failed; source = %02X; sink = %02X; length = %d\n", bsrc, bsnk, size);
420 db_printf("failed\n");
421
422 }
423 ticks = timeout - timein; /* Get time in ticks for copy */
424 tottime += ticks;
425 totbytes += size;
426
427 rate = (double) totbytes / (double)tottime; /* Get bytes per tick */
428 rate = rate * (double)tbfreq; /* Bytes per second */
429 rate = rate / (double)1000000.0; /* Get number of MBs */
430
431 db_printf("Total bytes = %lld; total time = %lld; rate = %f10\n", totbytes, tottime, rate);
432
433 }
434#endif
435
436 kmem_free(kernel_map, (vm_offset_t) sink, (1024*1024)+4096); /* Release this mapping block */
437 kmem_free(kernel_map, (vm_offset_t) source, (1024*1024)+4096); /* Release this mapping block */
438
439 if(dbg == 22) db_printf("Gabbagoogoo\n");
440 return;
441}
442
443void clrarea(unsigned int *source, unsigned int *sink) {
444
445 unsigned int i;
446
447 for(i=0; i < 1024; i++) { /* Init source & sink */
448 source[i] = 0x55555555; /* Known pattern */
449 sink[i] = 0xAAAAAAAA; /* Known pattern */
450 }
451 return;
452}
453
454void clrarea2(unsigned int *source, unsigned int *sink) {
455
456 unsigned int i;
457 unsigned char *ss;
458
459 ss = (unsigned char *)&source[0];
460
461 for(i=0; i < 1024 * 4; i++) { /* Init source/sink */
462 ss[i] = i & 0xFF; /* Known pattern */
463 }
464 return;
465}
466
467int tstcopy(void *src, void *snk, unsigned int lgn) {
468
469 unsigned int i, crap;
470
471 bcopy(src, snk, lgn);
472
473 for(i = 0; i < lgn; i++) {
474 if(((unsigned char *)snk)[i] != 0x55) {
475 crap = (unsigned int)&((unsigned char *)snk)[i];
476 db_printf("bad copy at sink[%d] (%08X) it is %02X\n", i,crap, ((unsigned char *)snk)[i]);
477 return 1;
478 }
479 }
480 if(((unsigned char *)snk)[lgn] != 0xAA) { /* Is it right? */
481 crap = (unsigned int)&((unsigned char *)snk)[i];
482 db_printf("Copied too far at sink[%d] (%08X) it is %02X\n", i, crap, ((unsigned char *)snk)[lgn]);
483 return 1;
484 }
485 return 0;
486
487}
488
489int tstcopy2(void *src, void *snk, unsigned int lgn) {
490
491 unsigned int i, crap;
492 unsigned char ic, ec;
493
494 ic = ((unsigned char *)src)[0];
495 ec = ((unsigned char *)snk)[lgn];
496
497 bcopy(src, snk, lgn);
498
499 for(i = 0; i < lgn; i++) {
500 if(((unsigned char *)snk)[i] != ic) {
501 crap = (unsigned int)&((unsigned char *)snk)[i];
502 db_printf("bad copy at sink[%d] (%08X) it is %02X\n", i,crap, ((unsigned char *)snk)[i]);
503 return 1;
504 }
505 ic = (ic + 1) & 0xFF;
506 }
507
508 if(((unsigned char *)snk)[lgn] != ec) { /* Is it right? */
509 crap = (unsigned int)&((unsigned char *)snk)[i];
510 db_printf("Copied too far at sink[%d] (%08X) it is %02X\n", i, crap, ((unsigned char *)snk)[lgn]);
511 return 1;
512 }
513 return 0;
514
515}
516
517int tstcopy3(void *src, void *snk, unsigned int lgn) {
518
519 unsigned int i, crap;
520 unsigned char ic, ec, oic;
521
522 oic = ((unsigned char *)snk)[0];
523 ic = ((unsigned char *)src)[0];
524 ec = ((unsigned char *)snk)[lgn];
525
526 bcopy(src, snk, lgn);
527
528 for(i = 0; i < lgn; i++) {
529 if(((unsigned char *)snk)[i] != ic) {
530 crap = (unsigned int)&((unsigned char *)snk)[i];
531 db_printf("bad copy at sink[%d] (%08X) it is %02X\n", i ,crap, ((unsigned char *)snk)[i]);
532 return 1;
533 }
534 ic = (ic + 1) & 0xFF;
535 }
536
537 if(((unsigned char *)snk)[lgn] != ec) { /* Is it right? */
538 crap = (unsigned int)&((unsigned char *)snk)[i];
539 db_printf("Copied too far at sink[%d] (%08X) it is %02X\n", i, crap, ((unsigned char *)snk)[lgn]);
540 return 1;
541 }
542
543 for(i=0; i < lgn; i++) { /* Restore pattern */
544 ((unsigned char *)snk)[i] = oic;
545 oic = (oic + 1) & 0xFF;
546 }
547
548 return 0;
549
550}
551
552int tstcopy4(void *src, void *snk, unsigned int lgn) {
553
554 bcopy(src, snk, lgn);
555 return 0;
556
557}
558
559int tstcopy5(void *src, void *snk, unsigned int lgn) {
560
561 unsigned int i, crap;
562 unsigned char ic, ec, oic, pc;
563
564 oic = ((unsigned char *)snk)[0]; /* Original first sink character */
565 ic = ((unsigned char *)src)[0]; /* Original first source character */
566 ec = ((unsigned char *)snk)[lgn]; /* Original character just after last sink character */
567 pc = ((unsigned char *)snk)[-1]; /* Original character just before sink */
568
569 bcopy(src, snk, lgn);
570
571 if(((unsigned char *)snk)[lgn] != ec) { /* Did we copy too far forward? */
572 crap = (unsigned int)&((unsigned char *)snk)[i];
573 db_printf("Copied too far at sink[%d] (%08X) it is %02X\n", i, crap, ((unsigned char *)snk)[lgn]);
574 return 1;
575 }
576
577 if(((unsigned char *)snk)[-1] != pc) { /* Did we copy too far backward? */
578 crap = (unsigned int)&((unsigned char *)snk)[i];
579 db_printf("Copied too far at sink[%d] (%08X) it is %02X\n", i, crap, ((unsigned char *)snk)[lgn]);
580 return 1;
581 }
582
583 for(i = 0; i < lgn; i++) { /* Check sink byte sequence */
584 if(((unsigned char *)snk)[i] != ic) {
585 crap = (unsigned int)&((unsigned char *)snk)[i];
586 db_printf("bad copy at sink[%d] (%08X) it is %02X\n", i ,crap, ((unsigned char *)snk)[i]);
587 return 1;
588 }
589 ic = (ic + 1) % patper;
590 }
591
592 for(i=0; i < lgn; i++) { /* Restore pattern */
593 ((unsigned char *)snk)[i] = oic;
594 oic = (oic + 1) % patper;
595 }
596
597 return 0;
598
599}
600
601int dumbcopy(void *src, void *snk, unsigned int lgn) {
602 int i;
603 char *p = (char *)snk;
604 char *q = (char *)src;
605
606 for(i = 0; i < lgn; i++) {
607 *p++ = *q++;
608 }
609 return 0;
610
611}
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