xref: /openbmc/qemu/tests/tcg/hexagon/misc.c (revision 1141159c)
1 /*
2  *  Copyright(c) 2019-2023 Qualcomm Innovation Center, Inc. All Rights Reserved.
3  *
4  *  This program is free software; you can redistribute it and/or modify
5  *  it under the terms of the GNU General Public License as published by
6  *  the Free Software Foundation; either version 2 of the License, or
7  *  (at your option) any later version.
8  *
9  *  This program is distributed in the hope that it will be useful,
10  *  but WITHOUT ANY WARRANTY; without even the implied warranty of
11  *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
12  *  GNU General Public License for more details.
13  *
14  *  You should have received a copy of the GNU General Public License
15  *  along with this program; if not, see <http://www.gnu.org/licenses/>.
16  */
17 
18 #include <stdio.h>
19 #include <string.h>
20 
21 typedef unsigned char uint8_t;
22 typedef unsigned short uint16_t;
23 typedef unsigned int uint32_t;
24 typedef unsigned long long uint64_t;
25 
26 
27 static inline void S4_storerhnew_rr(void *p, int index, uint16_t v)
28 {
29   asm volatile("{\n\t"
30                "    r0 = %0\n\n"
31                "    memh(%1+%2<<#2) = r0.new\n\t"
32                "}\n"
33                :: "r"(v), "r"(p), "r"(index)
34                : "r0", "memory");
35 }
36 
37 static uint32_t data;
38 static inline void *S4_storerbnew_ap(uint8_t v)
39 {
40   void *ret;
41   asm volatile("{\n\t"
42                "    r0 = %1\n\n"
43                "    memb(%0 = ##data) = r0.new\n\t"
44                "}\n"
45                : "=r"(ret)
46                : "r"(v)
47                : "r0", "memory");
48   return ret;
49 }
50 
51 static inline void *S4_storerhnew_ap(uint16_t v)
52 {
53   void *ret;
54   asm volatile("{\n\t"
55                "    r0 = %1\n\n"
56                "    memh(%0 = ##data) = r0.new\n\t"
57                "}\n"
58                : "=r"(ret)
59                : "r"(v)
60                : "r0", "memory");
61   return ret;
62 }
63 
64 static inline void *S4_storerinew_ap(uint32_t v)
65 {
66   void *ret;
67   asm volatile("{\n\t"
68                "    r0 = %1\n\n"
69                "    memw(%0 = ##data) = r0.new\n\t"
70                "}\n"
71                : "=r"(ret)
72                : "r"(v)
73                : "r0", "memory");
74   return ret;
75 }
76 
77 static inline void S4_storeirbt_io(void *p, int pred)
78 {
79   asm volatile("p0 = cmp.eq(%0, #1)\n\t"
80                "if (p0) memb(%1+#4)=#27\n\t"
81                :: "r"(pred), "r"(p)
82                : "p0", "memory");
83 }
84 
85 static inline void S4_storeirbf_io(void *p, int pred)
86 {
87   asm volatile("p0 = cmp.eq(%0, #1)\n\t"
88                "if (!p0) memb(%1+#4)=#27\n\t"
89                :: "r"(pred), "r"(p)
90                : "p0", "memory");
91 }
92 
93 static inline void S4_storeirbtnew_io(void *p, int pred)
94 {
95   asm volatile("{\n\t"
96                "    p0 = cmp.eq(%0, #1)\n\t"
97                "    if (p0.new) memb(%1+#4)=#27\n\t"
98                "}\n\t"
99                :: "r"(pred), "r"(p)
100                : "p0", "memory");
101 }
102 
103 static inline void S4_storeirbfnew_io(void *p, int pred)
104 {
105   asm volatile("{\n\t"
106                "    p0 = cmp.eq(%0, #1)\n\t"
107                "    if (!p0.new) memb(%1+#4)=#27\n\t"
108                "}\n\t"
109                :: "r"(pred), "r"(p)
110                : "p0", "memory");
111 }
112 
113 static inline void S4_storeirht_io(void *p, int pred)
114 {
115   asm volatile("p0 = cmp.eq(%0, #1)\n\t"
116                "if (p0) memh(%1+#4)=#27\n\t"
117                :: "r"(pred), "r"(p)
118                : "p0", "memory");
119 }
120 
121 static inline void S4_storeirhf_io(void *p, int pred)
122 {
123   asm volatile("p0 = cmp.eq(%0, #1)\n\t"
124                "if (!p0) memh(%1+#4)=#27\n\t"
125                :: "r"(pred), "r"(p)
126                : "p0", "memory");
127 }
128 
129 static inline void S4_storeirhtnew_io(void *p, int pred)
130 {
131   asm volatile("{\n\t"
132                "    p0 = cmp.eq(%0, #1)\n\t"
133                "    if (p0.new) memh(%1+#4)=#27\n\t"
134                "}\n\t"
135                :: "r"(pred), "r"(p)
136                : "p0", "memory");
137 }
138 
139 static inline void S4_storeirhfnew_io(void *p, int pred)
140 {
141   asm volatile("{\n\t"
142                "    p0 = cmp.eq(%0, #1)\n\t"
143                "    if (!p0.new) memh(%1+#4)=#27\n\t"
144                "}\n\t"
145                :: "r"(pred), "r"(p)
146                : "p0", "memory");
147 }
148 
149 static inline void S4_storeirit_io(void *p, int pred)
150 {
151   asm volatile("p0 = cmp.eq(%0, #1)\n\t"
152                "if (p0) memw(%1+#4)=#27\n\t"
153                :: "r"(pred), "r"(p)
154                : "p0", "memory");
155 }
156 
157 static inline void S4_storeirif_io(void *p, int pred)
158 {
159   asm volatile("p0 = cmp.eq(%0, #1)\n\t"
160                "if (!p0) memw(%1+#4)=#27\n\t"
161                :: "r"(pred), "r"(p)
162                : "p0", "memory");
163 }
164 
165 static inline void S4_storeiritnew_io(void *p, int pred)
166 {
167   asm volatile("{\n\t"
168                "    p0 = cmp.eq(%0, #1)\n\t"
169                "    if (p0.new) memw(%1+#4)=#27\n\t"
170                "}\n\t"
171                :: "r"(pred), "r"(p)
172                : "p0", "memory");
173 }
174 
175 static inline void S4_storeirifnew_io(void *p, int pred)
176 {
177   asm volatile("{\n\t"
178                "    p0 = cmp.eq(%0, #1)\n\t"
179                "    if (!p0.new) memw(%1+#4)=#27\n\t"
180                "}\n\t"
181                :: "r"(pred), "r"(p)
182                : "p0", "memory");
183 }
184 
185 static int L2_ploadrifnew_pi(void *p, int pred)
186 {
187   int result;
188   asm volatile("%0 = #31\n\t"
189                "{\n\t"
190                "    p0 = cmp.eq(%2, #1)\n\t"
191                "    if (!p0.new) %0 = memw(%1++#4)\n\t"
192                "}\n\t"
193                : "=&r"(result), "+r"(p) : "r"(pred)
194                : "p0");
195   return result;
196 }
197 
198 /*
199  * Test that compound-compare-jump is executed in 2 parts
200  * First we have to do all the compares in the packet and
201  * account for auto-anding.  Then, we can do the predicated
202  * jump.
203  */
204 static inline int cmpnd_cmp_jump(void)
205 {
206     int retval;
207     asm ("r5 = #7\n\t"
208          "r6 = #9\n\t"
209          "{\n\t"
210          "    p0 = cmp.eq(r5, #7)\n\t"
211          "    if (p0.new) jump:nt 1f\n\t"
212          "    p0 = cmp.eq(r6, #7)\n\t"
213          "}\n\t"
214          "%0 = #12\n\t"
215          "jump 2f\n\t"
216          "1:\n\t"
217          "%0 = #13\n\t"
218          "2:\n\t"
219          : "=r"(retval) :: "r5", "r6", "p0");
220     return retval;
221 }
222 
223 static inline int test_clrtnew(int arg1, int old_val)
224 {
225   int ret;
226   asm volatile("r5 = %2\n\t"
227                "{\n\t"
228                    "p0 = cmp.eq(%1, #1)\n\t"
229                    "if (p0.new) r5=#0\n\t"
230                "}\n\t"
231                "%0 = r5\n\t"
232                : "=r"(ret)
233                : "r"(arg1), "r"(old_val)
234                : "p0", "r5");
235   return ret;
236 }
237 
238 int err;
239 
240 static void check(int val, int expect)
241 {
242     if (val != expect) {
243         printf("ERROR: 0x%04x != 0x%04x\n", val, expect);
244         err++;
245     }
246 }
247 
248 static void check64(long long val, long long expect)
249 {
250     if (val != expect) {
251         printf("ERROR: 0x%016llx != 0x%016llx\n", val, expect);
252         err++;
253     }
254 }
255 
256 uint32_t init[10] = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 };
257 uint32_t array[10];
258 
259 uint32_t early_exit;
260 
261 /*
262  * Write this as a function because we can't guarantee the compiler will
263  * allocate a frame with just the SL2_return_tnew packet.
264  */
265 static void SL2_return_tnew(int x);
266 asm ("SL2_return_tnew:\n\t"
267      "   allocframe(#0)\n\t"
268      "   r1 = #1\n\t"
269      "   memw(##early_exit) = r1\n\t"
270      "   {\n\t"
271      "       p0 = cmp.eq(r0, #1)\n\t"
272      "       if (p0.new) dealloc_return:nt\n\t"    /* SL2_return_tnew */
273      "   }\n\t"
274      "   r1 = #0\n\t"
275      "   memw(##early_exit) = r1\n\t"
276      "   dealloc_return\n\t"
277     );
278 
279 static long long creg_pair(int x, int y)
280 {
281     long long retval;
282     asm ("m0 = %1\n\t"
283          "m1 = %2\n\t"
284          "%0 = c7:6\n\t"
285          : "=r"(retval) : "r"(x), "r"(y) : "m0", "m1");
286     return retval;
287 }
288 
289 static long long decbin(long long x, long long y, int *pred)
290 {
291     long long retval;
292     asm ("%0 = decbin(%2, %3)\n\t"
293          "%1 = p0\n\t"
294          : "=r"(retval), "=r"(*pred)
295          : "r"(x), "r"(y));
296     return retval;
297 }
298 
299 /* Check that predicates are auto-and'ed in a packet */
300 static int auto_and(void)
301 {
302     int retval;
303     asm ("r5 = #1\n\t"
304          "{\n\t"
305          "    p0 = cmp.eq(r1, #1)\n\t"
306          "    p0 = cmp.eq(r1, #2)\n\t"
307          "}\n\t"
308          "%0 = p0\n\t"
309          : "=r"(retval)
310          :
311          : "r5", "p0");
312     return retval;
313 }
314 
315 void test_lsbnew(void)
316 {
317     int result;
318 
319     asm("r0 = #2\n\t"
320         "r1 = #5\n\t"
321         "{\n\t"
322         "    p0 = r0\n\t"
323         "    if (p0.new) r1 = #3\n\t"
324         "}\n\t"
325         "%0 = r1\n\t"
326         : "=r"(result) :: "r0", "r1", "p0");
327     check(result, 5);
328 }
329 
330 void test_l2fetch(void)
331 {
332     /* These don't do anything in qemu, just make sure they don't assert */
333     asm volatile ("l2fetch(r0, r1)\n\t"
334                   "l2fetch(r0, r3:2)\n\t");
335 }
336 
337 static inline int ct0(uint32_t x)
338 {
339     int res;
340     asm("%0 = ct0(%1)\n\t" : "=r"(res) : "r"(x));
341     return res;
342 }
343 
344 static inline int ct1(uint32_t x)
345 {
346     int res;
347     asm("%0 = ct1(%1)\n\t" : "=r"(res) : "r"(x));
348     return res;
349 }
350 
351 static inline int ct0p(uint64_t x)
352 {
353     int res;
354     asm("%0 = ct0(%1)\n\t" : "=r"(res) : "r"(x));
355     return res;
356 }
357 
358 static inline int ct1p(uint64_t x)
359 {
360     int res;
361     asm("%0 = ct1(%1)\n\t" : "=r"(res) : "r"(x));
362     return res;
363 }
364 
365 void test_count_trailing_zeros_ones(void)
366 {
367     check(ct0(0x0000000f), 0);
368     check(ct0(0x00000000), 32);
369     check(ct0(0x000000f0), 4);
370 
371     check(ct1(0x000000f0), 0);
372     check(ct1(0x0000000f), 4);
373     check(ct1(0x00000000), 0);
374     check(ct1(0xffffffff), 32);
375 
376     check(ct0p(0x000000000000000fULL), 0);
377     check(ct0p(0x0000000000000000ULL), 64);
378     check(ct0p(0x00000000000000f0ULL), 4);
379 
380     check(ct1p(0x00000000000000f0ULL), 0);
381     check(ct1p(0x000000000000000fULL), 4);
382     check(ct1p(0x0000000000000000ULL), 0);
383     check(ct1p(0xffffffffffffffffULL), 64);
384     check(ct1p(0xffffffffff0fffffULL), 20);
385     check(ct1p(0xffffff0fffffffffULL), 36);
386 }
387 
388 int main()
389 {
390     int res;
391     long long res64;
392     int pred;
393 
394     memcpy(array, init, sizeof(array));
395     S4_storerhnew_rr(array, 4, 0xffff);
396     check(array[4], 0xffff);
397 
398     data = ~0;
399     check((uint32_t)S4_storerbnew_ap(0x12), (uint32_t)&data);
400     check(data, 0xffffff12);
401 
402     data = ~0;
403     check((uint32_t)S4_storerhnew_ap(0x1234), (uint32_t)&data);
404     check(data, 0xffff1234);
405 
406     data = ~0;
407     check((uint32_t)S4_storerinew_ap(0x12345678), (uint32_t)&data);
408     check(data, 0x12345678);
409 
410     /* Byte */
411     memcpy(array, init, sizeof(array));
412     S4_storeirbt_io(&array[1], 1);
413     check(array[2], 27);
414     S4_storeirbt_io(&array[2], 0);
415     check(array[3], 3);
416 
417     memcpy(array, init, sizeof(array));
418     S4_storeirbf_io(&array[3], 0);
419     check(array[4], 27);
420     S4_storeirbf_io(&array[4], 1);
421     check(array[5], 5);
422 
423     memcpy(array, init, sizeof(array));
424     S4_storeirbtnew_io(&array[5], 1);
425     check(array[6], 27);
426     S4_storeirbtnew_io(&array[6], 0);
427     check(array[7], 7);
428 
429     memcpy(array, init, sizeof(array));
430     S4_storeirbfnew_io(&array[7], 0);
431     check(array[8], 27);
432     S4_storeirbfnew_io(&array[8], 1);
433     check(array[9], 9);
434 
435     /* Half word */
436     memcpy(array, init, sizeof(array));
437     S4_storeirht_io(&array[1], 1);
438     check(array[2], 27);
439     S4_storeirht_io(&array[2], 0);
440     check(array[3], 3);
441 
442     memcpy(array, init, sizeof(array));
443     S4_storeirhf_io(&array[3], 0);
444     check(array[4], 27);
445     S4_storeirhf_io(&array[4], 1);
446     check(array[5], 5);
447 
448     memcpy(array, init, sizeof(array));
449     S4_storeirhtnew_io(&array[5], 1);
450     check(array[6], 27);
451     S4_storeirhtnew_io(&array[6], 0);
452     check(array[7], 7);
453 
454     memcpy(array, init, sizeof(array));
455     S4_storeirhfnew_io(&array[7], 0);
456     check(array[8], 27);
457     S4_storeirhfnew_io(&array[8], 1);
458     check(array[9], 9);
459 
460     /* Word */
461     memcpy(array, init, sizeof(array));
462     S4_storeirit_io(&array[1], 1);
463     check(array[2], 27);
464     S4_storeirit_io(&array[2], 0);
465     check(array[3], 3);
466 
467     memcpy(array, init, sizeof(array));
468     S4_storeirif_io(&array[3], 0);
469     check(array[4], 27);
470     S4_storeirif_io(&array[4], 1);
471     check(array[5], 5);
472 
473     memcpy(array, init, sizeof(array));
474     S4_storeiritnew_io(&array[5], 1);
475     check(array[6], 27);
476     S4_storeiritnew_io(&array[6], 0);
477     check(array[7], 7);
478 
479     memcpy(array, init, sizeof(array));
480     S4_storeirifnew_io(&array[7], 0);
481     check(array[8], 27);
482     S4_storeirifnew_io(&array[8], 1);
483     check(array[9], 9);
484 
485     memcpy(array, init, sizeof(array));
486     res = L2_ploadrifnew_pi(&array[6], 0);
487     check(res, 6);
488     res = L2_ploadrifnew_pi(&array[7], 1);
489     check(res, 31);
490 
491     int x = cmpnd_cmp_jump();
492     check(x, 12);
493 
494     SL2_return_tnew(0);
495     check(early_exit, 0);
496     SL2_return_tnew(1);
497     check(early_exit, 1);
498 
499     long long pair = creg_pair(5, 7);
500     check((int)pair, 5);
501     check((int)(pair >> 32), 7);
502 
503     res = test_clrtnew(1, 7);
504     check(res, 0);
505     res = test_clrtnew(2, 7);
506     check(res, 7);
507 
508     res64 = decbin(0xf0f1f2f3f4f5f6f7LL, 0x7f6f5f4f3f2f1f0fLL, &pred);
509     check64(res64, 0x357980003700010cLL);
510     check(pred, 0);
511 
512     res64 = decbin(0xfLL, 0x1bLL, &pred);
513     check64(res64, 0x78000100LL);
514     check(pred, 1);
515 
516     res = auto_and();
517     check(res, 0);
518 
519     test_lsbnew();
520 
521     test_l2fetch();
522 
523     test_count_trailing_zeros_ones();
524 
525     puts(err ? "FAIL" : "PASS");
526     return err;
527 }
528