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1 /* -*- mode: C; c-basic-offset: 3; -*- */
2 
3 /*--------------------------------------------------------------------*/
4 /*--- Cache-related stuff.                               m_cache.c ---*/
5 /*--------------------------------------------------------------------*/
6 
7 /*
8    This file is part of Valgrind, a dynamic binary instrumentation
9    framework.
10 
11    Copyright (C) 2002-2017 Nicholas Nethercote
12       njn@valgrind.org
13 
14    This program is free software; you can redistribute it and/or
15    modify it under the terms of the GNU General Public License as
16    published by the Free Software Foundation; either version 2 of the
17    License, or (at your option) any later version.
18 
19    This program is distributed in the hope that it will be useful, but
20    WITHOUT ANY WARRANTY; without even the implied warranty of
21    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
22    General Public License for more details.
23 
24    You should have received a copy of the GNU General Public License
25    along with this program; if not, write to the Free Software
26    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
27    02111-1307, USA.
28 
29    The GNU General Public License is contained in the file COPYING.
30 */
31 
32 #include "pub_core_basics.h"
33 #include "pub_core_libcbase.h"
34 #include "pub_core_libcassert.h"
35 #include "pub_core_libcprint.h"
36 #include "pub_core_mallocfree.h"
37 #include "pub_core_machine.h"
38 #include "pub_core_debuglog.h"
39 #include "libvex.h"
40 
41 #if defined(VGA_x86) || defined(VGA_amd64)
42 
43 #include "pub_core_cpuid.h"
44 
45 // All CPUID info taken from sandpile.org/ia32/cpuid.htm */
46 // Probably only works for Intel and AMD chips, and probably only for some of
47 // them.
48 
49 static void
add_cache(VexCacheInfo * ci,VexCache cache)50 add_cache(VexCacheInfo *ci, VexCache cache)
51 {
52    static UInt num_allocated = 0;
53 
54    if (ci->num_caches == num_allocated) {
55       num_allocated += 6;
56       ci->caches = VG_(realloc)("m_cache", ci->caches,
57                                 num_allocated * sizeof *ci->caches);
58    }
59 
60    if (ci->num_levels < cache.level) ci->num_levels = cache.level;
61    ci->caches[ci->num_caches++] = cache;
62 }
63 
64 /* Convenience macros */
65 #define add_icache(level, size, assoc, linesize) \
66    do { \
67       add_cache(ci, \
68                 VEX_CACHE_INIT(INSN_CACHE, level, size, linesize, assoc)); \
69    } while (0)
70 
71 #define add_dcache(level, size, assoc, linesize) \
72    do { \
73       add_cache(ci, \
74                 VEX_CACHE_INIT(DATA_CACHE, level, size, linesize, assoc)); \
75    } while (0)
76 
77 #define add_ucache(level, size, assoc, linesize) \
78    do { \
79       add_cache(ci, \
80                 VEX_CACHE_INIT(UNIFIED_CACHE, level, size, linesize, assoc)); \
81    } while (0)
82 
83 #define add_itcache(level, size, assoc) \
84    do { \
85       VexCache c = \
86           VEX_CACHE_INIT(INSN_CACHE, level, size, 0, assoc); \
87       c.is_trace_cache = True; \
88       add_cache(ci, c); \
89    } while (0)
90 
91 #define add_I1(size, assoc, linesize) add_icache(1, size, assoc, linesize)
92 #define add_D1(size, assoc, linesize) add_dcache(1, size, assoc, linesize)
93 #define add_U1(size, assoc, linesize) add_ucache(1, size, assoc, linesize)
94 #define add_I2(size, assoc, linesize) add_icache(2, size, assoc, linesize)
95 #define add_D2(size, assoc, linesize) add_dcache(2, size, assoc, linesize)
96 #define add_U2(size, assoc, linesize) add_ucache(2, size, assoc, linesize)
97 #define add_I3(size, assoc, linesize) add_icache(3, size, assoc, linesize)
98 #define add_D3(size, assoc, linesize) add_dcache(3, size, assoc, linesize)
99 #define add_U3(size, assoc, linesize) add_ucache(3, size, assoc, linesize)
100 
101 #define add_I1T(size, assoc) \
102    add_itcache(1, size, assoc)
103 
104 /* Intel method is truly wretched.  We have to do an insane indexing into an
105  * array of pre-defined configurations for various parts of the memory
106  * hierarchy.
107  * According to Intel Processor Identification, App Note 485.
108  *
109  * If a L3 cache is found, then data for it rather than the L2
110  * is returned via *LLc.
111  */
112 static Int
Intel_cache_info(Int level,VexCacheInfo * ci)113 Intel_cache_info(Int level, VexCacheInfo *ci)
114 {
115    UInt cpuid1_eax;
116    UInt cpuid1_ignore;
117    Int family;
118    Int model;
119    UChar info[16];
120    Int   i, j, trials;
121 
122    if (level < 2) {
123       VG_(debugLog)(1, "cache", "warning: CPUID level < 2 for Intel "
124                     "processor (%d)\n", level);
125       return -1;
126    }
127 
128    /* family/model needed to distinguish code reuse (currently 0x49) */
129    VG_(cpuid)(1, 0, &cpuid1_eax, &cpuid1_ignore,
130 	      &cpuid1_ignore, &cpuid1_ignore);
131    family = (((cpuid1_eax >> 20) & 0xff) << 4) + ((cpuid1_eax >> 8) & 0xf);
132    model =  (((cpuid1_eax >> 16) & 0xf) << 4) + ((cpuid1_eax >> 4) & 0xf);
133 
134    VG_(cpuid)(2, 0, (UInt*)&info[0], (UInt*)&info[4],
135                     (UInt*)&info[8], (UInt*)&info[12]);
136    trials  = info[0] - 1;   /* AL register - bits 0..7 of %eax */
137    info[0] = 0x0;           /* reset AL */
138 
139    if (0 != trials) {
140       VG_(debugLog)(1, "cache", "warning: non-zero CPUID trials for Intel "
141                     "processor (%d)\n", trials);
142       return -1;
143    }
144 
145    ci->num_levels = 0;
146    ci->num_caches = 0;
147    ci->icaches_maintain_coherence = True;
148    ci->caches = NULL;
149 
150    for (i = 0; i < 16; i++) {
151 
152       switch (info[i]) {
153 
154       case 0x0:       /* ignore zeros */
155           break;
156 
157       /* TLB info, ignore */
158       case 0x01: case 0x02: case 0x03: case 0x04: case 0x05:
159       case 0x0b:
160       case 0x4f: case 0x50: case 0x51: case 0x52: case 0x55:
161       case 0x56: case 0x57: case 0x59:
162       case 0x5a: case 0x5b: case 0x5c: case 0x5d:
163       case 0x76:
164       case 0xb0: case 0xb1: case 0xb2:
165       case 0xb3: case 0xb4: case 0xba: case 0xc0:
166       case 0xca:
167           break;
168 
169       case 0x06: add_I1( 8, 4, 32); break;
170       case 0x08: add_I1(16, 4, 32); break;
171       case 0x09: add_I1(32, 4, 64); break;
172       case 0x30: add_I1(32, 8, 64); break;
173 
174       case 0x0a: add_D1( 8, 2, 32); break;
175       case 0x0c: add_D1(16, 4, 32); break;
176       case 0x0d: add_D1(16, 4, 64); break;
177       case 0x0e: add_D1(24, 6, 64); break;
178       case 0x2c: add_D1(32, 8, 64); break;
179 
180       /* IA-64 info -- panic! */
181       case 0x10: case 0x15: case 0x1a:
182       case 0x88: case 0x89: case 0x8a: case 0x8d:
183       case 0x90: case 0x96: case 0x9b:
184          VG_(core_panic)("IA-64 cache detected?!");
185 
186       /* L3 cache info. */
187       case 0x22: add_U3(512,    4, 64); break;
188       case 0x23: add_U3(1024,   8, 64); break;
189       case 0x25: add_U3(2048,   8, 64); break;
190       case 0x29: add_U3(4096,   8, 64); break;
191       case 0x46: add_U3(4096,   4, 64); break;
192       case 0x47: add_U3(8192,   8, 64); break;
193       case 0x4a: add_U3(6144,  12, 64); break;
194       case 0x4b: add_U3(8192,  16, 64); break;
195       case 0x4c: add_U3(12288, 12, 64); break;
196       case 0x4d: add_U3(16384, 16, 64); break;
197       case 0xd0: add_U3(512,    4, 64); break;
198       case 0xd1: add_U3(1024,   4, 64); break;
199       case 0xd2: add_U3(2048,   4, 64); break;
200       case 0xd6: add_U3(1024,   8, 64); break;
201       case 0xd7: add_U3(2048,   8, 64); break;
202       case 0xd8: add_U3(4096,   8, 64); break;
203       case 0xdc: add_U3(1536,  12, 64); break;
204       case 0xdd: add_U3(3072,  12, 64); break;
205       case 0xde: add_U3(6144,  12, 64); break;
206       case 0xe2: add_U3(2048,  16, 64); break;
207       case 0xe3: add_U3(4096,  16, 64); break;
208       case 0xe4: add_U3(8192,  16, 64); break;
209       case 0xea: add_U3(12288, 24, 64); break;
210       case 0xeb: add_U3(18432, 24, 64); break;
211       case 0xec: add_U3(24576, 24, 64); break;
212 
213       /* Described as "MLC" in Intel documentation */
214       case 0x21: add_U2(256, 8, 64); break;
215 
216       /* These are sectored, whatever that means */
217          // FIXME: I did not find these in the Intel docs
218       case 0x39: add_U2(128, 4, 64); break;
219       case 0x3c: add_U2(256, 4, 64); break;
220 
221       /* If a P6 core, this means "no L2 cache".
222          If a P4 core, this means "no L3 cache".
223          We don't know what core it is, so don't issue a warning.  To detect
224          a missing L2 cache, we use 'L2_found'. */
225       case 0x40:
226           break;
227 
228       case 0x41: add_U2(  128,  4, 32); break;
229       case 0x42: add_U2(  256,  4, 32); break;
230       case 0x43: add_U2(  512,  4, 32); break;
231       case 0x44: add_U2( 1024,  4, 32); break;
232       case 0x45: add_U2( 2048,  4, 32); break;
233       case 0x48: add_U2( 3072, 12, 64); break;
234       case 0x4e: add_U2( 6144, 24, 64); break;
235       case 0x49:
236          if (family == 15 && model == 6) {
237             /* On Xeon MP (family F, model 6), this is for L3 */
238             add_U3(4096, 16, 64);
239          } else {
240 	    add_U2(4096, 16, 64);
241          }
242          break;
243 
244       /* These are sectored, whatever that means */
245       case 0x60: add_D1(16, 8, 64);  break;      /* sectored */
246       case 0x66: add_D1( 8, 4, 64);  break;      /* sectored */
247       case 0x67: add_D1(16, 4, 64);  break;      /* sectored */
248       case 0x68: add_D1(32, 4, 64);  break;      /* sectored */
249 
250       /* HACK ALERT: Instruction trace cache -- capacity is micro-ops based.
251        * conversion to byte size is a total guess;  treat the 12K and 16K
252        * cases the same since the cache byte size must be a power of two for
253        * everything to work!.  Also guessing 32 bytes for the line size...
254        */
255       case 0x70:    /* 12K micro-ops, 8-way */
256          add_I1T(12, 8);
257          break;
258       case 0x71:    /* 16K micro-ops, 8-way */
259          add_I1T(16, 8);
260          break;
261       case 0x72:    /* 32K micro-ops, 8-way */
262          add_I1T(32, 8);
263          break;
264 
265       /* not sectored, whatever that might mean */
266       case 0x78: add_U2(1024, 4,  64);  break;
267 
268       /* These are sectored, whatever that means */
269       case 0x79: add_U2( 128, 8,  64);  break;
270       case 0x7a: add_U2( 256, 8,  64);  break;
271       case 0x7b: add_U2( 512, 8,  64);  break;
272       case 0x7c: add_U2(1024, 8,  64);  break;
273       case 0x7d: add_U2(2048, 8,  64);  break;
274       case 0x7e: add_U2( 256, 8, 128);  break;
275       case 0x7f: add_U2( 512, 2,  64);  break;
276       case 0x80: add_U2( 512, 8,  64);  break;
277       case 0x81: add_U2( 128, 8,  32);  break;
278       case 0x82: add_U2( 256, 8,  32);  break;
279       case 0x83: add_U2( 512, 8,  32);  break;
280       case 0x84: add_U2(1024, 8,  32);  break;
281       case 0x85: add_U2(2048, 8,  32);  break;
282       case 0x86: add_U2( 512, 4,  64);  break;
283       case 0x87: add_U2(1024, 8,  64);  break;
284 
285       /* Ignore prefetch information */
286       case 0xf0: case 0xf1:
287          break;
288 
289       case 0xff:
290          j = 0;
291          VG_(cpuid)(4, j++, (UInt*)&info[0], (UInt*)&info[4],
292                             (UInt*)&info[8], (UInt*)&info[12]);
293 
294          while ((info[0] & 0x1f) != 0) {
295             UInt assoc = ((*(UInt *)&info[4] >> 22) & 0x3ff) + 1;
296             UInt parts = ((*(UInt *)&info[4] >> 12) & 0x3ff) + 1;
297             UInt line_size = (*(UInt *)&info[4] & 0x7ff) + 1;
298             UInt sets = *(UInt *)&info[8] + 1;
299 
300             UInt size = assoc * parts * line_size * sets / 1024;
301 
302             switch ((info[0] & 0xe0) >> 5)
303             {
304             case 1:
305                switch (info[0] & 0x1f)
306                {
307                case 1: add_D1(size, assoc, line_size); break;
308                case 2: add_I1(size, assoc, line_size); break;
309                case 3: add_U1(size, assoc, line_size); break;
310                default:
311                   VG_(debugLog)(1, "cache",
312                                 "warning: L1 cache of unknown type ignored\n");
313                   break;
314                }
315                break;
316             case 2:
317                switch (info[0] & 0x1f)
318                {
319                case 1: add_D2(size, assoc, line_size); break;
320                case 2: add_I2(size, assoc, line_size); break;
321                case 3: add_U2(size, assoc, line_size); break;
322                default:
323                   VG_(debugLog)(1, "cache",
324                                 "warning: L2 cache of unknown type ignored\n");
325                   break;
326                }
327                break;
328             case 3:
329                switch (info[0] & 0x1f)
330                {
331                case 1: add_D3(size, assoc, line_size); break;
332                case 2: add_I3(size, assoc, line_size); break;
333                case 3: add_U3(size, assoc, line_size); break;
334                default:
335                   VG_(debugLog)(1, "cache",
336                                 "warning: L3 cache of unknown type ignored\n");
337                   break;
338                }
339                break;
340             default:
341                VG_(debugLog)(1, "cache", "warning: L%u cache ignored\n",
342                              (info[0] & 0xe0) >> 5);
343                break;
344             }
345 
346             VG_(cpuid)(4, j++, (UInt*)&info[0], (UInt*)&info[4],
347                                (UInt*)&info[8], (UInt*)&info[12]);
348          }
349          break;
350 
351       default:
352          VG_(debugLog)(1, "cache",
353                        "warning: Unknown Intel cache config value (0x%x), "
354                        "ignoring\n", info[i]);
355          break;
356       }
357    }
358 
359    return 0;
360 }
361 
362 /* AMD method is straightforward, just extract appropriate bits from the
363  * result registers.
364  *
365  * Bits, for D1 and I1:
366  *  31..24  data L1 cache size in KBs
367  *  23..16  data L1 cache associativity (FFh=full)
368  *  15.. 8  data L1 cache lines per tag
369  *   7.. 0  data L1 cache line size in bytes
370  *
371  * Bits, for L2:
372  *  31..16  unified L2 cache size in KBs
373  *  15..12  unified L2 cache associativity (0=off, FFh=full)
374  *  11.. 8  unified L2 cache lines per tag
375  *   7.. 0  unified L2 cache line size in bytes
376  *
377  * #3  The AMD K7 processor's L2 cache must be configured prior to relying
378  *     upon this information. (Whatever that means -- njn)
379  *
380  * Also, according to Cyrille Chepelov, Duron stepping A0 processors (model
381  * 0x630) have a bug and misreport their L2 size as 1KB (it's really 64KB),
382  * so we detect that.
383  *
384  * Returns 0 on success, non-zero on failure.  As with the Intel code
385  * above, if a L3 cache is found, then data for it rather than the L2
386  * is returned via *LLc.
387  */
388 
389 /* A small helper */
390 static Int
decode_AMD_cache_L2_L3_assoc(Int bits_15_12)391 decode_AMD_cache_L2_L3_assoc ( Int bits_15_12 )
392 {
393    /* Decode a L2/L3 associativity indication.  It is encoded
394       differently from the I1/D1 associativity.  Returns 1
395       (direct-map) as a safe but suboptimal result for unknown
396       encodings. */
397    switch (bits_15_12 & 0xF) {
398       case 1: return 1;    case 2: return 2;
399       case 4: return 4;    case 6: return 8;
400       case 8: return 16;   case 0xA: return 32;
401       case 0xB: return 48; case 0xC: return 64;
402       case 0xD: return 96; case 0xE: return 128;
403       case 0xF: /* fully associative */
404       case 0: /* L2/L3 cache or TLB is disabled */
405       default:
406         return 1;
407    }
408 }
409 
410 static Int
AMD_cache_info(VexCacheInfo * ci)411 AMD_cache_info(VexCacheInfo *ci)
412 {
413    UInt ext_level;
414    UInt dummy, model;
415    UInt I1i, D1i, L2i, L3i;
416    UInt size, line_size, assoc;
417 
418    VG_(cpuid)(0x80000000, 0, &ext_level, &dummy, &dummy, &dummy);
419 
420    if (0 == (ext_level & 0x80000000) || ext_level < 0x80000006) {
421       VG_(debugLog)(1, "cache", "warning: ext_level < 0x80000006 for AMD "
422                     "processor (0x%x)\n", ext_level);
423       return -1;
424    }
425 
426    VG_(cpuid)(0x80000005, 0, &dummy, &dummy, &D1i, &I1i);
427    VG_(cpuid)(0x80000006, 0, &dummy, &dummy, &L2i, &L3i);
428 
429    VG_(cpuid)(0x1, 0, &model, &dummy, &dummy, &dummy);
430 
431    /* Check for Duron bug */
432    if (model == 0x630) {
433       VG_(debugLog)(1, "cache", "warning: Buggy Duron stepping A0. "
434                     "Assuming L2 size=65536 bytes\n");
435       L2i = (64 << 16) | (L2i & 0xffff);
436    }
437 
438    ci->num_levels = 2;
439    ci->num_caches = 3;
440    ci->icaches_maintain_coherence = True;
441 
442    /* Check for L3 cache */
443    if (((L3i >> 18) & 0x3fff) > 0) {
444       ci->num_levels = 3;
445       ci->num_caches = 4;
446    }
447 
448    ci->caches = VG_(malloc)("m_cache", ci->num_caches * sizeof *ci->caches);
449 
450    // D1
451    size      = (D1i >> 24) & 0xff;
452    assoc     = (D1i >> 16) & 0xff;
453    line_size = (D1i >>  0) & 0xff;
454    ci->caches[0] = VEX_CACHE_INIT(DATA_CACHE, 1, size, line_size, assoc);
455 
456    // I1
457    size      = (I1i >> 24) & 0xff;
458    assoc     = (I1i >> 16) & 0xff;
459    line_size = (I1i >>  0) & 0xff;
460    ci->caches[1] = VEX_CACHE_INIT(INSN_CACHE, 1, size, line_size, assoc);
461 
462    // L2    Nb: different bits used for L2
463    size      = (L2i >> 16) & 0xffff;
464    assoc     = decode_AMD_cache_L2_L3_assoc((L2i >> 12) & 0xf);
465    line_size = (L2i >>  0) & 0xff;
466    ci->caches[2] = VEX_CACHE_INIT(UNIFIED_CACHE, 2, size, line_size, assoc);
467 
468    // L3, if any
469    if (((L3i >> 18) & 0x3fff) > 0) {
470       /* There's an L3 cache. */
471       /* NB: the test in the if is "if L3 size > 0 ".  I don't know if
472          this is the right way to test presence-vs-absence of L3.  I
473          can't see any guidance on this in the AMD documentation. */
474       size      = ((L3i >> 18) & 0x3fff) * 512;
475       assoc     = decode_AMD_cache_L2_L3_assoc((L3i >> 12) & 0xf);
476       line_size = (L3i >>  0) & 0xff;
477       ci->caches[3] = VEX_CACHE_INIT(UNIFIED_CACHE, 3, size, line_size, assoc);
478    }
479 
480    return 0;
481 }
482 
483 static Int
get_caches_from_CPUID(VexCacheInfo * ci)484 get_caches_from_CPUID(VexCacheInfo *ci)
485 {
486    Int  ret, i;
487    UInt level;
488    HChar vendor_id[13];
489 
490    vg_assert(VG_(has_cpuid)());
491 
492    VG_(cpuid)(0, 0, &level, (UInt*)&vendor_id[0],
493 	      (UInt*)&vendor_id[8], (UInt*)&vendor_id[4]);
494    vendor_id[12] = '\0';
495 
496    if (0 == level) {    // CPUID level is 0, early Pentium?
497       return -1;
498    }
499 
500    /* Only handling Intel and AMD chips... no Cyrix, Transmeta, etc */
501    if (0 == VG_(strcmp)(vendor_id, "GenuineIntel")) {
502       ret = Intel_cache_info(level, ci);
503 
504    } else if (0 == VG_(strcmp)(vendor_id, "AuthenticAMD")) {
505       ret = AMD_cache_info(ci);
506 
507    } else if (0 == VG_(strcmp)(vendor_id, "CentaurHauls")) {
508       /* Total kludge.  Pretend to be a VIA Nehemiah. */
509       ci->num_levels = 2;
510       ci->num_caches = 3;
511       ci->icaches_maintain_coherence = True;
512       ci->caches = VG_(malloc)("m_cache", ci->num_caches * sizeof *ci->caches);
513       ci->caches[0] = VEX_CACHE_INIT(DATA_CACHE,    1, 64, 16, 16);
514       ci->caches[1] = VEX_CACHE_INIT(INSN_CACHE,    1, 64, 16,  4);
515       ci->caches[2] = VEX_CACHE_INIT(UNIFIED_CACHE, 2, 64, 16, 16);
516 
517       ret = 0;
518 
519    } else {
520       VG_(debugLog)(1, "cache", "CPU vendor ID not recognised (%s)\n",
521                     vendor_id);
522       return -1;
523    }
524 
525    /* Successful!  Convert sizes from KB to bytes */
526    for (i = 0; i < ci->num_caches; ++i) {
527       ci->caches[i].sizeB *= 1024;
528    }
529 
530    return ret;
531 }
532 
533 static Bool
get_cache_info(VexArchInfo * vai)534 get_cache_info(VexArchInfo *vai)
535 {
536    Int ret = get_caches_from_CPUID(&vai->hwcache_info);
537 
538    return ret == 0 ? True : False;
539 }
540 
541 #elif defined(VGA_arm) || defined(VGA_ppc32)    || \
542    defined(VGA_ppc64be) || defined(VGA_ppc64le) || \
543    defined(VGA_mips32) || defined(VGA_mips64) || defined(VGA_arm64)
544 static Bool
get_cache_info(VexArchInfo * vai)545 get_cache_info(VexArchInfo *vai)
546 {
547    vai->hwcache_info.icaches_maintain_coherence = False;
548 
549    return False;   // not yet
550 }
551 
552 #elif defined(VGA_s390x)
553 
554 static ULong
ecag(UInt ai,UInt li,UInt ti)555 ecag(UInt ai, UInt li, UInt ti)
556 {
557    register ULong result asm("2") = 0;
558    register ULong input  asm("3") = (ai << 4) | (li << 1) | ti;
559 
560    asm volatile(".short 0xeb20\n\t"
561                 ".long  0x3000004c\n\t"
562                  : "=d" (result) : "d" (input));
563 
564    return result;
565 }
566 
567 static UInt
get_cache_info_for_level(ULong topology,UInt level)568 get_cache_info_for_level(ULong topology, UInt level)
569 {
570    return (topology >> (56 - level * 8)) & 0xff;
571 }
572 
573 static ULong
get_line_size(UInt level,Bool is_insn_cache)574 get_line_size(UInt level, Bool is_insn_cache)
575 {
576    return ecag(1, level, is_insn_cache);
577 }
578 
579 static ULong
get_total_size(UInt level,Bool is_insn_cache)580 get_total_size(UInt level, Bool is_insn_cache)
581 {
582    return ecag(2, level, is_insn_cache);
583 }
584 
585 static ULong
get_associativity(UInt level,Bool is_insn_cache)586 get_associativity(UInt level, Bool is_insn_cache)
587 {
588    return ecag(3, level, is_insn_cache);
589 }
590 
591 static VexCache
get_cache(UInt level,VexCacheKind kind)592 get_cache(UInt level, VexCacheKind kind)
593 {
594    Bool is_insn_cache = kind == INSN_CACHE;
595    UInt size = get_total_size(level, is_insn_cache);
596    UInt line_size = get_line_size(level, is_insn_cache);
597    UInt assoc = get_associativity(level, is_insn_cache);
598 
599    return VEX_CACHE_INIT(kind, level + 1, size, line_size, assoc);
600 }
601 
602 static Bool
get_cache_info(VexArchInfo * vai)603 get_cache_info(VexArchInfo *vai)
604 {
605    VexCacheInfo *ci = &vai->hwcache_info;
606 
607    ci->icaches_maintain_coherence = True;
608 
609    if (! (vai->hwcaps & VEX_HWCAPS_S390X_GIE)) {
610       // ECAG is not available
611       return False;
612    }
613 
614    UInt level, cache_kind, info, i;
615    ULong topology = ecag(0, 0, 0);   // get summary
616 
617    /* ECAG supports at most 8 levels of cache. Find out how many levels
618       of cache and how many caches there are. */
619    ci->num_levels = 0;
620    ci->num_caches = 0;
621    for (level = 0; level < 8; level++) {
622       info = get_cache_info_for_level(topology, level);
623 
624       if ((info & 0xc) == 0) break;  // cache does not exist at this level
625       ++ci->num_levels;
626 
627       cache_kind = info & 0x3;
628       switch (cache_kind) {
629       case 0:  ci->num_caches += 2; break; /* separate data and insn cache */
630       case 1:  ci->num_caches += 1; break; /* only insn cache */
631       case 2:  ci->num_caches += 1; break; /* only data cache */
632       case 3:  ci->num_caches += 1; break; /* unified data and insn cache */
633       }
634    }
635 
636    ci->caches = VG_(malloc)("m_cache", ci->num_caches * sizeof *ci->caches);
637 
638    i = 0;
639    for (level = 0; level < ci->num_levels; level++) {
640       info = get_cache_info_for_level(topology, level);
641       cache_kind = info & 0x3;
642       switch (cache_kind) {
643       case 0:   /* separate data and insn cache */
644          ci->caches[i++] = get_cache(level, INSN_CACHE);
645          ci->caches[i++] = get_cache(level, DATA_CACHE);
646          break;
647 
648       case 1:   /* only insn cache */
649          ci->caches[i++] = get_cache(level, INSN_CACHE);
650          break;
651 
652       case 2:   /* only data cache */
653          ci->caches[i++] = get_cache(level, DATA_CACHE);
654          break;
655 
656       case 3:   /* unified data and insn cache */
657          ci->caches[i++] = get_cache(level, UNIFIED_CACHE);
658          break;
659       }
660    }
661    return True;
662 }
663 
664 #else
665 
666 #error "Unknown arch"
667 
668 #endif
669 
670 /* Debug information */
671 static void
write_cache_info(const VexCacheInfo * ci)672 write_cache_info(const VexCacheInfo *ci)
673 {
674    UInt i;
675 
676    VG_(debugLog)(1, "cache", "Cache info:\n");
677    VG_(debugLog)(1, "cache", "  #levels = %u\n", ci->num_levels);
678    VG_(debugLog)(1, "cache", "  #caches = %u\n", ci->num_caches);
679    for (i = 0; i < ci->num_caches; ++i) {
680       VexCache *c = ci->caches + i;
681       const HChar *kind;
682       VG_(debugLog)(1, "cache", "     cache #%u:\n", i);
683       switch (c->kind) {
684       case INSN_CACHE:    kind = "insn";    break;
685       case DATA_CACHE:    kind = "data";    break;
686       case UNIFIED_CACHE: kind = "unified"; break;
687       default: kind = "unknown"; break;
688       }
689       VG_(debugLog)(1, "cache", "        kind = %s\n", kind);
690       VG_(debugLog)(1, "cache", "        level = %u\n", c->level);
691       VG_(debugLog)(1, "cache", "        size = %u bytes\n", c->sizeB);
692       VG_(debugLog)(1, "cache", "        linesize = %u bytes\n", c->line_sizeB);
693       VG_(debugLog)(1, "cache", "        assoc = %u\n", c->assoc);
694    }
695 }
696 
697 static Bool
cache_info_is_sensible(const VexCacheInfo * ci)698 cache_info_is_sensible(const VexCacheInfo *ci)
699 {
700    UInt level, i;
701    Bool sensible = True;
702 
703    /* There must be at most one cache of a given kind at the same level.
704       If there is a unified cache at a given level, no other cache may
705       exist at that level. */
706    for (level = 1; level <= ci->num_levels; ++level) {
707       UInt num_icache, num_dcache, num_ucache;
708 
709       num_icache = num_dcache = num_ucache = 0;
710       for (i = 0; i < ci->num_caches; ++i) {
711          if (ci->caches[i].level == level) {
712             switch (ci->caches[i].kind) {
713             case INSN_CACHE:    ++num_icache; break;
714             case DATA_CACHE:    ++num_dcache; break;
715             case UNIFIED_CACHE: ++num_ucache; break;
716             }
717          }
718       }
719       if (num_icache == 0 && num_dcache == 0 && num_ucache == 0) {
720          VG_(debugLog)(1, "cache", "warning: No caches at level %u\n", level);
721          sensible = False;
722       }
723       if (num_icache > 1 || num_dcache > 1 || num_ucache > 1) {
724          VG_(debugLog)(1, "cache", "warning: More than one cache of a given "
725                        "kind at level %u\n", level);
726          sensible = False;
727       }
728       if (num_ucache != 0 && (num_icache > 0 || num_dcache > 0)) {
729          VG_(debugLog)(1, "cache", "warning: Unified cache and I/D cache "
730                        "at level %u\n", level);
731          sensible = False;
732       }
733    }
734 
735    /* If there is a cache at level N > 1 there must be a cache at level N-1 */
736    for (level = 2; level <= ci->num_levels; ++level) {
737       Bool found = False;
738       for (i = 0; i < ci->num_caches; ++i) {
739          if (ci->caches[i].level == level - 1) {
740             found = True;
741             break;
742          }
743       }
744       if (! found) {
745          VG_(debugLog)(1, "cache", "warning: Cache at level %u but no cache "
746                        "at level %u\n", level, level - 1);
747          sensible = False;
748       }
749    }
750 
751    return sensible;
752 }
753 
754 
755 /* Autodetect the cache information for this host and stuff it into
756    VexArchInfo::hwcache_info. Return True if successful. */
757 Bool
VG_(machine_get_cache_info)758 VG_(machine_get_cache_info)(VexArchInfo *vai)
759 {
760    Bool ok = get_cache_info(vai);
761 
762    VexCacheInfo *ci = &vai->hwcache_info;
763 
764    if (! ok) {
765       VG_(debugLog)(1, "cache", "Could not autodetect cache info\n");
766    } else {
767       ok = cache_info_is_sensible(ci);
768 
769       if (! ok) {
770          VG_(debugLog)(1, "cache",
771                        "Autodetected cache info is not sensible\n");
772       } else {
773          VG_(debugLog)(1, "cache",
774                        "Autodetected cache info is sensible\n");
775       }
776       write_cache_info(ci);  /* write out for debugging */
777    }
778 
779    if (! ok ) {
780       /* Reset cache info */
781       ci->num_levels = 0;
782       ci->num_caches = 0;
783       VG_(free)(ci->caches);
784       ci->caches = NULL;
785    }
786 
787    return ok;
788 }
789 
790 /*--------------------------------------------------------------------*/
791 /*--- end                                                          ---*/
792 /*--------------------------------------------------------------------*/
793