3 * CPU-specific dispatch
5 * (c) 2015 Straylight/Edgeware
8 /*----- Licensing notice --------------------------------------------------*
10 * This file is part of Catacomb.
12 * Catacomb is free software; you can redistribute it and/or modify
13 * it under the terms of the GNU Library General Public License as
14 * published by the Free Software Foundation; either version 2 of the
15 * License, or (at your option) any later version.
17 * Catacomb is distributed in the hope that it will be useful,
18 * but WITHOUT ANY WARRANTY; without even the implied warranty of
19 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20 * GNU Library General Public License for more details.
22 * You should have received a copy of the GNU Library General Public
23 * License along with Catacomb; if not, write to the Free
24 * Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
28 /*----- Header files ------------------------------------------------------*/
38 #include <mLib/macros.h>
42 /*----- Intel x86/AMD64 feature probing -----------------------------------*/
44 #if CPUFAM_X86 || CPUFAM_AMD64
46 # define EFLAGS_ID (1u << 21)
47 # define CPUID1D_SSE2 (1u << 26)
48 # define CPUID1D_FXSR (1u << 24)
49 # define CPUID1C_AESNI (1u << 25)
50 # define CPUID1C_RDRAND (1u << 30)
52 struct cpuid
{ unsigned a
, b
, c
, d
; };
56 * Arguments: @struct cpuid *cc@ = where to write the result
57 * @unsigned a, c@ = EAX and ECX registers to set
61 * Use: Minimal C wrapper around the x86 `CPUID' instruction. Checks
62 * that the instruction is actually available before invoking
63 * it; fills the output structure with zero if it's not going to
69 static __inline__
unsigned getflags(void)
70 { unsigned f
; __asm__ ("pushf; popl %0" : "=g" (f
)); return (f
); }
71 static __inline__
unsigned setflags(unsigned f
)
74 __asm__ ("pushf; pushl %1; popf; pushf; popl %0; popf"
80 static __inline__
unsigned long getflags(void)
81 { unsigned long f
; __asm__ ("pushf; popq %0" : "=g" (f
)); return (f
); }
82 static __inline__
unsigned long long setflags(unsigned long f
)
85 __asm__ ("pushf; pushq %1; popf; pushf; popq %0; popf"
93 static void cpuid(struct cpuid
*cc
, unsigned a
, unsigned c
)
99 cc
->a
= cc
->b
= cc
->c
= cc
->d
= 0;
102 /* Stupid dance to detect whether the CPUID instruction is available. */
104 if (!(setflags(f
| EFLAGS_ID
) & EFLAGS_ID
) ||
105 setflags(f
& ~EFLAGS_ID
) & EFLAGS_ID
) {
106 dispatch_debug("CPUID instruction not available");
111 /* Alas, EBX is magical in PIC code, so abuse ESI instead. This isn't
112 * pretty, but it works.
115 __asm__ ("pushl %%ebx; cpuid; movl %%ebx, %%esi; popl %%ebx"
116 : "=a" (cc
->a
), "=S" (cc
->b
), "=c" (cc
->c
), "=d" (cc
->d
)
117 : "a" (a
) , "c" (c
));
119 __asm__ ("pushq %%rbx; cpuid; movl %%ebx, %%esi; popq %%rbx"
120 : "=a" (cc
->a
), "=S" (cc
->b
), "=c" (cc
->c
), "=d" (cc
->d
)
121 : "a" (a
) , "c" (c
));
123 # error "I'm confused."
125 dispatch_debug("CPUID(%08x, %08x) -> %08x, %08x, %08x, %08x",
126 a
, c
, cc
->a
, cc
->b
, cc
->c
, cc
->d
);
128 dispatch_debug("GNU inline assembler not available; can't CPUID");
132 static unsigned cpuid_maxleaf(void)
133 { struct cpuid c
; cpuid(&c
, 0, 0); return (c
.a
); }
135 /* --- @cpuid_features_p@ --- *
137 * Arguments: @unsigned dbits@ = bits to check in EDX
138 * @unsigned cbits@ = bits to check in ECX
140 * Returns: Nonzero if all the requested bits are set in the CPUID result
144 static int cpuid_features_p(unsigned dbits
, unsigned cbits
)
147 if (cpuid_maxleaf() < 1) return (0);
149 return ((c
.d
& dbits
) == dbits
&& (c
.c
& cbits
) == cbits
);
152 /* --- @xmm_registers_available_p@ --- *
156 * Returns: Nonzero if the operating system has made the XMM registers
160 static int xmm_registers_available_p(void)
164 /* This hack is by Agner Fog. Use FXSAVE/FXRSTOR to figure out whether the
165 * XMM registers are actually alive.
167 if (!cpuid_features_p(CPUID1D_FXSR
, 0)) return (0);
169 __asm__ ("movl %%esp, %%edx; subl $512, %%esp; andl $~15, %%esp\n"
171 "movl 160(%%esp), %%eax; xorl $0xaaaa5555, 160(%%esp)\n"
172 "fxrstor (%%esp); fxsave (%%esp)\n"
173 "movl 160(%%esp), %%ecx; movl %%eax, 160(%%esp)\n"
174 "fxrstor (%%esp); movl %%edx, %%esp\n"
180 __asm__ ("movq %%rsp, %%rdx; subq $512, %%rsp; andq $~15, %%rsp\n"
182 "movl 160(%%rsp), %%eax; xorl $0xaaaa5555, 160(%%rsp)\n"
183 "fxrstor (%%rsp); fxsave (%%rsp)\n"
184 "movl 160(%%rsp), %%ecx; movl %%eax, 160(%%rsp)\n"
185 "fxrstor (%%rsp); movq %%rdx, %%rsp\n"
191 # error "I'm confused."
193 dispatch_debug("XMM registers %savailable", f ?
"" : "not ");
196 dispatch_debug("GNU inline assembler not available; can't check for XMM");
203 /*----- General feature probing using auxiliary vectors -------------------*/
205 /* Try to find the system's definitions for auxiliary vector entries. */
206 #ifdef HAVE_SYS_AUXV_H
207 # include <sys/auxv.h>
209 #ifdef HAVE_LINUX_AUXVEC_H
210 # include <linux/auxvec.h>
212 #ifdef HAVE_ASM_HWCAP_H
213 # include <asm/hwcap.h>
216 /* The type of entries in the auxiliary vector. I'm assuming that `unsigned
217 * long' matches each platform's word length; if this is false then we'll
218 * need some host-specific tweaking here.
220 union auxval
{ long i
; unsigned long u
; const void *p
; };
221 struct auxentry
{ unsigned long type
; union auxval value
; };
223 /* Register each CPU family's interest in the auxiliary vector. Make sure
224 * that the necessary entry types are defined. This is primarily ordered by
225 * entry type to minimize duplication.
227 #if defined(AT_HWCAP) && CPUFAM_ARMEL
229 # define WANT_AT_HWCAP(_) _(AT_HWCAP, u, hwcap)
232 #if defined(AT_HWCAP2) && CPUFAM_ARMEL
234 # define WANT_AT_HWCAP2(_) _(AT_HWCAP2, u, hwcap2)
237 /* If we couldn't find any interesting entries then we can switch all of this
238 * machinery off. Also do that if we have no means for atomic updates.
240 #if WANT_ANY && CPU_DISPATCH_P
242 /* The main output of this section is a bitmask of detected features. The
243 * least significant bit will be set if we've tried to probe. Always access
244 * this using `DISPATCH_LOAD' and `DISPATCH_STORE'.
246 static unsigned hwcaps
= 0;
248 /* For each potentially interesting type which turned out not to exist or be
249 * wanted, define a dummy macro for the sake of the next step.
251 #ifndef WANT_AT_HWCAP
252 # define WANT_AT_HWCAP(_)
254 #ifndef WANT_AT_HWCAP2
255 # define WANT_AT_HWCAP2(_)
258 /* For each CPU family, define two lists.
260 * * `WANTAUX' is a list of the `WANT_AT_MUMBLE' macros which the CPU
261 * family tried to register interest in above. Each entry contains the
262 * interesting auxiliary vector entry type, the name of the union branch
263 * for its value, and the name of the slot in `struct auxprobe' in which
264 * to store the value.
266 * * `CAPMAP' is a list describing the output features which the CPU family
267 * intends to satisfy from the auxiliary vector. Each entry contains a
268 * feature name suffix, and the token name (for `check_env').
271 # define WANTAUX(_) \
275 _(ARM_VFP, "arm:vfp") \
276 _(ARM_NEON, "arm:neon") \
277 _(ARM_V4, "arm:v4") \
278 _(ARM_D32, "arm:d32") \
279 _(ARM_AES, "arm:aes")
282 /* Build the bitmask for `hwcaps' from the `CAPMAP' list. */
285 #define HFI__ENUM(feat, tok) HFI_##feat,
292 #define HF__FLAG(feat, tok) HF_##feat = 1 << HFI_##feat,
298 /* Build a structure in which we can capture the interesting data from the
301 #define AUXUTYPE_i long
302 #define AUXUTYPE_u unsigned long
303 #define AUXUTYPE_p const void *
305 #define AUXPROBE__SLOT(type, ubranch, slot) AUXUTYPE_##ubranch slot;
306 WANTAUX(AUXPROBE__SLOT
)
310 /* --- @probe_hwcaps@ --- *
316 * Use: Attempt to find the auxiliary vector (which is well hidden)
317 * and discover interesting features from it.
320 static void probe_hwcaps(void)
322 unsigned hw
= HF_PROBED
;
323 struct auxprobe probed
= { 0 };
325 /* Populate `probed' with the information we manage to retrieve from the
326 * auxiliary vector. Slots we couldn't find are left zero-valued.
328 #if defined(HAVE_GETAUXVAL)
329 /* Shiny new libc lets us request individual entry types. This is almost
332 # define CAP__GET(type, ubranch, slot) \
333 probed.slot = (AUXUTYPE_##ubranch)getauxval(type);
336 /* Otherwise we're a bit stuck, really. Modern Linux kernels make a copy
337 * of the vector available in `/procc' so we could try that.
339 * The usual place is stuck on the end of the environment vector, but that
340 * may well have moved, and we have no way of telling whether it has or
341 * whether there was ever an auxiliary vector there at all; so don't do
346 unsigned char *p
= 0, *q
= 0;
347 const struct auxentry
*a
;
350 /* Open the file and read it into a memory chunk. */
351 if ((fp
= fopen("/proc/self/auxv", "rb")) == 0) goto clean
;
353 if ((p
= malloc(sz
)) == 0) goto clean
;
355 n
= fread(p
+ off
, 1, sz
- off
, fp
);
358 sz
*= 2; if ((q
= realloc(p
, sz
)) == 0) break;
362 /* Work through the vector (or as much of it as we found) and extract the
363 * types we're interested in.
365 for (a
= (const struct auxentry
*)p
,
366 n
= sz
/sizeof(struct auxentry
);
369 #define CAP__SWITCH(type, ubranch, slot) \
370 case type: probed.slot = a->value.ubranch; break;
372 case AT_NULL
: goto clean
;
382 /* Each CPU family now has to pick through what was found and stashed in
383 * `probed', and set the appropriate flag bits in `hw'.
386 if (probed
.hwcap
& HWCAP_VFPv3
) hw
|= HF_ARM_VFP
;
387 if (probed
.hwcap
& HWCAP_NEON
) hw
|= HF_ARM_NEON
;
388 if (probed
.hwcap
& HWCAP_VFPD32
) hw
|= HF_ARM_D32
;
389 if (probed
.hwcap
& HWCAP_VFPv4
) hw
|= HF_ARM_V4
;
391 if (probed
.hwcap2
& HWCAP2_AES
) hw
|= HF_ARM_AES
;
395 /* Store the bitmask of features we probed for everyone to see. */
396 DISPATCH_STORE(hwcaps
, hw
);
398 /* Finally, make a report about the things we found. (Doing this earlier
399 * will pointlessly widen the window in which multiple threads will do the
400 * above auxiliary-vector probing.)
402 #define CAP__DEBUG(feat, tok) \
403 dispatch_debug("check auxv for feature `%s': %s", tok, \
404 hw & HF_##feat ? "available" : "absent");
409 /* --- @get_hwcaps@ --- *
413 * Returns: A mask of hardware capabilities and other features, as probed
414 * from the auxiliary vector.
417 static unsigned get_hwcaps(void)
421 DISPATCH_LOAD(hwcaps
, hw
);
422 if (!(hwcaps
& HF_PROBED
)) { probe_hwcaps(); DISPATCH_LOAD(hwcaps
, hw
); }
428 /*----- External interface ------------------------------------------------*/
430 /* --- @dispatch_debug@ --- *
432 * Arguments: @const char *fmt@ = a format string
433 * @...@ = additional arguments
437 * Use: Writes a formatted message to standard output if dispatch
438 * debugging is enabled.
441 void dispatch_debug(const char *fmt
, ...)
444 const char *e
= getenv("CATACOMB_CPUDISPATCH_DEBUG");
446 if (e
&& *e
!= 'n' && *e
!= '0') {
448 fputs("Catacomb CPUDISPATCH: ", stderr
);
449 vfprintf(stderr
, fmt
, ap
);
455 /* --- @check_env@ --- *
457 * Arguments: @const char *ftok@ = feature token
459 * Returns: Zero if the feature is forced off; positive if it's forced
460 * on; negative if the user hasn't decided.
462 * Use: Checks the environment variable `CATACOMB_CPUFEAT' for the
463 * feature token @ftok@. The variable, if it exists, should be
464 * a space-separated sequence of `+tok' and `-tok' items. These
465 * tokens may end in `*', which matches any suffix.
468 static int IGNORABLE
check_env(const char *ftok
)
470 const char *p
, *q
, *pp
;
473 p
= getenv("CATACOMB_CPUFEAT");
477 while (isspace((unsigned char)*p
)) p
++;
478 if (!*p
) return (-1);
480 case '+': d
= +1; p
++; break;
481 case '-': d
= 0; p
++; break;
482 default: d
= -1; break;
484 for (q
= p
; *q
&& !isspace((unsigned char)*q
); q
++);
486 for (pp
= ftok
; p
< q
&& *pp
&& *p
== *pp
; p
++, pp
++);
487 if ((p
== q
&& !*pp
) || (*p
== '*' && p
+ 1 == q
)) return (d
);
494 /* --- @cpu_feature_p@ --- *
496 * Arguments: @unsigned feat@ = a @CPUFEAT_...@ code
498 * Returns: Nonzero if the feature is available.
504 feat_debug(const char *ftok
, const char *check
, int verdict
)
507 dispatch_debug("feature `%s': %s -> %s", ftok
, check
,
508 verdict ?
"available" : "absent");
513 int cpu_feature_p(int feat
)
517 #define CASE_CPUFEAT(feat, ftok, cond) case CPUFEAT_##feat: \
518 if ((f = feat_debug(ftok, "environment override", \
519 check_env(ftok))) >= 0) \
522 return (feat_debug(ftok, "runtime probe", cond));
525 #if CPUFAM_X86 || CPUFAM_AMD64
526 CASE_CPUFEAT(X86_SSE2
, "x86:sse2",
527 xmm_registers_available_p() &&
528 cpuid_features_p(CPUID1D_SSE2
, 0));
529 CASE_CPUFEAT(X86_AESNI
, "x86:aesni",
530 xmm_registers_available_p() &&
531 cpuid_features_p(CPUID1D_SSE2
, CPUID1C_AESNI
));
532 CASE_CPUFEAT(X86_RDRAND
, "x86:rdrand",
533 cpuid_features_p(0, CPUID1C_RDRAND
));
536 # define FEATP__CASE(feat, tok) \
537 CASE_CPUFEAT(feat, tok, get_hwcaps() & HF_##feat)
542 dispatch_debug("denying unknown feature %d", feat
);
548 /*----- That's all, folks -------------------------------------------------*/